Neutrino Models

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References

1 - Books

[1-1]
Neutrinos in high energy and astroparticle physics, Jorge Romao, Jose W. F. Valle, Wiley, 2015. ISBN 978-3-527-41197-9. http://eu.wiley.com/WileyCDA/WileyTitle/productCd-3527411976.html.
[Romao-Valle-2015]
[1-2]
Neutrinos in particle physics, astronomy and cosmology, Zhi-zhong Xing, Shun Zhou, Zhejiang University Press, Hangzhou, 2011. ISBN: 978-3-642-17560-2. https://link.springer.com/book/10.1007/978-3-642-17560-2.
[Xing:2011zza]
[1-3]
Massive neutrinos in physics and astrophysics, R. N. Mohapatra, P. B. Pal, World Scientific, 2004. Third Edition, Lecture Notes in Physics, Vol. 72. http://www.worldscientific.com/books/physics/5024.html.
[Mohapatra-Pal:2004]
[1-4]
Journeys beyond the standard model, Pierre Ramond, Front.Phys. 101 (1999) 1-390, Perseus Books. Front.Phys. 101; ISBN: 978-0813341316. http://search.perseusbooksgroup.com/book/paperback/journeys-beyond-the-standard-model/9780813341316.
[Ramond:1999vh]

2 - Reviews

[2-1]
Standard and Non-Standard Aspects of Neutrino Physics, Alessandro Granelli, Universe 10 (2024) 164, arXiv:2403.16308.
[Granelli:2024nmo]
[2-2]
The symmetry approach to quark and lepton masses and mixing, Gui-Jun Ding, Jose W. F. Valle, arXiv:2402.16963, 2024.
[Ding:2024ozt]
[2-3]
Status of R-parity violating SUSY, Arghya Choudhury, Arpita Mondal, Subhadeep Mondal, arXiv:2402.04040, 2024.
[Choudhury:2024ggy]
[2-4]
Neutrino Mass in Effective Field Theory, A. V. Borisov, A. P. Isaev, arXiv:2312.17714, 2023.
[Borisov:2023vcb]
[2-5]
Neutrino Mass and Mixing with Modular Symmetry, Gui-Jun Ding, Stephen F. King, arXiv:2311.09282, 2023.
[Ding:2023htn]
[2-6]
Electroweak Baryogenesis and Higgs Physics, Carlos E.M. Wagner, LHEP 2023 (2023) 466, arXiv:2311.06949.
[Wagner:2023vqw]
[2-7]
Phenomenology of Lepton Masses and Mixing with Discrete Flavor Symmetries, Garv Chauhan, P. S. Bhupal Dev, Ievgen Dubovyk, Bartosz Dziewit, Wojciech Flieger, Krzysztof Grzanka, Janusz Gluza, Biswajit Karmakar, Szymon Zieba, arXiv:2310.20681, 2023.
[Chauhan:2023faf]
[2-8]
Neutrino Oscillations and Mass Models, Aditya Dev, arXiv:2310.17685, 2023.
[Dev:2023iyn]
[2-9]
Current Status of the Muon g-2 Interpretations within Two-Higgs-Doublet Models, Syuhei Iguro, Teppei Kitahara, Martin S. Lang, Michihisa Takeuchi, Phys.Rev.D 108 (2023) 115012, arXiv:2304.09887.
[Iguro:2023tbk]
[2-10]
Theory of Neutrino Physics - Snowmass TF11 (aka NF08) Topical Group Report, Andre de Gouvea et al., arXiv:2209.07983, 2022.
[deGouvea:2022gut]
[2-11]
Dark Sector Physics at High-Intensity Experiments, Stefania Gori et al., arXiv:2209.04671, 2022.
[Gori:2022vri]
[2-12]
On Baryon and Lepton Number Violation, Pavel Fileviez Perez et al., arXiv:2208.00010, 2022.
[FileviezPerez:2022ypk]
[2-13]
Neutrino Flavor Model Building and the Origins of Flavor and CP Violation: A Snowmass White Paper, Yahya Almumin, Mu-Chun Chen, Murong Cheng, Victor Knapp-Perez, Yulun Li, Adreja Mondol, Saul Ramos-Sanchez, Michael Ratz, Shreya Shukla, Universe 9 (2023) 512, arXiv:2204.08668.
[Almumin:2022rml]
[2-14]
Introduction to Charged Lepton Flavour Violation, Marco Ardu, Gianantonio Pezzullo, Universe 8 (2022) 299, arXiv:2204.08220.
[Ardu:2022sbt]
[2-15]
Snowmass2021 White Paper: Collider Physics Opportunities of Extended Warped Extra-Dimensional Models, Kaustubh Agashe, Jack H. Collins, Peizhi Du, Majid Ekhterachian, Sungwoo Hong, Doojin Kim, Rashmish K. Mishra, Deepak Sathyan, arXiv:2203.13305, 2022.
[Agashe:2022gbb]
[2-16]
Snowmass White Paper: Beyond the Standard Model effects on Neutrino Flavor, C. A. Arguelles et al., arXiv:2203.10811, 2022.
[Arguelles:2022xxa]
[2-17]
Searches for Baryon Number Violation in Neutrino Experiments: A White Paper, P. S. B. Dev et al., J.Phys.G 51 (2024) 033001, arXiv:2203.08771.
[Dev:2022jbf]
[2-18]
Discrete Flavor Symmetries and Lepton Masses and Mixings, Garv Chauhan, P. S. Bhupal Dev, Bartosz Dziewit, Wojciech Flieger, Janusz Gluza, Krzysztof Grzanka, Biswajit Karmakar, Joris Vergeest, Szymon Zieba, arXiv:2203.08105, 2022.
[Chauhan:2022gkz]
[2-19]
Snowmass White Paper: Flavor Model Building, Wolfgang Altmannshofer, Jure Zupan, arXiv:2203.07726, 2022.
[Altmannshofer:2022aml]
[2-20]
Phenomenological aspects of composite Higgs scenarios: exotic scalars and vector-like quarks, Avik Banerjee et al., arXiv:2203.07270, 2022.
[Banerjee:2022xmu]
[2-21]
Two-Higgs-doublet models in light of current experiments: a brief review, Lei Wang, Jin Min Yang, Yang Zhang, Commun.Theor.Phys. 74 (2022) 097202, arXiv:2203.07244.
[Wang:2022yhm]
[2-22]
Testing neutrino flavor models, Julia Gehrlein, Serguey Petcov, Martin Spinrath, Arsenii Titov, arXiv:2203.06219, 2022.
[Gehrlein:2022nss]
[2-23]
BSM $\nu$ physics: complementarity across energies - a white paper for Snowmass 2021, Tao Han, Jiajun Liao, Hongkai Liu, Danny Marfatia, Richard Ruiz, arXiv:2203.06131, 2022.
[Han:2022qgg]
[2-24]
Tau Neutrinos in the Next Decade: from GeV to EeV, Roshan Mammen Abraham et al., J.Phys.G 49 (2022) 110501, arXiv:2203.05591.
[MammenAbraham:2022xoc]
[2-25]
Review of Neutral Naturalness, Brian Batell, Matthew Low, Ethan T. Neil, Christopher B. Verhaaren, arXiv:2203.05531, 2022.
[Batell:2022pzc]
[2-26]
New Ideas in Baryogenesis: A Snowmass White Paper, Gilly Elor et al., arXiv:2203.05010, 2022. 2022 Snowmass Summer Study.
[Elor:2022hpa]
[2-27]
Muon to positron conversion, MyeongJae Lee, Michael MacKenzie, Universe 8 (2022) 227, arXiv:2110.07093.
[Lee:2021hnx]
[2-28]
On the origin of matter in the Universe, Pasquale Di Bari, Prog.Part.Nucl.Phys. 122 (2022) 103913, arXiv:2107.13750.
[DiBari:2021fhs]
[2-29]
Naturally-Coupled Dark Sectors, Durmus Demir, Galaxies 9 (2021) 33, arXiv:2105.04277.
[Demir:2021yii]
[2-30]
What is matter according to particle physics and why try to observe its creation in lab, Francesco Vissani, Universe 7 (2021) 61, arXiv:2103.02642.
[Vissani:2021gdw]
[2-31]
Baryogenesis from the weak scale to the GUT scale, Dietrich Bodeker, Wilfried Buchmuller, Rev.Mod.Phys. 93 (2021) 035004, arXiv:2009.07294.
[Bodeker:2020ghk]
[2-32]
The minimal seesaw and leptogenesis models, Zhi-zhong Xing, Zhen-hua Zhao, Rept.Prog.Phys. 84 (2021) 066201, arXiv:2008.12090.
[Xing:2020ald]
[2-33]
Symmetries and their breaking in the fundamental laws of physics, Jose Bernabeu, Symmetry 12 (2020) 1316, arXiv:2006.13996.
[Bernabeu:2020lza]
[2-34]
Short review about the MSSM with three right-handed neutrinos (MSSM3RHN), M. C. Rodriguez, arXiv:2003.04638, 2020.
[Rodriguez:2020jae]
[2-35]
A Review of the Exceptional Supersymmetric Standard Model, S. F. King, S. Moretti, R. Nevzorov, Symmetry 12 (2020) 557, arXiv:2002.02788.
[King:2020ldn]
[2-36]
Flavor structures of charged fermions and massive neutrinos, Zhi-zhong Xing, Phys.Rept. 854 (2020) 1-147, arXiv:1909.09610.
[Xing:2020ijf]
[2-37]
Higgs lepton flavor violating decays in Two Higgs Doublet Models, Avelino Vicente, Front.in Phys. 7 (2019) 174, arXiv:1908.07759.
[Vicente:2019ykr]
[2-38]
Signatures of Supersymmetry in Neutrino Telescopes, P. S. Bhupal Dev, arXiv:1906.02147, 2019.
[BhupalDev:2019mon]
[2-39]
Several Problems in Particle Physics and Cosmology Solved in One SMASH, Guillermo Ballesteros, Javier Redondo, Andreas Ringwald, Carlos Tamarit, Front.Astron.Space Sci. 6 (2019) 55, arXiv:1904.05594.
[Ballesteros:2019tvf]
[2-40]
Heavy neutral leptons and high-intensity observables, Asmaa Abada, Ana M. Teixeira, Front.in Phys. 6 (2018) 142, arXiv:1812.08062.
[Abada:2018nio]
[2-41]
A Mini-review on Vector-like Leptonic Dark Matter, Neutrino Mass and Collider Signatures, Subhaditya Bhattacharya, Purusottam Ghosh, Nirakar Sahoo, Narendra Sahu, Front.in Phys. 7 (2019) 80, arXiv:1812.06505.
[Bhattacharya:2018fus]
[2-42]
$Z^\prime$ portal dark matter in the minimal $B-L$ model, Satomi Okada, Adv.High Energy Phys. 2018 (2018) 5340935, arXiv:1803.06793.
[Okada:2018ktp]
[2-43]
Discrete Flavour Symmetries, Neutrino Mixing and Leptonic CP Violation, S. T. Petcov, Eur.Phys.J. C78 (2018) 709, arXiv:1711.10806.
[Petcov:2017ggy]
[2-44]
CP Violation in the Lepton Sector and Implications for Leptogenesis, C. Hagedorn, R. N. Mohapatra, E. Molinaro, C. C. Nishi, S. T. Petcov, Int.J.Mod.Phys. A33 (2018) 1802001, arXiv:1711.02866.
[Hagedorn:2017wjy]
[2-45]
Probing Leptogenesis, E. J. Chun et al., Int.J.Mod.Phys. A33 (2018) 1842005, arXiv:1711.02865.
[Chun:2017spz]
[2-46]
Status of rates and rate equations for thermal leptogenesis, Simone Biondini et al., Int.J.Mod.Phys. A33 (2018) 1842004, arXiv:1711.02864.
[Biondini:2017rpb]
[2-47]
Resonant enhancement in leptogenesis, Bhupal Dev, Mathias Garny, Juraj Klaric, Peter Millington, Daniele Teresi, Int.J.Mod.Phys. A33 (2018) 1842003, arXiv:1711.02863.
[Dev:2017wwc]
[2-48]
ARS Leptogenesis, M. Drewes et al., Int.J.Mod.Phys. A33 (2018) 1842002, arXiv:1711.02862.
[Drewes:2017zyw]
[2-49]
Lepton-Number Violation: Seesaw Models and Their Collider Tests, Yi Cai, Tao Han, Tong Li, Richard Ruiz, Front.in Phys. 6 (2018) 40, arXiv:1711.02180.
[Cai:2017mow]
[2-50]
GUT and flavor models for neutrino masses and mixing, Davide Meloni, Front.in Phys. 5 (2017) 43, arXiv:1709.02662.
[Meloni:2017cig]
[2-51]
From the trees to the forest: a review of radiative neutrino mass models, Yi Cai, Juan Herrero-Garcia, Michael A. Schmidt, Avelino Vicente, Raymond R. Volkas, Front.in Phys. 5 (2017) 63, arXiv:1706.08524.
[Cai:2017jrq]
[2-52]
Fundamentals of the 3-3-1 Model with Heavy Leptons, F.C. Correia, J.Phys. G45 (2018) 043001, arXiv:1704.00786.
[Correia:2017vxa]
[2-53]
Weighing neutrinos in dynamical dark energy models, Xin Zhang, Sci.China Phys.Mech.Astron. 60 (2017) 060431, arXiv:1703.00651.
[Zhang:2017rbg]
[2-54]
Building and testing models with extended Higgs sectors, Igor P. Ivanov, Prog.Part.Nucl.Phys. 95 (2017) 160-208, arXiv:1702.03776.
[Ivanov:2017dad]
[2-55]
The Many Guises of a Neutral Fermion Singlet, Ernest Ma, Mod.Phys.Lett. A32 (2017) 1730007, arXiv:1702.03281.
[Ma:2017dbl]
[2-56]
Unified Models of Neutrinos, Flavour and CP Violation, S. F. King, Prog.Part.Nucl.Phys. 94 (2017) 217-256, arXiv:1701.04413.
[King:2017guk]
[2-57]
Heavy right-handed neutrino dark matter in left-right models, P. S. Bhupal Dev, Rabindra N. Mohapatra, Yongchao Zhang, Mod.Phys.Lett. A32 (2017) 1740007, arXiv:1610.05738.
[Dev:2016qeb]
[2-58]
Neutrino oscillations, seesaw mechanism and the quest for new physics, O. G. Miranda, J. W. F. Valle, Nucl. Phys. B908 (2016) 436-455, arXiv:1602.00864.
[Miranda:2016ptb]
[2-59]
A review of $\mu$-$\tau$ flavor symmetry in neutrino physics, Zhi-zhong Xing, Zhen-hua Zhao, Rept.Prog.Phys. 79 (2016) 076201, arXiv:1512.04207.
[Xing:2015fdg]
[2-60]
Neutrino Mass and Mixing in the Seesaw Playground, Stephen F. King, Nucl. Phys. B908 (2016) 456-466, arXiv:1511.03831.
[King:2015sfk]
[2-61]
Models of Neutrino Mass, Mixing and CP Violation, Stephen F. King, J. Phys. G42 (2015) 123001, arXiv:1510.02091.
[King:2015aea]
[2-62]
Neutrino-antineutrino Mass Splitting in the Standard Model: Neutrino Oscillation and Baryogenesis, Kazuo Fujikawa, Anca Tureanu, Mod.Phys.Lett. A30 (2015) 1530016, arXiv:1507.01177.
[Fujikawa:2015bsa]
[2-63]
Review of the Microscopic Approach to the Higgs Mechanism and to Quark and Lepton Masses and Mixings, Bodo Lampe, arXiv:1505.03477, 2015.
[Lampe:2015ara]
[2-64]
Supersymmetry and R-parity: an Overview, Rabindra N. Mohapatra, Phys.Scripta 90 (2015) 088004, arXiv:1503.06478.
[Mohapatra:2015fua]
[2-65]
Pieces of the Flavour Puzzle, Ferruccio Feruglio, Eur. Phys. J. C75 (2015) 373, arXiv:1503.04071.
[Feruglio:2015jfa]
[2-66]
Neutrinos and Collider Physics, Frank F. Deppisch, P. S. Bhupal Dev, Apostolos Pilaftsis, New J. Phys. 17 (2015) 075019, arXiv:1502.06541.
[Deppisch:2015qwa]
[2-67]
New Paradigm for Baryon and Lepton Number Violation, Pavel Fileviez Perez, Phys. Rept. 597 (2015) 1-30, arXiv:1501.01886.
[FileviezPerez:2015mlm]
[2-68]
Supersymmetry after the Higgs, Pran Nath, Annalen Phys. (2015), arXiv:1501.01679.
[Nath:2015dza]
[2-69]
Neutrino mass mechanisms in 3-3-1 models: A short review, C. A. de S. Pires, arXiv:1412.1002, 2014.
[Pires:2014xsa]
[2-70]
From Old Symmetries to New Symmetries: Quarks, Leptons and B-L, Rabindra N. Mohapatra, Int.J.Mod.Phys. A29 (2014) 1430066, arXiv:1409.7557.
[Mohapatra:2014yla]
[2-71]
A Review on Non-Minimal Universal Extra Dimensions, Thomas Flacke, Kyoungchul Kong, Seong Chan Park, Mod.Phys.Lett. A30 (2015) 0003, arXiv:1408.4024.
[Flacke:2014jwa]
[2-72]
Neutrino and The Standard Model, S. M. Bilenky, arXiv:1408.1432, 2014.
[Bilenky:2014uaa]
[2-73]
Connecting neutrino physics with dark matter, Massimiliano Lattanzi, Roberto A. Lineros, Marco Taoso, New J. Phys. 16 (2014) 125012, arXiv:1406.0004.
[Lattanzi:2014mia]
[2-74]
The low-scale approach to neutrino masses, Sofiane M. Boucenna, Stefano Morisi, Jose W.F. Valle, Adv.High Energy Phys. 2014 (2014) 831598, arXiv:1404.3751.
[Boucenna:2014zba]
[2-75]
Neutrino Mass and Mixing: from Theory to Experiment, Stephen F.King, Alexander Merle, Stefano Morisi, Yusuke Shimizu, Morimitsu Tanimoto, New J. Phys. 16 (2014) 045018, arXiv:1402.4271.
[King:2014nza]
[2-76]
Renormalization Group Running of Neutrino Parameters, Tommy Ohlsson, Shun Zhou, Nature Commun. 5 (2014) 5153, arXiv:1311.3846.
[Ohlsson:2013xva]
[2-77]
Neutrino coupling to cosmological background: A review on gravitational Baryo/Leptogenesis, G. Lambiase, S. Mohanty, A.R. Prasanna, Int.J.Mod.Phys. D22 (2013) 1330030, arXiv:1310.8459.
[Lambiase:2013haa]
[2-78]
Opportunities in Neutrino Theory - a Snowmass White Paper, Andre de Gouvea, Alexander Friedland, Patrick Huber, Irina Mocioiu, arXiv:1309.7338, 2013.
[deGouvea:2013ita]
[2-79]
Probing TeV Left-Right Seesaw at Energy and Intensity Frontiers: a Snowmass White Paper, P. S. Bhupal Dev, R.N. Mohapatra, arXiv:1308.2151, 2013.
[Dev:2013vba]
[2-80]
Next decade of sterile neutrino studies, Alexey Boyarsky, Dmytro Iakubovskyi, Oleg Ruchayskiy, Phys.Dark Univ. 1 (2012) 136-154, arXiv:1306.4954.
[Boyarsky:2012rt]
[2-81]
The Nature of Massive Neutrinos, S. T. Petcov, Adv.High Energy Phys. 2013 (2013) 852987, arXiv:1303.5819.
[Petcov:2013poa]
[2-82]
Flavor mixings and textures of the fermion mass matrices, Manmohan Gupta, Gulsheen Ahuja, Int. Jour. Mod. Phys. A, 27, (2012) 1230033, arXiv:1302.4823.
[Gupta:2012fsl]
[2-83]
keV Neutrino Model Building, Alexander Merle, Int. J. Mod. Phys. D22 (2013) 1330020, arXiv:1302.2625.
[Merle:2013gea]
[2-84]
Search for GeV-scale sterile neutrinos responsible for active neutrino oscillations and baryon asymmetry of the Universe, S. N. Gninenko, D. S. Gorbunov, M. E. Shaposhnikov, Adv.High Energy Phys. 2012 (2012) 718259, arXiv:1301.5516.
[Gninenko:2012anz]
[2-85]
Leptogenesis in the Universe, Chee Sheng Fong, Enrico Nardi, Antonio Riotto, Adv. High Energy Phys. 2012 (2012) 158303, arXiv:1301.3062.
[Fong:2012buy]
[2-86]
Neutrino Mass and Mixing with Discrete Symmetry, Stephen F. King, Christoph Luhn, Rept.Prog.Phys. 76 (2013) 056201, arXiv:1301.1340.
[King:2013eh]
[2-87]
SO(10) GUT in Four and Five Dimensions: A Review, Takeshi Fukuyama, Int.J.Mod.Phys. A28 (2013) 1330008, arXiv:1212.3407.
[Fukuyama:2012rw]
[2-88]
Leptogenesis: beyond the minimal type I seesaw scenario, Thomas Hambye, New J. Phys. 14 (2012) 125014, arXiv:1212.2888.
[Hambye:2012fh]
[2-89]
Theoretical Overview on the Flavor Issues of Massive Neutrinos, Shu Luo, Zhi-zhong Xing, Int. J. Mod. Phys. A27 (2012) 1230031, arXiv:1211.4331.
[Luo:2012fm]
[2-90]
The minimal scenario of leptogenesis, Steve Blanchet, Pasquale Di Bari, New J. Phys. 14 (2012) 125012, arXiv:1211.0512.
[Blanchet:2012bk]
[2-91]
Neutrino Yukawa textures within type-I see-saw, Biswajit Adhikary, Probir Roy, Adv.High Energy Phys. 2013 (2013) 324756, arXiv:1211.0371.
[Adhikary:2012zx]
[2-92]
Neutrino masses and mixing: a flavour symmetry roadmap, S. Morisi, J. W. F. Valle, Fortsch.Phys. 61 (2013) 466-492, arXiv:1206.6678.
[Morisi:2012fg]
[2-93]
An introduction to leptogenesis and neutrino properties, Pasquale Di Bari, Contemp.Phys. 53 (2012) 315-338, arXiv:1206.3168.
[DiBari:2012fz]
[2-94]
The role of lepton flavor symmetries in leptogenesis, D. Aristizabal Sierra, I. de Medeiros Varzielas, Fortsch.Phys. 61 (2013) 645-665, arXiv:1205.6134.
[AristizabalSierra:2012js]
[2-95]
Neutrino Mixings and the S4 Discrete Flavour Symmetry, Federica Bazzocchi, Luca Merlo, Fortsch.Phys. 61 (2013) 571-596, arXiv:1205.5135.
[Bazzocchi:2012st]
[2-96]
Tri-Bimaximal Neutrino Mixing and Discrete Flavour Symmetries, Guido Altarelli, Ferruccio Feruglio, Luca Merlo, Fortsch.Phys. 61 (2013) 507-534, arXiv:1205.5133.
[Altarelli:2012ss]
[2-97]
Matter and Antimatter in the Universe, Laurent Canetti, Marco Drewes, Mikhail Shaposhnikov, New J. Phys. 14 (2012) 095012, arXiv:1204.4186.
[Canetti:2012zc]
[2-98]
Searching for New Physics beyond the Standard Model in Electric Dipole Moment, Takeshi Fukuyama, Int. J. Mod. Phys. A27 (2012) 1230015, arXiv:1201.4252.
[Fukuyama:2012np]
[2-99]
Neutrino-less Double Beta Decay and Particle Physics, Werner Rodejohann, Int. J. Mod. Phys. E20 (2011) 1833-1930, arXiv:1106.1334.
[Rodejohann:2011mu]
[2-100]
Theory and phenomenology of two-Higgs-doublet models, G. C. Branco, P. M. Ferreira, L. Lavoura, M. N. Rebelo, Marc Sher, Joao P. Silva, Phys. Rept. 516 (2012) 1-102, arXiv:1106.0034.
[Branco:2011iw]
[2-101]
TeV Scale Models of Neutrino Masses and Their Phenomenology, Mu-Chun Chen, Jinrui Huang, Mod. Phys. Lett. A21 (2011) 1147, arXiv:1105.3188.
[Chen:2011de]
[2-102]
Supergravity based inflation models: a review, Masahide Yamaguchi, Class. Quant. Grav. 28 (2011) 103001, arXiv:1101.2488.
[Yamaguchi:2011kg]
[2-103]
Searching for the Standard Model in the String Landscape : SUSY GUTs, Stuart Raby, Rept. Prog. Phys. 74 (2011) 036901, arXiv:1101.2457.
[Raby:2011jt]
[2-104]
Renormalization group evolution of neutrino masses and mixing in seesaw models: A review, Shamayita Ray, Int. J. Mod. Phys. A25 (2010) 4339-4384, arXiv:1005.1938.
[Ray:2010rz]
[2-105]
Discrete Flavor Symmetries and Models of Neutrino Mixing, Guido Altarelli, Ferruccio Feruglio, Rev. Mod. Phys. 82 (2010) 2701-2729, arXiv:1002.0211.
[Altarelli:2010gt]
[2-106]
The Mystery of Parity, Jonathan L. Rosner, arXiv:0912.1053, 2009.
[Rosner:2009nn]
[2-107]
Signatures of Singlet Neutrinos in Large Extra Dimensions at the LHC, Douglas M. Gingrich, Int. J. Mod. Phys. A24 (2009) 5173-5215, arXiv:0907.1878.
[Gingrich:2009az]
[2-108]
The role of sterile neutrinos in cosmology and astrophysics, Alexey Boyarsky, Oleg Ruchayskiy, Mikhail Shaposhnikov, Ann. Rev. Nucl. Part. Sci. 59 (2009) 191-214, arXiv:0901.0011.
[Boyarsky:2009ix]
[2-109]
Leptogenesis, Sacha Davidson, Enrico Nardi, Yosef Nir, Phys. Rept. 466 (2008) 105-177, arXiv:0802.2962.
[Davidson:2008bu]
[2-110]
The Physics of Heavy Z' Gauge Bosons, Paul Langacker, Rev. Mod. Phys. 81 (2009) 1199-1228, arXiv:0801.1345.
[Langacker:2008yv]
[2-111]
Data Tables for Lorentz and CPT Violation, V. Alan Kostelecky, Neil Russell, Rev. Mod. Phys. 83 (2011) 11, arXiv:0801.0287.
[Kostelecky:2008ts]
[2-112]
CP Violation From Standard Model to Strings, Tarek Ibrahim, Pran Nath, Rev. Mod. Phys. 80 (2008) 577-631, arXiv:0705.2008.
[Ibrahim:2007fb]
[2-113]
Neutrino Masses, Lepton Flavor Mixing and Leptogenesis in the Minimal Seesaw Model, Wan-lei Guo, Zhi-zhong Xing, Shun Zhou, Int. J. Mod. Phys. E16 (2007) 1-50, arXiv:hep-ph/0612033.
[Guo:2006qa]
[2-114]
Neutrino mass and new physics, R. N. Mohapatra, A. Y. Smirnov, Ann. Rev. Nucl. Part. Sci. 56 (2006) 569-628, arXiv:hep-ph/0603118.
[Mohapatra:2006gs]
[2-115]
Theory of Neutrinos: A White Paper, R.N. Mohapatra et al., Rept. Prog. Phys. 70 (2007) 1757-1867, arXiv:hep-ph/0510213.
[Mohapatra:2005wg]
[2-116]
Concepts of Renormalization in Physics, Jean Alexandre, Sci. Prog. 88 (2005) 1, arXiv:physics/0508179.
[Alexandre:2005mp]
[2-117]
Neutrinos Have Mass - So What?, Andre de Gouvea, Mod. Phys. Lett. A19 (2004) 2799, arXiv:hep-ph/0503086.
[DeGouvea:2004wty]
[2-118]
Leptogenesis as the origin of matter, W. Buchmuller, R. D. Peccei, T. Yanagida, Ann. Rev. Nucl. Part. Sci. 55 (2005) 311, arXiv:hep-ph/0502169.
[Buchmuller:2005eh]
[2-119]
Theory of Neutrinos, R.N. Mohapatra et al., arXiv:hep-ph/0412099, 2004.
[Mohapatra:2004vr]
[2-120]
Leptonic CP Violation and Neutrino Mass Models, Gustavo C. Branco, M. N. Rebelo, New J. Phys. 7 (2005) 86, arXiv:hep-ph/0411196.
[Branco:2004hu]
[2-121]
Neutrino masses and R-parity violation, Subhendu Rakshit, Mod. Phys. Lett. A19 (2004) 2239, arXiv:hep-ph/0406168.
[Rakshit:2004rj]
[2-122]
Some Aspects of Thermal Leptogenesis, W. Buchmuller, P. Di Bari, M. Plumacher, New J. Phys. 6 (2004) 105, arXiv:hep-ph/0406014.
[Buchmuller:2004tu]
[2-123]
Symmetries and Neutrino Masses, Ernest Ma, New J. Phys. 6 (2004) 104, arXiv:hep-ph/0405152.
[Ma:2004zd]
[2-124]
Models of Neutrino Masses and Mixings, Guido Altarelli, Ferruccio Feruglio, New J. Phys. 6 (2004) 106, arXiv:hep-ph/0405048. http://www.iop.org/EJ/abstract/1367-2630/6/1/106.
[Altarelli:2004za]
[2-125]
Physics of the neutrino mass, R. N. Mohapatra, New J. Phys. 6 (2004) 82. http://www.iop.org/EJ/abstract/1367-2630/6/1/082.
[Mohapatra-NJP6-82-2004]
[2-126]
Neutrino Mass Models, S. F. King, Rept. Prog. Phys. 67 (2004) 107, arXiv:hep-ph/0310204.
[King:2003jb]
[2-127]
Flavor Mixing and CP Violation of Massive Neutrinos, Zhi-zhong Xing, Int. J. Mod. Phys. A19 (2004) 1, arXiv:hep-ph/0307359.
[Xing:2003ez]
[2-128]
Supersymmetry and neutrino mass, Biswarup Mukhopadhyaya, Proc (2003), arXiv:hep-ph/0301278. Indian National Science Academy, Special Volume on Neutrinos.
[Mukhopadhyaya:2003te]
[2-129]
A hint of renormalization, Bertrand Delamotte, Am. J. Phys. 72 (2004) 170-184, arXiv:hep-th/0212049.
[Delamotte:2002vw]
[2-130]
Plato's Fire and the Neutrino Mass Matrix, Ernest Ma, Mod. Phys. Lett. A17 (2002) 2361, arXiv:hep-ph/0211393.
[Ma:2002ge]
[2-131]
Theoretical Models of Neutrino Masses and Mixings, Ferruccio Feruglio Guido Altarelli, Springer Tracts Mod. Phys. 190 (2003) 169, arXiv:hep-ph/0206077. 'Neutrino Mass', Springer Tracts in Modern Physics.
[Altarelli:2002hx]
[2-132]
The problem of neutrino masses in extensions of the standard model, Isabella Masina, Int. J. Mod. Phys. A16 (2001) 5101-5200, arXiv:hep-ph/0107220.
[Masina:2001pp]
[2-133]
Beta decay beyond the standard model, P. Herczeg, Prog. Part. Nucl. Phys. 46 (2001) 413-457.
[Herczeg:2001vk]
[2-134]
Mass and flavor mixing schemes of quarks and leptons, Harald Fritzsch, Zhi-zhong Xing, Prog. Part. Nucl. Phys. 45 (2000) 1-81, arXiv:hep-ph/9912358.
[Fritzsch:1999ee]
[2-135]
Neutrino masses and mixings: A theoretical perspective, Guido Altarelli, F. Feruglio, Phys. Rep. 320 (1999) 295-318, arXiv:hep-ph/9905536.
[Altarelli:1999wi]
[2-136]
The Phenomenology of extra neutral gauge bosons, A. Leike, Phys. Rept. 317 (1999) 143-250, arXiv:hep-ph/9805494.
[Leike:1998wr]
[2-137]
Supersymmetric grand unification, R. N. Mohapatra, arXiv:hep-ph/9801235, 1998.
[Mohapatra:1997sp]
[2-138]
Renormalization of a model quantum field theory, P. Kraus, David J. Griffiths, Am. J. Phys. 60 (1992) 1013-1023.
[Kraus:1992cj]
[2-139]
Light pseudoscalars, particle physics and cosmology, Jihn E. Kim, Phys. Rep. 150 (1987) 1-177.
[Kim:1986ax]
[2-140]
Baryon and lepton number nonconservation, G. Costa, F. Zwirner, Riv. Nuovo Cim. 9N3 (1986) 1-134.
[Costa:1986vk]

3 - Reviews - Talks

[3-1]
Grand unification, small vs large representations, hadron colliders and all that, Goran Senjanovic, Michael Zantedeschi, PoS CORFU2022 (2023) 127, arXiv:2304.07932.
[Senjanovic:2023jvv]
[3-2]
The Minimal Supersymmetric Standard Model (MSSM) with $R$-Parity Violation, M. C. Rodriguez, arXiv:2204.05348, 2022.
[Rodriguez:2022gfq]
[3-3]
Neutrino oscillations and flavor theories, Jose W. F. Valle, PoS ICHEP2020 (2021) 185, arXiv:2012.08004. 40th International Conference on High Energy Physics (ICHEP2020) July 28 - August 6, 2020, Prague, Czech Republic.
[Valle:2020dhf]
[3-4]
Neutrino 2020: Theory Outlook, Goran Senjanovic, Int.J.Mod.Phys. A36 (2021) 2130003, arXiv:2011.01264. Neutrino 2020 International Conference on Neutrino Physics and Astrophysics, Fermilab, June 22-July 2, 2020.
[Senjanovic:2020rcq]
[3-5]
Non-Hermitian Yukawa interactions of fermions with axions: potential microscopic origin and dynamical mass generation, Nick E. Mavromatos, J.Phys.Conf.Ser. 2038 () 012019, arXiv:2010.15790.
[Mavromatos:2020bbq]
[3-6]
$|\Delta\mathcal{B}| =2$: A State of the Field, and Looking Forward-A brief status report of theoretical and experimental physics opportunities, Kaladi Babu et al., arXiv:2010.02299, 2020. Amherst Center for Fundamental Interactions workshop.
[Proceedings:2020nzz]
[3-7]
Flavor physics and Jarlskog determinant, Jihn E. Kim, arXiv:2002.12519, 2020. 'Neutrinos and Dark Matter' Conference, Hurghada, Egypt, 10-15 Jan, 2020, and The 3rd Korea-Japan Bi-lateral Workshop on 'String, Axion, Cosmology', Ibuzuki, Kagoshima, Kyushu, Japan, Jan. 17-20, 2020.
[Kim:2020bhf]
[3-8]
Computing Tools for the SMEFT, Ilaria Brivio et al., arXiv:1910.11003, 2019. SMEFT-Tools 2019.
[Proceedings:2019rnh]
[3-9]
Neutrino masses, leptogenesis and dark matter, Pasquale Di Bari, arXiv:1904.11971, 2019. NuPhys2018.
[DiBari:2019amk]
[3-10]
Theory Review of Neutrino Models and CP Violation, Stephen F. King, arXiv:1904.06660, 2019. NuPhys2018.
[King:2019gif]
[3-11]
Neutrinos and Particle Physics Models, Pierre Ramond, arXiv:1902.01741, 2019. History of the Neutrino, September 2018, Paris.
[Ramond:2019fsr]
[3-12]
Review on Composite Higgs Models, Oliver Witzel, PoS LATTICE2018 (2019) 006, arXiv:1901.08216. 36th Annual International Symposium on Lattice Field Theory, 22-28 July, 2018, Michigan State University, East Lansing, Michigan, USA.
[Witzel:2019jbe]
[3-13]
Neutrinos and the challenges of particle physics, J. W. F. Valle, PoS NOW2018 (2019) 022, arXiv:1812.07945. NOW2018.
[Valle:2018pgs]
[3-14]
TASI Lectures on Non-Supersymmetric BSM Models, Csaba Csaki, Salvator Lombardo, Ofri Telem, arXiv:1811.04279, 2018.
[Csaki:2018muy]
[3-15]
Leptogenesis, dark matter and neutrino masses, Michele Lucente, Asmaa Abada, Giorgio Arcadi, Valerie Domcke, arXiv:1803.10826, 2018. NuPhys2017 (London, 20-22 December 2017).
[Lucente:2018lxx]
[3-16]
Neutrino Physics, P. Hernandez, arXiv:1708.01046, 2017. 8th CERN-Latin-American School of High-Energy Physics (CLASHEP2015): Ibarra, Ecuador, March 05-17, 2015.
[Hernandez:2016kgx]
[3-17]
Introduction to Supersymmetry, Y. Shadmi, arXiv:1708.00772, 2017. 2014 European School of High-Energy Physics, Garderen, the Netherlands, 18 June - 1 July 2014.
[Shadmi:2016nuc]
[3-18]
Neutrino physics from A to Z: two lectures at Corfu, J. W. F. Valle, PoS CORFU2016 (2017) 007, arXiv:1705.00872. Corfu Summer Institute 2016 'Summer School and Workshop on the Standard Model and Beyond' August 31 - September 18, 2016.
[Valle:2017fwa]
[3-19]
Theories of Leptonic Flavor, Claudia Hagedorn, arXiv:1705.00684, 2017. NuPhys2016 (London, 12-14 December 2016).
[Hagedorn:2017zks]
[3-20]
Overview on Neutrino Theory and Phenomenology, Shun Zhou, Nucl.Part.Phys.Proc. 287-288 (2017) 127-132, arXiv:1612.08316. International Workshop on Tau Lepton Physics, IHEP, Beijing, September 19-23, 2016.
[Zhou:2016kjx]
[3-21]
Beyond the Standard Model with leptogenesis and neutrino data, Pasquale Di Bari, arXiv:1612.07794, 2016. Neutrino 2016, NuFact 2016 and IPA 2016.
[DiBari:2016xtf]
[3-22]
Lepton flavour violation and neutrino physics: beyond the Standard Model, Ana M. Teixeira, arXiv:1612.06194, 2016. 28th Rencontres de Blois - Particle Physics and Cosmology, Blois, 29 May - 3 June 2016.
[Teixeira:2016yrk]
[3-23]
Theoretical aspects of charged Lepton Flavour Violation, Ana M. Teixeira, J.Phys.Conf.Ser. 888 (2017) 012029, arXiv:1612.05561. Neutrino 2016, XXVII International Conference on Neutrino Physics and Astrophysics, London, UK, 4 - 9 July 2016.
[Teixeira:2016ecr]
[3-24]
Aspects of Leptonic Flavour Mixing, Ferruccio Feruglio, J.Phys.Conf.Proc. 888 (2017) 012026, arXiv:1611.09237. Neutrino 2016 (London, 4-9 July 2016) and Now 2016 (Otranto, 4-11 September 2016).
[Feruglio:2016hlo]
[3-25]
Heavy neutrino searches from MeV to TeV, Elena Graverini, arXiv:1611.07215, 2016. NuFact 2016.
[Graverini:2016mhd]
[3-26]
Flavour Physics and CP Violation, Y. Nir, arXiv:1605.00433, 2016. 2013 CERN - Latin-American School of High-Energy Physics, Arequipa, Peru, 6-19 Mar 2013.
[Nir:2015cpi]
[3-27]
Supersymmetric Dark Matter or Not, Keith A. Olive, PoS DSU2015 (2016) 035, arXiv:1604.07336. 11th International Workshop Dark Side of the Universe 2015, Dec 2015, Kyoto, Japan.
[Olive:2016efh]
[3-28]
Recent developments in Neutrino Physics, Davide Meloni, arXiv:1601.06929, 2016. XXII International Workshop on High Energy Physics and Quantum Field Theory (QFTHEP'2015), June 24 - July 1 2015, Samara, Russia.
[Meloni:2016dlc]
[3-29]
Heavy neutrinos in particle physics and cosmology, Marco Drewes, PoS EPS-HEP2015 (2015) 075, arXiv:1510.07883. EPS-HEP2015.
[Drewes:2015vma]
[3-30]
Theoretical Aspects of Flavour and CP Violation in the Lepton Sector, Ferruccio Feruglio, arXiv:1509.08428, 2015. 27th Rencontres de Blois, France, May - 5 June 2015.
[Feruglio:2015yua]
[3-31]
TeV Scale Leptogenesis, P. S. Bhupal Dev, Springer Proc. Phys. 174 (2016) 245-253, arXiv:1506.00837. XXI DAE-BRNS HEP Symposium, IIT Guwahati, December 2014.
[Dev:2015cxa]
[3-32]
Radiative Neutrino Mass Models, Hiroaki Sugiyama, arXiv:1505.01738, 2015. 2nd Toyama International Workshop on 'Higgs as a Probe of New Physics 2015' (HPNP2015), Toyama, Japan, 11-15 Feb. 2015.
[Sugiyama:2015cra]
[3-33]
Constraining right-handed neutrinos, F. J. Escrihuela, D. V. Forero, O. G. Miranda, M. Tortola, J. W. F. Valle, Nucl.Part.Phys.Proc. 273-275 (2016) 1909-1914, arXiv:1505.01097. ICHEP14.
[Escrihuela:2015jaa]
[3-34]
Neutrino Physics, G. Barenboim, arXiv:1504.07037, 2015. 2012 European School of High-Energy Physics, La Pommeraye, Anjou, France, 06-19 Jun 2012.
[Barenboim:2014tny]
[3-35]
On Continuous Flavour Symmetries for Neutrinos, Luca Merlo, arXiv:1503.03282, 2015. Prospects in Neutrino Physics, 15 - 17 December, 2014, Queen Mary University, London, UK.
[Merlo:2015nra]
[3-36]
Theoretical Status of Neutrino Physics, Marco Drewes, PoS NUFACT2014 (2015) 001, arXiv:1502.06891. NUFACT2014.
[Drewes:2015jna]
[3-37]
Riddle of the Neutrino Mass, A. Yu. Smirnov, Nucl. Part. Phys. Proc. 265-266 (2015) 1-6, arXiv:1502.04530. NOW 2014, Conca Specchiulla (Otranto, Lecce, Italy), September 7 - 14, 2014.
[Smirnov:2015rsa]
[3-38]
Neutrino Sources and Properties, Francesco Vissani, PoS GSSI14 (2015) 001, arXiv:1412.8386.
[Vissani:2014yxa]
[3-39]
Neutrino Masses and Mixings from Continuous Symmetries, Luca Merlo, PoS NUFACT2014 (2014) 027, arXiv:1411.2766. NUFACT2014 - XVIth International Workshop on Neutrino Factories and Future Neutrino Facilities.
[Merlo:2014wja]
[3-40]
Neutrino Physics (CERN-2014-001), Zhi-zhong Xing, arXiv:1406.7739, 2014. 1st Asia-Europe-Pacific School of High-Energy Physics, Fukuoka, Japan, 14 - 27 Oct 2012.
[Xing:2014wwa]
[3-41]
Selected Topics in Majorana Neutrino Physics, Luciano Maiani, Riv.Nuovo Cim. 37 (2014) 417-466, arXiv:1406.5503. Lectures Notes from the Ettore Majorana Lectures, Diaprtimento di Fisica, Universita' Federico II, Napoli, March 2014. Rivista del Nuovo Cimento, 2014.
[Maiani:2014vqa]
[3-42]
How many new particles do we need after the Higgs boson?, Marco Drewes, arXiv:1405.2931, 2014. 49th Rencontres de Moriond on Electroweak Interactions and Unified Theories (2014).
[Drewes:2014vaa]
[3-43]
Leptonic CP Violation and Leptogenesis, S. T. Petcov, Int.J.Mod.Phys. A29 (2014) 1430028, arXiv:1405.2263. Conference in Honor of the 90th Birthday of Freeman Dyson, Nanyang Technological University, Singapore, 26-29 August 2013.
[Petcov:2014aia]
[3-44]
Status of Neutrino Mass and Mixing, Guido Altarelli, Int.J.Mod.Phys. A29 (2014) 1444002, arXiv:1404.3859. International Conference on Flavor Physics and Mass Generation, Singapore, February 2014.
[Altarelli:2014dca]
[3-45]
Theory of neutrino masses and mixing, Alexei Yu. Smirnov, Nuovo Cim. C037 (2014) 29-37, arXiv:1402.6580. Pontecorvo 100 Symposium, Pisa, Italy, September 18 - 20, 2013.
[Smirnov:2014oja]
[3-46]
Charged lepton flavor violation and the origin of neutrino masses, Thomas Hambye, Nucl. Phys. Proc. Suppl. 248-250 (2014) 13-19, arXiv:1312.5214. 1st Conference on Charged Lepton Flavor Violation, May 6-8 2013, Lecce, Italy.
[Hambye:2013jsa]
[3-47]
Planning the Future of U.S. Particle Physics (Snowmass 2013): Chapter 5: The Future of U.S. Particle Theory, M. Dine, K. Babu, C. Csaki, S. Dawson, L. Dixon et al., arXiv:1310.6111, 2013.
[Dine:2013skt]
[3-48]
Neutrino Physics, Lepton Flavour Violation and the LHC, Asmaa Abada, arXiv:1310.3800, 2013. 25th Rencontres de Blois on Particle Physics and Cosmology, Blois, France, 26-31 May 2013.
[Abada:2013bpa]
[3-49]
Theory Summary, Fabio Zwirner, arXiv:1310.3292, 2013. XLVIII Rencontres de Moriond, Electroweak Interactions and Unified Theories, La Thuile, Italy, 2-9 March 2013.
[Zwirner:2013joa]
[3-50]
Summary of the Nobel Symposium on LHC Results, John Ellis, Phys.Scripta T158 (2013) 014020, arXiv:1309.3549. Nobel Symposium on LHC Results.
[Ellis:2013xca]
[3-51]
The Physics of Neutrinos, Renata Zukanovich Funchal, Benoit Schmauch, Gaelle Giesen, arXiv:1308.1029, 2013. Course given at Institut de Physique Theorique of CEA/Saclay in January/February 2013.
[ZukanovichFunchal:2013tdb]
[3-52]
Towards the Chalonge Meudon Workshop 2013. Highlights and Conclusions of the Chalonge Meudon workshop 2012: warm dark matter galaxy formation in agreement with observations, P.L. Biermann, H.J. de Vega, N.G. Sanchez, arXiv:1305.7452, 2013.
[deVega:2013hpa]
[3-53]
Neutrino mass, mixing and discrete symmetries, Alexei Y. Smirnov, J. Phys. Conf. Ser. 447 (2013) 012004, arXiv:1305.4827. Symposium Discrete 2012, IST, Lisboa, Portugal, December 3 - 7, 2012.
[Smirnov:2013uba]
[3-54]
Neutrino Mass in TeV-Scale New Physics Models, Hiroaki Sugiyama, arXiv:1304.6031, 2013. Toyama International Workshop on 'Higgs as a Probe of New Physics 2013' (HPNP2013), Toyama, Japan, 13-16 Feb. 2013.
[Sugiyama:2013yoa]
[3-55]
Type I Seesaw Mechanism, Lepton Flavour Violation and Higgs Decays, Emiliano Molinaro, J. Phys. Conf. Ser. 447 (2013) 012052, arXiv:1303.5856. DISCRETE 2012 - The Third Symposium on Prospects in the Physics of Discrete Symmetries, Instituto Superior Tecnico, Lisbon, 3 - 7 December 2012.
[Molinaro:2013toa]
[3-56]
Models for Neutrino Masses and Mixings, Stefan Antusch, Nucl. Phys. Proc. Suppl. 235-236 (2013) 303-309, arXiv:1301.5511. XXV International Conference on Neutrino Physics and Astrophysics (Neutrino 2012), Kyoto, Japan, June 3-9 2012.
[Antusch:2013ti]
[3-57]
Leptogenesis: Theory and Neutrino Masses, Wilfried Buchmuller, Nucl. Phys. Proc. Suppl. 235-236 (2013) 329-335, arXiv:1210.7758. XXV Int. Conf. on Neutrino Physics, Kyoto.
[Buchmuller:2012eb]
[3-58]
Neutrino 2012: Outlook - theory, A. Yu. Smirnov, Nucl. Phys. Proc. Suppl. 235-236 (2013) 431-440, arXiv:1210.4061. XXV International Conference on Neutrino Physics and Astrophysics, June 3 - 9, 2012, Kyoto, Japan.
[Smirnov:2012ei]
[3-59]
TASI 2011: Four Lectures on TeV Scale Extra Dimensions, Eduardo Ponton, arXiv:1207.3827, 2012.
[Ponton:2012bi]
[3-60]
Supersymmetry and Unification: Heavy Top Was the Key, Goran Senjanovic, Int. J. Mod. Phys. Conf. Ser. 13 (2012) 182-190, arXiv:1205.5557. Scientific and Human Legacy of Julius Wess, Memorial Workshop, Donji Milanovac, Serbia, August 2011.
[Senjanovic:2012zt]
[3-61]
Beyond the Standard Model, A. Pomarol, arXiv:1202.1391, 2012. 2010 European School of High-energy Physics; 20 June - 3 July 2010, Raseborg, Finland.
[Pomarol:2012sb]
[3-62]
Neutrino Physics, Andrea Romanino, arXiv:1201.6158, 2012. 2010 European School of High-Energy Physics; 20 June - 3 July 2010, Raseborg, Finland.
[Romanino:2012az]
[3-63]
keV sterile Neutrino Dark Matter and Neutrino Model Building, Alexander Merle, J. Phys. Conf. Ser. 375 (2012) 012047, arXiv:1201.0881. TAUP 2011.
[Merle:2012ya]
[3-64]
The Five Instructions, Pierre Ramond, arXiv:1201.0396, 2012. TASI 2011.
[Ramond:2012rr]
[3-65]
Neutrinos and the matter-antimatter asymmetry in the Universe, R. Gonzalez Felipe, Int. J. Mod. Phys. Proc. Suppl. E20 (2011) 56-64, arXiv:1108.2694. Symposium STARS2011, 1 - 4 May 2011, Havana, Cuba.
[GonzalezFelipe:2011fp]
[3-66]
Probing the Origin of Neutrino Mass: from GUT to LHC, Goran Senjanovic, arXiv:1107.5322, 2011. Neutrino Roadmap 2012, Paris, May 2011.
[Senjanovic:2011zf]
[3-67]
Perspectives in Neutrino Physics, Guido Altarelli, arXiv:1107.1980, 2011. XIV International Workshop on 'Neutrino Telescopes' Venice, Italy, March 15-18, 2011.
[Altarelli:2011rv]
[3-68]
Lepton Flavour Violation Theory, Thorsten Feldmann, PoS BEAUTY2011 (2011) 017, arXiv:1105.2139. 13th International Conference on B-Physics at Hadron Machines (April 2011), Amsterdam.
[Feldmann:2011zh]
[3-69]
Discrete symmetries and models of flavor mixing, Alexei Yu Smirnov, J. Phys. Conf. Ser. 335 (2011) 012006, arXiv:1103.3461. Symposium 'DISCRETE 2010', 6 - 11 December 2010, La Sapienza, Rome, Italy.
[Smirnov:2011jv]
[3-70]
Developments in Leptogenesis, Pasquale Di Bari, Nucl. Phys.B, Proc.Suppl.229-232 2012 (2012) 305-311, arXiv:1102.3409. Neutrino 2010.
[DiBari:2011zf]
[3-71]
Theory of Neutrino Masses and Mixing, Walter Grimus, Phys. Part. Nucl. 42 (2011) 566-576, arXiv:1101.0137. IV International Pontecorvo Neutrino Physics School, September 26 - October 6, 2010, Alushta, Crimea, Ukraine.
[Grimus:2011mp]
[3-72]
Models and Phenomenology of Neutrino Masses circa 2010, Mu-Chun Chen, K. T. Mahanthappa, Nucl. Phys. Proc. Suppl. 229-232 (2012) 63-67, arXiv:1012.1595. XXIV International Conference on Neutrino Physics and Astrophysics (Neutrino 2010), Athens, Greece, June 14-19, 2010.
[Chen:2010bt]
[3-73]
Cambridge Lectures on Supersymmetry and Extra Dimensions, Sven Krippendorf, Fernando Quevedo, Oliver Schlotterer, arXiv:1011.1491, 2010.
[Quevedo:2010ui]
[3-74]
Neutrino physics, P. Hernandez, arXiv:1010.4131, 2010. 5th CERN-Latin-American School of High-Energy Physics, Recinto Quirama, Colombia, 15 - 28 Mar 2009.
[Hernandez:2010mi]
[3-75]
Flavour physics and CP violation, Y. Nir, arXiv:1010.2666, 2010. 5th CERN-Latin-American School of High-Energy Physics, Recinto Quirama, Colombia, 15 - 28 Mar 2009.
[Nir:2010jr]
[3-76]
Neutrino mass and grand unification of flavor, Rabindra N. Mohapatra, Int. J. Mod. Phys. A25 (2010) 4311-4323, arXiv:1007.1633. Symposium honoring Prof. Murray Gell-Mann on his 80th Birthday; Nanyang techinical University, Singapore, February, 2010.
[Mohapatra:2010eq]
[3-77]
Beyond the Standard Model, Joseph D. Lykken, arXiv:1005.1676, 2010. 2009 European School of High Energy Physics, Bautzen, Germany, 14-27 June 2009.
[Lykken:2010mc]
[3-78]
Neutrino physics beyond neutrino masses, F. del Aguila, J. de Blas, A. Carmona, J. Santiago, Fortsch. Phys. 58 (2010) 675-681, arXiv:1003.5799. 9th Hellenic School and Workshops on Elementary Particle Physics and Gravity (CORFU2009), Corfu, Greece, August 30-September 20, 2009.
[delAguila:2010zh]
[3-79]
Introduction to Extra Dimensions, Thomas G. Rizzo, AIP Conf. Proc. 1256 (2010) 27-50, arXiv:1003.1698.
[Rizzo:2010zf]
[3-80]
2009 TASI Lecture - Introduction to Extra Dimensions, Hsin-Chia Cheng, arXiv:1003.1162, 2010. 2009 TASI Summer School.
[Cheng:2010pt]
[3-81]
Status of Neutrino Theory, J. W. F. Valle, Conf.Proc. C0908171 (2009) 363-375, arXiv:1001.5189. XXIV International Symposium on Lepton Photon Interactions at High Energies (Lepton Photon 09).
[Valle:2009pia]
[3-82]
Proton decay and grand unification, Goran Senjanovic, AIP Conf. Proc. 1200 (2010) 131-141, arXiv:0912.5375. SUSY09 and PASCOS09.
[Senjanovic:2009kr]
[3-83]
Progress in the understanding of neutrino properties, J. W. F. Valle, J. Phys. Conf. Ser. 203 (2010) 012009, arXiv:0911.4826. TAUP 2009.
[Valle:2009gu]
[3-84]
Beyond the Standard Model for Montaneros, M. Bustamante, L. Cieri, John Ellis, arXiv:0911.4409, 2009. 2009 Latin-American CERN School of High-Energy Physics, Medellin, Colombia.
[Bustamante:2009us]
[3-85]
Neutrino mass in supersymmetry, J. W. F. Valle, AIP Conf. Proc. 1200 (2010) 112-121, arXiv:0911.3103. SUSY09.
[Valle:2009tt]
[3-86]
CPT and Lorentz-invariance violation, Ralf Lehnert, Hyperfine Interact. 193 (2009) 275, arXiv:0911.2911.
[Lehnert:2009qv]
[3-87]
Overview of Neutrino Mixing Models and Their Mixing Angle Predictions, Carl H. Albright, AIP Conf. Proc. 1222 (2010) 98-102, arXiv:0911.2437. 11th International Workshop on Neutrino Factories, Superbeams and Beta Beams, Illinois Institute of Technology, Chicago, July 20-25, 2009.
[Albright:2009es]
[3-88]
Neutrinos versus Quarks, MNS versus CKM, Mu-Chun Chen, K.T. Mahanthappa, PoS FPCP2009 (2009) 050, arXiv:0910.5467. 6th International Conference on Flavor Physics and CP Violation (FPCP 2009), Lake Placid, NY, May 27 - June 1, 2009.
[Chen:2009qz]
[3-89]
TASI Lectures on Flavor Physics, K.S. Babu, arXiv:0910.2948, 2009.
[Babu:2009fd]
[3-90]
Neutrino mass and new physics, A. Yu Smirnov, arXiv:0910.1778, 2009. XXI th Rencontres de Blois 'Windows on the Universe', Chateau Royal de Blois, 21st - 26th June, 2009.
[Smirnov:2009dk]
[3-91]
Neutrino Mass and Flavour Models, Stephen F King, AIP Conf. Proc. 1200 (2010) 103-111, arXiv:0909.2969. SUSY'09.
[King:2009db]
[3-92]
Neutrinos and Lepton Flavour Violation, Thorsten Feldmann, Acta Phys. Polon. Supp. 3 (2010) 65, arXiv:0909.1691. Low energy constraints on extensions of the Standard Model, Kazimierz, Poland, 23-27 July 2009.
[Feldmann:2009tp]
[3-93]
Effective Theories for Flavour Physics beyond the Standard Model, Gino Isidori, PoS EFT09 (2009) 034, arXiv:0908.0404. International Workshop on Effective Field Theories: From the Pion to the Upsilon (EFT 09), Valencia, Spain, 2-6 Feb 2009.
[Isidori:2009px]
[3-94]
LARGE EXTRA DIMENSIONS: Becoming acquainted with an alternative paradigm, M. Shifman, Int. J. Mod. Phys. A25 (2010) 199-225, arXiv:0907.3074. Workshop 'Crossing the boundaries: Gauge dynamics at strong coupling', May 14 - 17, 2009, Minneapolis.
[Shifman:2009df]
[3-95]
Flavor Questions for the LHC, Jonathan L. Rosner, PoS FPCP2009 (2009) 051, arXiv:0907.2414. Flavor Physics and CP Violation 2009, Lake Placid, NY, May 27 - June 1, 2009.
[Rosner:2009mm]
[3-96]
Status of Neutrino Masses and Mixing in 2009, Guido Altarelli, Nuovo Cim. 032C (2009) 91-102, arXiv:0905.3265. Rencontres de Physique de la Vallee d'Aoste, La Thuile, Aosta Valley (Italy). March 1-7, 2009.
[Altarelli:2009wt]
[3-97]
Neutrino Mass: Mechanisms and Models, Ernest Ma, arXiv:0905.0221, 2009. 2007 Summer School in Akyaka, Mugla, Turkey.
[Ma:2009dk]
[3-98]
Overview of Neutrino Mixing Models and Ways to Differentiate among Them, Carl H. Albright, arXiv:0905.0146, 2009. 13th International Workshop on Neutrino Telescopes, Venice, March 10 - 13, 2009.
[Albright:2009cn]
[3-99]
The Little Review on Leptogenesis, Apostolos Pilaftsis, J. Phys. Conf. Ser. 171 (2009) 012017, arXiv:0904.1182. DISCRETE'08, 11-16 December 2008, Valencia, Spain.
[Pilaftsis:2009pk]
[3-100]
Neutrino Mass Models: circa 2008, Mu-Chun Chen, K.T. Mahanthappa, Nucl. Phys. Proc. Suppl. 188 (2009) 315-320, arXiv:0812.4981. Neutrino Oscillation Workshop (NOW2008), Conca Specchiulla, Italy, September 6-13, 2008.
[Chen:2008eq]
[3-101]
Theoretical Overview of Neutrino Properties, Zhi-zhong Xing, Int. J. Mod. Phys. A23 (2008) 4255-4272, arXiv:0810.1421. ICHEP08, Philadelphia, USA, July 2008.
[Xing:2008hx]
[3-102]
Neutrino Mass Models: a road map, S. F. King, J. Phys. Conf. Ser. 136 (2008) 022038, arXiv:0810.0492. Neutrino '08, the XXIII International Conference on Neutrino Physics and Astrophysics, Christchurch, New Zealand.
[King:2008vg]
[3-103]
Theory of the Neutrino Mass, Ferruccio Feruglio, Claudia Hagedorn, Yin Lin, Luca Merlo, arXiv:0808.0812, 2008. Nu HoRIzons (February 13-15, 2008, Allahabad, India), Neutrino Oscillations in Venice (April 15-18, 2008, Venice, Italy), Melbourne Neutrino Theory Workshop (June 2-4, 2008, Melbourne, Australia) and International School of Astroparticle Physics (July 16-26, 2008, Valencia, Spain).
[Feruglio:2008py]
[3-104]
Looking up at seesaw and GUT scales from TeV, Hitoshi Murayama, AIP Conf.Proc. 1015 (2008) 198-208, arXiv:0807.3775. Grand Unified Theories: Current Status and Future Prospects: An International Workshop, Kusatsu, Shiga, Japan, 17-19 December 2007.
[Murayama:2008df]
[3-105]
Supersymmetry in Elementary Particle Physics, Michael E. Peskin, arXiv:0801.1928, 2008. 2006 TASI Summer School.
[Peskin:2008nw]
[3-106]
Horizontal Symmetry, C. S. Lam, Int. J. Mod. Phys. A23 (2008) 3371-3375, arXiv:0711.3795. International Conference on Flavor Physics, Beijing, China, September, 2007.
[Lam:2007ev]
[3-107]
Flavour Physics and Grand Unification, A. Masiero, S.K. Vempati, O. Vives, arXiv:0711.2903, 2007. Particle Physics Beyond the Standard Model, Les Houches, France, 1-26 Aug 2005.
[Masiero:2005ua]
[3-108]
Lectures on Models of Neutrino Masses and Mixings, Guido Altarelli, Soryushiron Kenkyu Electron. 116 (2008) A29-A55, arXiv:0711.0161. Summer Institute 2007, 3-10 August 2007, Fuji-Yoshida, Japan.
[Altarelli:2007gb]
[3-109]
Is there a new physics between electroweak and Planck scales?, Mikhail Shaposhnikov, arXiv:0708.3550, 2007. Workshop on Astroparticle Physics: Current Issues (APCI07), Budapest, Hungary, June 21-25, 2007, and 11th Paris Cosmology Colloquium 2007, Paris, France, August 16-18, 2007.
[Shaposhnikov:2007nj]
[3-110]
Models of Neutrino Masses and Mixing, Mu-Chun Chen, AIP Conf. Proc. 928 (2007) 153-160, arXiv:0706.2168. 2nd International Colliders to Cosmic Rays Conference (C2CR07), Lake Tahoe, CA, February 25 - March 1, 2007.
[Chen:2007jsa]
[3-111]
Models of Neutrino Masses and Mixings: a Progress Report, Guido Altarelli, arXiv:0705.0860, 2007. XII International Workshop on Neutrino Telescopes, March 6-9, 2007, Venice, Italy.
[Altarelli:2007cd]
[3-112]
TASI 2006 Lectures on Leptogenesis, Mu-Chun Chen, arXiv:hep-ph/0703087, 2007. TASI 2006, Boulder, Colorado, June 4-30, 2006.
[Chen:2007fv]
[3-113]
Introduction to leptogenesis, Yosef Nir, arXiv:hep-ph/0702199, 2007. 6th Recontres du Vietnam, `Challenges in Particle Astrophysics,' Hanoi, Vietnam, August 6-12, 2006.
[Nir:2007zq]
[3-114]
Shedding light on flavour symmetries with rare decays of quarks and leptons, Gino Isidori, eConf C0610161 (2006) 038, arXiv:hep-ph/0702181. International Conference on Heavy Quarks and Leptons (HQL 06), Munich, Germany, 16-20 Oct 2006.
[Isidori:2006xzs]
[3-115]
Neutrino physics: Models for neutrino masses and lepton mixing, Walter Grimus, PoS P2GC (2006) 001, arXiv:hep-ph/0612311. School on Particle Physics, Gravity and Cosmology, August 21 - September 2, 2006, Dubrovnik, Croatia.
[Grimus:2006nb]
[3-116]
Recent Models of Neutrino Masses and Mixing, Ambar Ghosal, arXiv:hep-ph/0612245, 2006. DAE-BRNS High Energy Physics Symposium, Indian Institute of Technology, Kharagpur, India, December 2006.
[Ghosal:2006wn]
[3-117]
Models of Neutrino Masses and Mixings, Guido Altarelli, arXiv:hep-ph/0611117, 2006. 61st Scottish Universities Summer School in Physics, St.Andrews, Scotland, 8-23 August 2006.
[Altarelli:2006ri]
[3-118]
Neutrinos in astroparticle physics, J. W. F. Valle, AIP Conf. Proc. 878 (2006) 369-384, arXiv:hep-ph/0610247. International Workshop The Dark Side of the Universe, Madrid, June 20-24, 2006.
[Valle:2006nk]
[3-119]
An Update on Models of Neutrino Masses and Mixings, Guido Altarelli, eConf C0605151 (2006) 0001, arXiv:hep-ph/0610164. IPM-LHP06, Tehran, Iran.
[Altarelli:2006kf]
[3-120]
Models of flavour with discrete symmetries, A. Mondragon, AIP Conf. Proc. 857B (2006) 266-282, arXiv:hep-ph/0609243.
[Mondragon:2006hi]
[3-121]
Neutrinos: Windows to new physics, R. D. Peccei, arXiv:hep-ph/0609203, 2006. XXII International Conference on Neutrino Physics and Astrophysics, Neutrino 2006, Santa Fe, NM, June 2006.
[Peccei:2006qx]
[3-122]
Neutrino physics overview, J. W. F. Valle, J. Phys. Conf. Ser. 53 (2006) 473-505, arXiv:hep-ph/0608101. Corfu Summer Institute on Elementary Particle Physics in September 2005.
[Valle:2006vb]
[3-123]
Neutrino masses and mixing: Leptons versus Quarks, A. Yu. Smirnov, arXiv:hep-ph/0604213, 2006. III International Workshop on: NO-VE 'Neutrinos in Venice', Fifty years after the Neutrino discovery, 7-10 Feb 2006, Venice, Italy.
[Smirnov:2006qj]
[3-124]
Neutrino mass and new physics, A. Y. Smirnov, J. Phys. Conf. Ser. 53 (2006) 44-82. 8th Hellenic School on Elementary Particle Physics (CORFU2005), Corfu, Greece, 4-26 Sep 2005.
[Smirnov:2006qz]
[3-125]
Neutrino masses and mixing, Alexei Yu. Smirnov, J. Phys. Conf. Ser. 39 (2006) 232-242, arXiv:hep-ph/0512303. TAUP2005, September 10 - 14, 2005, Zaragoza, Spain.
[Smirnov:2005kw]
[3-126]
Neutrino Properties in Supersymmetric Models with R-parity Breaking, J. C. Romao, arXiv:hep-ph/0510411, 2005. Symposium in Honour of Gustavo C. Branco, Lisbon, 19-20 July 2005, and Corfu Summer Institute on EPP, Corfu, 11-18 September 2005.
[Romao:2005jq]
[3-127]
Neutrinos in Supersymmetry, Marco Aurelio Diaz, eConf C050318 (2005) 0208, arXiv:hep-ph/0507044. 2005 International Linear Collider Workshop LCWS05, Stanford, USA, 18-22 Mar 2005.
[Diaz:2005ii]
[3-128]
What is Renormalization?, G. Peter Lepage, arXiv:hep-ph/0506330, 2005. TASI'89: From Actions to Answers.
[Lepage:1989hf]
[3-129]
Neutrino Physics, Paul Langacker, Jens Erler, Eduardo Peinado, J. Phys. Conf. Ser. 18 (2005) 154, arXiv:hep-ph/0506257. 11th Mexican School of Particles and Fields, Xalapa, Ver., Mexico, August 2004.
[Langacker:2005pfa]
[3-130]
Quark-Lepton Complementarity: a Review, Hisakazu Minakata, arXiv:hep-ph/0505262, 2005. XI International Workshop on 'Neutrino Telescopes', Venice, Italy, February 22-25, 2005.
[Minakata:2005rf]
[3-131]
Fermion Masses and Mixing in Four and More Dimensions, N. Chamoun, S. Khalil, Int. J. Mod. Phys. A21 (2006) 6267-6302, arXiv:hep-ph/0504211.
[Chamoun:2005fba]
[3-132]
Future Precision Neutrino Oscillation Experiments and Theoretical Implications, Manfred Lindner, Phys. Scripta T121 (2005) 78, arXiv:hep-ph/0503101. Nobel Symposium 2004: Neutrino Physics, Haga Slott, Enkoping, Sweden, 19-24 Aug 2004.
[Lindner:2005xf]
[3-133]
25 years of seesaw (summary of SEESAW'25), P. Binetruy, S. Lavignac, Nucl. Phys. Proc. Suppl. 143 (2005) 175-183.
[Binetruy:2005hf]
[3-134]
Neutrino Mass and Grand Unification, R. N. Mohapatra, Phys. Scripta T121 (2005) 185, arXiv:hep-ph/0412050. Nobel Symposium 129 on Neutrinos at Haga Slott, Sweden, August, 2004.
[Mohapatra:2004fj]
[3-135]
Alternatives to the seesaw mechanism, Alexei Yu. Smirnov, arXiv:hep-ph/0411194, 2004. Seesaw Mechanism and Neutrino Masses: 25 Years Later, 10-11 June 2004, Paris.
[Smirnov:2004hs]
[3-136]
Summary of Model Predictions for $U_{e3}$, Anjan S. Joshipura, arXiv:hep-ph/0411154, 2004. 5th Workshop on 'Neutrino Oscillations and their Origin (NOON2004)', February 11-15, Tokyo, Japan.
[Joshipura:2004ws]
[3-137]
Physics of Neutrino Mass, R. N. Mohapatra, New J. Phys. 6 (2004) 82, arXiv:hep-ph/0411131. SLAC Summer Institute, August, 2004.
[Mohapatra:2004ht]
[3-138]
Neutrino Physics (theory), Paul Langacker, Int. J. Mod. Phys. A20 (2005) 5254, arXiv:hep-ph/0411116. ICHEP2004.
[Langacker:2004xy]
[3-139]
Neutrinos: Key to New Physics, P. Ramond, Nucl. Phys. Proc. Suppl. 137 (2004) 317, arXiv:hep-ph/0411009. Fujihara Seminar.
[Ramond:2004xe]
[3-140]
Models of Neutrino Masses and Mixings, Ferruccio Feruglio, Nucl. Phys. Proc. Suppl. 143 (2005) 184, arXiv:hep-ph/0410131. 'Neutrino 2004', June 14-19, Paris and 'Now 2004', September 11-17, Conca Specchiulla (Otranto, Italy).
[Feruglio:2004gu]
[3-141]
Neutrino 2004: Concluding Talk, Guido Altarelli, Nucl. Phys. Proc. Suppl. 143 (2005) 470, arXiv:hep-ph/0410101. Neutrino 2004, Paris, 14-19 June 2004.
[Altarelli:2004cp]
[3-142]
Aspects of Neutrino Mass Matrices, Paul H. Frampton, Int. J. Mod. Phys. A20 (2005) 1188, arXiv:hep-ph/0403164. Coral Gables 2003.
[Frampton:2004df]
[3-143]
Neutrinos: '...annus mirabilis', A. Yu. Smirnov, arXiv:hep-ph/0402264, 2004. 2nd Int. Workshop on Neutrino oscillations in Venice (NOVE) December 3-5, 2003, Venice, Italy.
[Smirnov:2004ju]
[3-144]
Neutrino Mass-An Overview, R. N. Mohapatra, Nucl. Phys. Proc. Suppl. 138 (2005) 257, arXiv:hep-ph/0402035. TAUP2003.
[Mohapatra:2004za]
[3-145]
Extra dimensions in particle physics, Ferruccio Feruglio, Eur. Phys. J. C33 (2004) S114, arXiv:hep-ph/0401033. International Europhysics Conference on High-Energy Physics (HEP 2003), Aachen, Germany, 17-23 Jul 2003.
[Feruglio:2004zf]
[3-146]
Neutrinos: Windows to Planck physics, P. Ramond, arXiv:hep-ph/0401001, 2004. 3rd International Symposium on Quantum Theory and Symmetries (QTS3), Cininnati, Ohio, 10-14 Sep 2003.
[Ramond:2003kk]
[3-147]
Theoretical neutrino physics, H. Murayama, Eur. Phys. J. C33 (2004) s51-s66. International Europhysics Conference on High-Energy Physics (HEP 2003), Aachen, Germany, 17-23 Jul 2003. http://www.edpsciences.org/articles/epjc/pdf/2004/19/10052S51.pdf?access=ok.
[Murayama:2004fe]
[3-148]
Neutrino Theory, H. Murayama, 2004. Aspen Winter Conference on Particle Physics, February 1 - 7, 2004, Aspen, US. http://gate.hep.anl.gov/berger/Aspen04/Prog04/Murayama.ppt.
[Murayama:ASPEN2004]
[3-149]
Impact of Neutrino Oscillation Measurements on Theory, Hitoshi Murayama, Aip Conf. Proc. 721 (2004) 122, arXiv:hep-ph/0312008. Nufact 03, 5th International Workshop on Neutrino Factories and Superbeams, Columbia University, New York, 5-11 June 2003.
[Murayama:2003ym]
[3-150]
Supersymmetric grandunification and fermion masses, Borut Bajc, Bled Workshops Phys. 4 (2003) 138-149, arXiv:hep-ph/0311214. Euresco Conference on What Comes Beyond the Standard Model? Symmetries Beyond the Standard Model, Portoroz, Slovenia, 12-17 Jul 2003.
[Bajc:2003ht]
[3-151]
Neutrino Physics - Theory, W. Grimus, Lect. Notes Phys. 629 (2004) 169, arXiv:hep-ph/0307149. 41 Internationale Universitatswochen fur Theoretische Physik, Flavour Physics, Schladming, Styria, Austria, February 22-28, 2003.
[Grimus:2003es]
[3-152]
The Origin of Mass, C.D. Froggatt, Surveys High Energ. Phys. 18 (2003) 77, arXiv:hep-ph/0307138. XXXI ITEP Winter School, Moscow, Russia, 18 - 26 February 2003.
[Froggatt:2003ef]
[3-153]
Phenomenology of Neutrino Masses and Mixings, Guido Altarelli, Ferruccio Feruglio, arXiv:hep-ph/0306265, 2003. X International Workshop on 'Neutrino Telescopes', Venice, March 11-14, 2003.
[Altarelli:2003vk]
[3-154]
Neutrino Mass, Flavour and CP Violation, S. F. King, arXiv:hep-ph/0306095, 2003. X International Workshop on 'Neutrino Telescopes', Venice, March 11-14, 2003.
[King:2003iw]
[3-155]
Understanding neutrino masses and mixings within the seesaw framework, R. N. Mohapatra, arXiv:hep-ph/0306016, 2003. PASCOS03 conference in Mumbai, India, January, 2003; ITP Santa Barbara Neutrino Workshop, March, 2003 and Tenth International conference on Neutrino Telescope in Venice, Italy, March, 2003.
[Mohapatra:2003qw]
[3-156]
TASI 2002 lectures on neutrinos, Yuval Grossman, arXiv:hep-ph/0305245, 2003. TASI 2002 Summer School, University of Colorado, Boulder, Colorado, June 2002.
[Grossman:2003eb]
[3-157]
The role of baryon and lepton numbers in the physics beyond the standard model, Goran Senjanovic, arXiv:hep-ph/0303255, 2003. SUSY'01, Dubna, Russia, and Gran Sasso Extended Workshop on Astroparticle Physics, July 2002.
[Senjanovic:2003cb]
[3-158]
Theoretical Neutrino Physics, H. Murayama, 2003. HEP2003, 17-23 July 2003, Aachen, Germany. http://eps2003.physik.rwth-aachen.de/data/talks/plenary/Murayama.pdf.
[Murayama:EPS2003]
[3-159]
The MSW Effect, A. Yu. Smirnov, 2003. 10th International Workshop on Neutrino Telescopes, March 11-14, 2003, Venice, Italy, Smirnov.A.ppt, Smirnov.B.ppt.
[Smirnov:Venice03]
[3-160]
ICTP Lectures on Theoretical Aspects of Neutrino Masses and Mixings, R. N. Mohapatra, arXiv:hep-ph/0211252, 2002.
[Mohapatra:2002kn]
[3-161]
Neutrino mass models, S. F. King, Nucl. Phys. Proc. Suppl. 118 (2003) 267, arXiv:hep-ph/0208266. XXth International Conference on Neutrino Physics and Astrophysics May 25 - 30, 2002, Munich, Germany.
[King:2002gx]
[3-162]
CP violation: A new era, Yosef Nir, arXiv:hep-ph/0109090, 2001. 55th Scottish Universities Summer School in Physics: Heavy Flavor Physics, St. Andrews, Scotland, 7-23 Aug 2001.
[Nir:2001ge]
[3-163]
Neutrino mass, Goran Senjanovic, arXiv:hep-ph/9402359, 1994. International Europhysics Conference on High Energy Physics, Marseille, France, 22-28 Jul 1993.
[Senjanovic:1994qq]

4 - Habilitation, PhD and Master Theses

[4-1]
Non-Unitary $3 \times 3$ Mixing in Majorana Neutrinos and Vector-like Quark Models, Pedro M. F. Pereira, arXiv:2401.15049, 2024.
[Pereira:2024cud]
[4-2]
Further swampland constraint on Dirac Neutrino, Taiga Harada, Yu Nakayama, Mod.Phys.Lett.A 37 (2022) 2250077, arXiv:2203.07587.
[Harada:2022ijm]
[4-3]
Indirect searches for New Physics via flavour observables, Jonathan Kriewald, arXiv:2202.14015, 2022.
[Kriewald:2021sxh]
[4-4]
Fermion mass hierarchies from vector-like families and possible explanations for the electron and muon anomalous magnetic moments, Huchan Lee, arXiv:2201.07658, 2022.
[Lee:2022kny]
[4-5]
Theory and phenomenology of Dirac neutrinos, Salvador Centelles Chulia, arXiv:2110.15755, 2021.
[Chulia:2021jgv]
[4-6]
Theoretical and phenomenological consequences of active and sterile neutrino within Beyond Standard Model framework, Pritam Das, arXiv:2107.10622, 2021.
[Das:2021xat]
[4-7]
TeV-scale bulk neutrino in warped extra-dimensions as a DM candidate, Francisco Martinez Lopez, arXiv:2105.10981, 2021.
[MartinezLopez:2021glj]
[4-8]
Radiative neutrino masses: A window to new physics, Ricardo Cepedello, arXiv:2105.01896, 2021.
[CepedelloPerez:2021tgj]
[4-9]
Dark Matter Phenomenology: Sterile Neutrino Portal and Gravitational Portal in Extra-Dimensions, Miguel G. Folgado, arXiv:2104.13442, 2021.
[GarciaFolgado:2021fsd]
[4-10]
A Mathematical Construction of an E6 Grand Unified Theory, Anthony Britto, arXiv:2102.13465, 2021.
[Britto:2017pjo]
[4-11]
Minimal dark matter models with radiative neutrino masses: From Lagrangians to observables, Simon May, arXiv:2003.04157, 2020.
[May:2020bpo]
[4-12]
Some aspects of CP violation and gauge interactions in the standard model and beyond, Selim Touati, arXiv:1912.08996, 2019.
[Touati:2019sgn]
[4-13]
Exploring physics beyond the Standard Electroweak Model in the light of supersymmetry, Pradipta Ghosh, arXiv:1803.06478, 2018.
[Ghosh:2011tek]
[4-14]
Lepton flavor violation from low scale seesaw neutrinos with masses reachable at the LHC, X. Marcano, arXiv:1710.08032, 2017.
[MarcanoImaz:2017xjc]
[4-15]
Aspects of fermion dynamics from Lorentz symmetry violation, Julio Leite, arXiv:1612.08370, 2016.
[Leite:2016dbj]
[4-16]
Effective field theories for heavy Majorana neutrinos in a thermal bath, Simone Biondini, arXiv:1612.07933, 2016.
[Biondini:2016hhn]
[4-17]
Radiative Symmetry Breaking in the Supersymmetric Minimal B-L Extended Standard Model, Zachary Burell, arXiv:1608.05888, 2016.
[Burell:2011jhh]
[4-18]
Phenomenology of the Sterile Neutrinos, Zahra Tabrizi, arXiv:1605.09680, 2016.
[Tabrizi:2016eeq]
[4-19]
Present Aspects and Future Prospects of Neutrino Mass and Oscillation, Monojit Ghosh, arXiv:1603.04514, 2016.
[Ghosh:2015oqc]
[4-20]
New minimal supersymmetric SO(10) GUT phenomenology and its cosmological implications, Ila Garg, arXiv:1506.05204, 2015.
[Garg:2015aga]
[4-21]
Study of baryon number and lepton flavour violation in the new minimal supersymmetric SO(10)GUT, Charanjit Kaur, arXiv:1506.04101, 2015.
[Kaur:2014iyz]
[4-22]
Neutrinos Meet Supersymmetry: Quantum Aspects of of Neutrinophysics in Supersymmetric Theories, Wolfgang Gregor Hollik, arXiv:1505.07764, 2015.
[Hollik:2015lwa]
[4-23]
Phenomenology of a left-right-symmetric model inspired by the trinification model, Jamil Hetzel, arXiv:1504.06739, 2015.
[Hetzel:2015cca]
[4-24]
Lepton flavor violation in supersymmetric low-scale seesaw models, Luka Popov, arXiv:1312.1068, 2013.
[Popov:2013xaa]
[4-25]
Exotic properties of neutrinos using effective Lagrangians and specific models, Alberto Aparici, arXiv:1312.0554, 2013.
[Aparici:2013xga]
[4-26]
Effects of fermionic singlet neutrinos on high- and low-energy observables, Cedric Weiland, arXiv:1311.5860, 2013.
[Weiland:2013eae]
[4-27]
Phenomenology of supersymmetric models with anomalous symmetries $U(1)_{H}$, Mauricio Velasquez, arXiv:1311.0891, 2013.
[Velasquez:2013txa]
[4-28]
Electroweak symmetry breaking by dynamically generated masses of quarks and leptons, Adam Smetana, arXiv:1309.4688, 2013.
[Smetana:2013exa]
[4-29]
Beyond the Standard Model: LHC Phenomenology, Cosmology from Post-Inflationary Sources, and Dark Matter Physics, Brian J. Vlcek, arXiv:1308.5347, 2013.
[Vlcek:2013aha]
[4-30]
The B-L Phase Transition: Implications for Cosmology and Neutrinos, Kai Schmitz, arXiv:1307.3887, 2013.
[Schmitz:2012kaa]
[4-31]
Dynamical Yukawa Couplings, Rodrigo Alonso, arXiv:1307.1904, 2013.
[AlonsodePablo:2013mcg]
[4-32]
Binary Tetrahedral Flavor Symmetry, David A. Eby, arXiv:1304.4193, 2013.
[Eby:2013vca]
[4-33]
Studies on Extended Higgs Sectors as a Probe of New Physics Beyond the Standard Model, Kei Yagyu, arXiv:1204.0424, 2012.
[Yagyu:2012qp]
[4-34]
Neutrino Signals from Gravitino Dark Matter with Broken R-Parity, Michael Grefe, Mon.Not.Roy.Astron.Soc. 422 (2008) 2314-2321, arXiv:1111.6041.
[Grefe:2008zz]
[4-35]
Quasiparticles in Leptogenesis - A hard-thermal-loop study, Clemens Paul Kiessig, arXiv:1107.0720, 2011.
[Kiessig:2011rz]
[4-36]
Phenomenology of the minimal B-L extension of the Standard Model at the LHC, Lorenzo Basso, arXiv:1106.4462, 2011.
[Basso:2011hn]
[4-37]
Considerations on supersymmetric Dark Matter beyond the MSSM, Florian Staub, arXiv:1104.3017, 2011.
[Staub:2010tsj]
[4-38]
Phenomenology of supersymmetric neutrino mass models, Avelino Vicente, arXiv:1104.0831, 2011.
[VicenteMontesinos:2011pf]
[4-39]
Beyond The Standard Model: Some Aspects of Supersymmetry and Extra Dimension, Tirtha Sankar Ray, arXiv:1103.5939, 2011.
[Ray:2011sz]
[4-40]
Supersymmetric Models and Neutrino Masses, J. N. Esteves, arXiv:1103.1916, 2011.
[BarretoNestalEsteves:2011asc]
[4-41]
New Aspects of Flavour Model Building in Supersymmetric Grand Unification, Martin Spinrath, arXiv:1009.2511, 2010.
[Spinrath:2010dh]
[4-42]
Phenomenology of Discrete Flavour Symmetries, Luca Merlo, arXiv:1004.2211, 2010.
[Merlo:2010mw]
[4-43]
Systematic analysis of finite family symmetry groups and their application to the lepton sector, Patrick Otto Ludl, arXiv:0907.5587, 2009.
[Ludl:2009ft]
[4-44]
Neutrino Models and Leptogenesis, Sandy S. C. Law, arXiv:0901.1232, 2009.
[Law:2008yyq]

5 - Fundamental Papers - Theory

[5-1]
Neutrino decay and spontaneous violation of lepton number, J. Schechter, J. W. F. Valle, Phys. Rev. D25 (1982) 774.
[Schechter:1981cv]
[5-2]
Neutrino masses, mixings and oscillations in SU(2) x U(1) models of electroweak interactions, T. P. Cheng, Ling-Fong Li, Phys. Rev. D22 (1980) 2860.
[Cheng:1980qt]
[5-3]
Neutrino masses in SU(2) x U(1) theories, J. Schechter, J. W. F. Valle, Phys. Rev. D22 (1980) 2227.
[Schechter:1980gr]
[5-4]
Aspects of the Grand Unification of Strong, Weak and Electromagnetic Interactions, A. J. Buras, John R. Ellis, M. K. Gaillard, Dimitri V. Nanopoulos, Nucl. Phys. B135 (1978) 66-92.
[Buras:1977yy]
[5-5]
The Price of Natural Flavor Conservation in Neutral Weak Interactions, Michael S. Chanowitz, John R. Ellis, Mary K. Gaillard, Nucl. Phys. B128 (1977) 506.
[Chanowitz:1977ye]
[5-6]
Hierarchy of Interactions in Unified Gauge Theories, H. Georgi, Helen R. Quinn, Steven Weinberg, Phys. Rev. Lett. 33 (1974) 451-454.
[Georgi:1974yf]
[5-7]
Teoria simmetrica dell'elettrone e del positrone, Ettore Majorana, Nuovo Cim. 14 (1937) 171-184. In Italian. http://people.na.infn.it/~sesposit/MajoranaSite/documents/EMP9.pdf.
[Majorana:1937vz]

6 - Experiment

[6-1]
Search for Majorana neutrinos in same-sign $WW$ scattering events from $pp$ collisions at $\sqrt{s}=13$ TeV, Georges Aad et al. (ATLAS), Eur.Phys.J.C 83 (2023) 824, arXiv:2305.14931.
[ATLAS:2023tkz]
[6-2]
Search for exotic neutrino interactions using solar neutrinos in the CDEX-10 experiment, X. P. Geng et al. (CDEX), Phys.Rev.D 107 (2023) 112002, arXiv:2210.01604.
[CDEX:2022mlp]
[6-3]
Search for a new B-L Z' gauge boson with NA64, Yu. M. Andreev et al., Phys.Rev.Lett. 129 (2022) 161801, arXiv:2207.09979.
[NA64:2022yly]
[6-4]
Search for long-lived heavy neutral leptons and Higgs portal scalars decaying in the MicroBooNE detector, P. Abratenko et al. (MicroBooNE), Phys.Rev.D 106 (2022) 092006, arXiv:2207.03840.
[MicroBooNE:2022ctm]
[6-5]
Probing heavy Majorana neutrinos and the Weinberg operator through vector boson fusion processes in proton-proton collisions at $\sqrt{s}$ = 13 TeV, CMS, arXiv:2206.08956, 2022.
[CMS:2022rqc]
[6-6]
Search for a light muon-philic $Z^\prime$ with the NA64-$e$ experiment at CERN, Yu. M. Andreev et al., Phys.Rev.D 106 (2022) 032015, arXiv:2206.03101.
[NA64:2022rme]
[6-7]
Search for type-III seesaw heavy leptons in leptonic final states in $pp$ collisions at $\sqrt{s} = 13$ TeV with the ATLAS detector, Georges Aad et al. (ATLAS), Eur.Phys.J.C 82 (2022) 988, arXiv:2202.02039.
[ATLAS:2022yhd]
[6-8]
Search for $Z' \to \mu^{+} \mu^{-}$ in the $L_\mu{-} L_\tau$ gauge-symmetric model at Belle, T. Czank et al., Phys.Rev.D 106 (2022) 012003, arXiv:2109.08596.
[Belle:2021feg]
[6-9]
Search for a Higgs portal scalar decaying to electron-positron pairs in the MicroBooNE detector, P. Abratenko et al. (MicroBooNE), arXiv:2106.00568, 2021.
[Abratenko:2021cdm]
[6-10]
Search for three body pion decays ${\pi}^+{\to}l^+{\nu}X$, A. Aguilar-Arevalo et al. (PIENU), Phys.Rev. D103 (2021) 052006, arXiv:2101.07381.
[PIENU:2021clt]
[6-11]
Search for type-III seesaw heavy leptons in dilepton final states in $pp$ collisions at $\sqrt{s}$ = 13 TeV with the ATLAS detector, ATLAS Collaboration, Eur.Phys.J. C81 (2021) 218, arXiv:2008.07949.
[ATLAS:2020wop]
[6-12]
Constraints on models of scalar and vector leptoquarks decaying to a quark and a neutrino at $\sqrt{s}=$ 13 TeV, CMS Collaboration, Phys.Rev. D98 (2018) 032005, arXiv:1805.10228.
[CMS:2018qqq]
[6-13]
Search for a heavy right-handed W boson and a heavy neutrino in events with two same-flavor leptons and two jets at sqrt(s)=13 TeV, CMS Collaboration, 2017. CMS-PAS-EXO-17-011.
[CMS:2017ilm]
[6-14]
Search for heavy neutrinos and $\mathrm{W}$ bosons with right handed couplings in proton-proton collisions at $\sqrt{s} = 13~\mathrm{TeV}$, CMS Collaboration, 2017. CMS-PAS-EXO-16-045.
[CMS:2017uoz]
[6-15]
Search for heavy neutrinos or third-generation leptoquarks in final states with two hadronically decaying tau leptons and two jets in proton-proton collisions at sqrt(s) = 13 TeV, Vardan Khachatryan et al. (CMS), JHEP 1703 (2017) 077, arXiv:1612.01190.
[CMS:2016fxb]
[6-16]
Constraints on Large Extra Dimensions from the MINOS Experiment, P. Adamson et al. (MINOS), Phys. Rev. D94 (2016) 111101, arXiv:1608.06964.
[MINOS:2016vvv]
[6-17]
Search for a muonic dark force at BABAR, BABAR (BABAR), Phys. Rev. D94 (2016) 011102, arXiv:1606.03501.
[BaBar:2016sci]
[6-18]
Search for heavy Majorana neutrinos with the ATLAS detector in pp collisions at $\sqrt{s} = 8$ TeV, ATLAS (ATLAS), JHEP 07 (2015) 162, arXiv:1506.06020.
[ATLAS:2015gtp]
[6-19]
Search for type-III Seesaw heavy leptons in $pp$ collisions at $\sqrt{s}= 8$ TeV with the ATLAS Detector, Georges Aad et al. (ATLAS), Phys. Rev. D92 (2015) 032001, arXiv:1506.01839.
[ATLAS:2015fma]
[6-20]
Search for heavy Majorana neutrinos in $\mu^{\pm} \mu^{\pm} + \text{jets}$ events in proton-proton collisions at $\sqrt{s} = 8 \, \text{TeV}$, Vardan Khachatryan et al. (CMS), Phys. Lett. B748 (2015) 144-166, arXiv:1501.05566.
[CMS:2015qur]
[6-21]
Search for heavy neutrinos and W bosons with right-handed couplings in proton-proton collisions at $\sqrt{s} = 8 \, \text{TeV}$, Vardan Khachatryan et al. (CMS), Eur.Phys.J. C74 (2014) 3149, arXiv:1407.3683.
[CMS:2014nrz]
[6-22]
Search for heavy neutrinos and W bosons with right-handed couplings in a left-right symmetric model in pp collisions at 7 TeV, Serguei Chatrchyan et al. (CMS), Phys. Rev. Lett. 109 (2012) 261802, arXiv:1210.2402.
[CMS:2012zv]
[6-23]
Search for heavy lepton partners of neutrinos in proton-proton collisions in the context of the type III seesaw mechanism, Serguei Chatrchyan et al. (CMS), Phys. Lett. B718 (2012) 348-368, arXiv:1210.1797.
[CMS:2012ra]
[6-24]
The search for n-nbar oscillation in Super-Kamiokande I, Super-Kamiokande collaboration et al. (Super-Kamiokande), Phys. Rev. D91 (2015) 072006, arXiv:1109.4227.
[Super-Kamiokande:2011idx]
[6-25]
Inclusive search for same-sign dilepton signatures in pp collisions at $\sqrt{s}$ = 7 TeV with the ATLAS detector, G. Aad et al. (ATLAS), JHEP JHEP10 (2011) 107, arXiv:1108.0366.
[ATLAS:2011izm]
[6-26]
Precise measurement of parity violation in polarized muon decay, J.F. Bueno et al. (TWIST), Phys. Rev. D84 (2011) 032005, arXiv:1104.3632.
[TWIST:2011egd]
[6-27]
Search for a W' boson decaying to a muon and a neutrino in pp collisions at $\sqrt{s}$ = 7 TeV, Serguei Chatrchyan et al. (CMS), Phys. Lett. B701 (2011) 160-179, arXiv:1103.0030.
[CMS:2011lhl]
[6-28]
Constraints on Non-Standard Neutrino Interactions and Unparticle Physics with Neutrino-Electron Scattering at the Kuo-Sheng Nuclear Power Reactor, M. Deniz er al. (TEXONO), Phys. Rev. D82 (2010) 033004, arXiv:1006.1947.
[TEXONO:2010tnr]
[6-29]
Search for large extra dimensions in the mono-photon final state at $\sqrt{s}$ = 1.96 TeV, V. Abazov et al. (D0), Phys. Rev. Lett. 101 (2008) 011601, arXiv:0803.2137.
[D0:2008ayi]

7 - Theory

[7-1]
Two New $\mu-\tau$ Deviated Neutrino Mass Matrix Textures, Pralay Chakraborty, Tanmay Dev, Subhankar Roy, arXiv:2404.14264, 2024.
[Chakraborty:2024rgt]
[7-2]
Minimal complete tri-hypercharge theories of flavour, Mario Fernandez Navarro, Stephen F. King, Avelino Vicente, arXiv:2404.12442, 2024.
[FernandezNavarro:2024hnv]
[7-3]
Neutrino Masses in the Mirror Twin Higgs with Spontaneous $\mathbb{Z}_2$ Breaking, Pedro Bittar, Davi B. Costa, Gustavo Burdman, arXiv:2404.11651, 2024.
[Bittar:2024ryj]
[7-4]
Explaining Fermions Mass and Mixing Hierarchies through $U(1)_X$ and $Z_2$ Symmetries, Abdul Rahaman Shaikh, Rathin Adhikari, arXiv:2404.11570, 2024.
[Shaikh:2024ufv]
[7-5]
Pati-Salam models with $A_4$ modular symmetry, Gui-Jun Ding, Si-Yi Jiang, Stephen F. King, Jun-Nan Lu, Bu-Yao Qu, arXiv:2404.06520, 2024.
[Ding:2024fsf]
[7-6]
Dynamical origin of neutrino masses and dark matter from a new confining sector, Maximilian Berbig, Juan Herrero Garcia, Giacomo Landini, arXiv:2403.17488, 2024.
[Berbig:2024uwm]
[7-7]
Revisiting the Dirac Nature of Neutrinos, Manash Dey, Subhankar Roy, arXiv:2403.12461, 2024.
[Dey:2024ctx]
[7-8]
$T_7$ Flavor Symmetry gym: The Key to Unlocking the Neutrino Mass Puzzle, M. W. Aslam, A. A. Zafar, M. N. Aslam, A. A. Bhatti, T. Hussain, arXiv:2403.11177, 2024.
[Aslam:2024ufj]
[7-9]
Axi-majoron for almost everything, Gabriela Barenboim, Pyungwon Ko, Wan-il Park, arXiv:2403.08675, 2024.
[Barenboim:2024xxa]
[7-10]
Complete Minimal Left-Right Symmetric Model File, Jonathan Kriewald, Miha Nemevsek, Fabrizio Nesti, arXiv:2403.07756, 2024.
[Kriewald:2024cgr]
[7-11]
The minimal cosmological standard model, Gabriela Barenboim, P. Ko, Wan-il Park, arXiv:2403.05390, 2024.
[Barenboim:2024akt]
[7-12]
Leptoquark-Mediated Two-Loop Neutrino Mass in Unified Theory, Kevin Hinze, Shaikh Saad, arXiv:2403.04644, 2024.
[Hinze:2024vrl]
[7-13]
Neutrino zeromodes on electroweak strings in light of topological insulators, Minoru Eto, Yu Hamada, Ryusuke Jinno, Muneto Nitta, Masatoshi Yamada, arXiv:2402.19417, 2024.
[2402.19417]
[7-14]
Minimal SU(5) theory on the edge: the importance of being effective, Goran Senjanovic, Michael Zantedeschi, arXiv:2402.19224, 2024.
[Senjanovic:2024uzn]
[7-15]
Universal predictions of Siegel modular invariant theories near the fixed points, Gui-Jun Ding, Ferruccio Feruglio, Xiang-Gan Liu, arXiv:2402.14915, 2024.
[Ding:2024xhz]
[7-16]
Revisiting Trimaximal TM2 mixing in two $A_4$ modular symmetries, Han Zhang, Ye-Ling Zhou, arXiv:2401.17810, 2024.
[Zhang:2024rwv]
[7-17]
Neutrino Masses and Higher Degree Siegel Modular Forms, Maibam Ricky Devi, arXiv:2401.16257, 2024.
[RickyDevi:2024ijc]
[7-18]
$SU(2)_L$ deconstruction and flavour (non)-universality, Bernat Capdevila, Andreas Crivellin, Javier M. Lizana, Stefan Pokorski, arXiv:2401.00848, 2024.
[Capdevila:2024gki]
[7-19]
The natural smallness of Dirac neutrino mass from the multiplicative Lagrangian, Suppanat Supanyo, Chanon Hasuwannakit, Sikarin Yoo-Kong, Lunchakorn Tannukij, Monsit Tanasittikosol, arXiv:2312.16587, 2023.
[Supanyo:2023jkh]
[7-20]
$S_4$ Lepton Flavor Model with 3HDM, Yukimura Izawa, arXiv:2312.16545, 2023.
[2312.16545]
[7-21]
Minimal flavour deconstruction, Riccardo Barbieri, Gino Isidori, arXiv:2312.14004, 2023.
[Barbieri:2023qpf]
[7-22]
Questions of flavor physics and neutrino mass from a flipped hypercharge, Duong Van Loi, Phung Van Dong, N. T. Duy, Nguyen Huy Thao, arXiv:2312.12836, 2023.
[VanLoi:2023kgl]
[7-23]
Quantum field theories of relativistic Luttinger fermions, Holger Gies, Philip Heinzel, Johannes Laufkotter, Marta Picciau, arXiv:2312.12058, 2023.
[Gies:2023cnd]
[7-24]
Scotogenic generation of realistic neutrino mixing with D5, Soumita Pramanick, arXiv:2312.08093, 2023.
[Pramanick:2023fal]
[7-25]
Neutrino Mass Matrices with Generalized CP Symmetries and Texture Zeros, Sanjeev Kumar, Radha Raman Gautam, Nucl.Phys.B 1001 (2024) 116520, arXiv:2312.07150.
[Kumar:2023iaj]
[7-26]
Cosmological domain walls from the breaking of $\mathbf{S_4}$ flavor symmetry, Adil Jueid, Mohamed Amin Loualidi, Salah Nasri, Mohamed Amine Ouahid, Phys.Rev.D 109 (2024) 055048, arXiv:2312.04388.
[Jueid:2023cgp]
[7-27]
Flavor symmetries in the leptonic Yukawa sector of the 3HDM, Bartosz Dziewit, Joris Vergeest, Marek Zralek, arXiv:2312.01380, 2023.
[Dziewit:2023dzg]
[7-28]
UV-complete Gauged Anomaly-free U(1) Froggatt-Nielsen Model, Johan Rathsman, Felix Tellander, arXiv:2311.18692, 2023.
[Rathsman:2023cic]
[7-29]
Radiative Majorana Neutrino Masses in a Parity Solution to the Strong CP Problem, Lawrence J. Hall, Keisuke Harigaya, Yogev Shpilman, JHEP 03 (2024) 047, arXiv:2311.10274.
[Hall:2023vjb]
[7-30]
Quark and lepton modular models from the binary dihedral flavor symmetry, Carlos Arriaga-Osante, Xiang-Gan Liu, Saul Ramos-Sanchez, arXiv:2311.10136, 2023.
[Arriaga-Osante:2023wnu]
[7-31]
Neutrino Mass Model and Dark Matter with $Y=0$ Inert Triplet Scalar, Shilpa Jangid, Keiko I. Nagao, Hiroshi Okada, arXiv:2311.08901, 2023.
[Jangid:2023hzi]
[7-32]
Tri-unification: a separate $SU(5)$ for each fermion family, Mario Fernandez Navarro, Stephen F. King, Avelino Vicente, arXiv:2311.05683, 2023.
[FernandezNavarro:2023hrf]
[7-33]
On the Normalisation of the Modular Forms in Modular Invariant Theories of Flavour, S. T. Petcov, Phys.Lett.B 850 (2024) 138540, arXiv:2311.04185.
[Petcov:2023fwh]
[7-34]
Large extra dimensions from higher-dimensional inflation, Luis A. Anchordoqui, Ignatios Antoniadis, arXiv:2310.20282, 2023.
[Anchordoqui:2023etp]
[7-35]
Casimir Energy Stabilization of Standard Model Landscape in Dark Dimension, Chuanxin Cui, Sirui Ning, arXiv:2310.19592, 2023.
[Cui:2023wzo]
[7-36]
The standard HVM, Gauhar Abbas, arXiv:2310.12915, 2023.
[Abbas:2023dpf]
[7-37]
A Common Origin for the QCD Axion and Sterile Neutrinos from $SU(5)$ Strong Dynamics, Peter Cox, Tony Gherghetta, Arpon Paul, JHEP 12 (2023) 180, arXiv:2310.08557.
[Cox:2023dou]
[7-38]
A lepton model with nearly Cobimaximal mixing, Juan Carlos Gomez-Izquierdo, Asahel Enrique Pozas Ramirez, arXiv:2310.03000, 2023.
[Gomez-Izquierdo:2023mph]
[7-39]
Ultralight Dirac neutrinos from nearly degenerate Higgs doublets, Pei-Hong Gu, arXiv:2310.00550, 2023.
[Gu:2023apn]
[7-40]
Texture zeros realization in a three-loop radiative neutrino mass model from modular $A_4$ symmetry, Takaaki Nomura, Hiroshi Okada, Hajime Otsuka, arXiv:2309.13921, 2023.
[Nomura:2023usj]
[7-41]
Low Scale Leptogenesis in Singlet-Triplet Scotogenic Model, Labh Singh, Devabrat Mahanta, Surender Verma, JCAP 02 (2024) 041, arXiv:2309.12755.
[Singh:2023eye]
[7-42]
Axion paradigm with color-mediated neutrino masses, A. Batra, H. B. Camara, F. R. Joaquim, R. Srivastava, J. W. F. Valle, Phys.Rev.Lett. 132 (2024) 051801, arXiv:2309.06473.
[Batra:2023erw]
[7-43]
Neutrino mass model based on $\Delta(27)$ symmetry and its implications, Ph. Wilina, N. Nimai Singh, arXiv:2308.13227, 2023.
[Wilina:2023qpo]
[7-44]
Textures of Neutrino Mass Matrix from $S_4$-flavor Symmetry, N. Chamoun, E. I. Lashin, arXiv:2308.10985, 2023.
[Chamoun:2023vnn]
[7-45]
Phenomenological profile of scotogenic fermionic dark matter, Anirban Karan, Soumya Sadhukhan, Jose W. F. Valle, JHEP 12 (2023) 185, arXiv:2308.09135.
[Karan:2023adm]
[7-46]
Neutrino mixing sum rules and the Littlest Seesaw, Francesco Costa, Stephen F. King, Universe 9 (2023) 472, arXiv:2307.13895.
[Costa:2023bxw]
[7-47]
Flavor-dependent $U(1)$ extension inspired by lepton, baryon and color numbers, Duong Van Loi, Phung Van Dong, Eur.Phys.J.C 83 (2023) 1048, arXiv:2307.13493.
[VanLoi:2023utt]
[7-48]
A unified sedenion model for the origins of three generations of charged and neutral leptons, flavor mixing, mass oscillations and small masses of neutrinos, Qiang Tang, Jau Tang, arXiv:2307.02505, 2023.
[Tang:2023yjs]
[7-49]
Radiative neutrino masses and the Cohen-Kaplan-Nelson bound, Patrick Adolf, Martin Hirsch, Heinrich Pas, JHEP 11 (2023) 078, arXiv:2306.15313.
[Adolf:2023wfw]
[7-50]
Coleman-Weinberg dynamics of ultralight scalar dark matter and GeV-scale right-handed neutrinos, Clara Murgui, Ryan Plestid, arXiv:2306.13799, 2023.
[Murgui:2023kig]
[7-51]
Modified trimaximal mixing for solar and reactor neutrino mixing angles, Yulin Chen, Yuta Hyodo, Teruyuki Kitabayashi, Int.J.Mod.Phys.A 38 (2023) 2350174, arXiv:2306.13243.
[Chen:2023hmn]
[7-52]
A simplest modular $S_3$ model for leptons, Davide Meloni, Matteo Parriciatu, JHEP 09 (2023) 043, arXiv:2306.09028.
[Meloni:2023aru]
[7-53]
Dispersive determination of neutrino mass orderings, Hsiang-nan Li, arXiv:2306.03463, 2023.
[Li:2023ncg]
[7-54]
Interpreting dark matter solution for $B-L$ gauge symmetry, Phung Van Dong, Phys.Rev.D 108 (2023) 115022, arXiv:2305.19197.
[VanDong:2023thb]
[7-55]
Phenomenological aspects of the fermion and scalar sectors of a $S_4$ flavored 3-3-1 model, A. E. Carcamo Hernandez, Juan Marchant Gonzalez, M. L. Mora-Urruti, Daniel Salinas-Arizmendi, arXiv:2305.13441, 2023.
[CarcamoHernandez:2023dyz]
[7-56]
Atmospheric Neutrino Octant from Flavour Symmetry, Claudio Coriano, Paul H. Frampton, Pietro Santorelli, arXiv:2305.10463, 2023.
[Coriano:2023azm]
[7-57]
Physics implication from higher weak isospin decomposition, Phung Van Dong, Duong Van Loi, Eur.Phys.J.C 83 (2023) 703, arXiv:2305.10150.
[VanDong:2023bpg]
[7-58]
Dai-Freed anomaly in the standard model and topological inflation, Masahiro Kawasaki, Tsutomu T. Yanagida, JHEP 11 (2023) 106, arXiv:2304.10100.
[Kawasaki:2023mjm]
[7-59]
A Realistic Neutrino mixing scheme arising from $A_4$ symmetry, Manash Dey, Subhankar Roy, arXiv:2304.07259, 2023.
[Dey:2023rht]
[7-60]
The other variants of mixed $\mu$-$\tau$ symmetry, Pralay Chakraborty, Subhankar Roy, Nucl.Phys.B 992 (2023) 116252, arXiv:2304.06737.
[Chakraborty:2023msb]
[7-61]
Neutrino Mass in Non-Supersymmetric $SO(10)$ GUT, Naoyuki Haba, Yasuhiro Shimizu, Toshifumi Yamada, Phys.Rev.D 108 (2023) 095005, arXiv:2304.06263.
[Haba:2023dvo]
[7-62]
CKM and PMNS mixing matrix from $SO(2)$ flavor symmetry, Guojun Xu, Ying Zhang, EPL 143 (2023) 44001, arXiv:2304.05017.
[Xu:2023kfi]
[7-63]
Scotogenic models with a general lepton flavor dependent $U(1)$ gauge symmetry, Takaaki Nomura, Hiroshi Okada, Phys.Lett.B 848 (2024) 138393, arXiv:2304.03905.
[Nomura:2023vmh]
[7-64]
Neutrinoless double beta decay as seen by the devil's advocate, Gia Dvali, Alessio Maiezza, Goran Senjanovic, Vladimir Tello, Phys.Rev.D 108 (2023) 075012, arXiv:2303.17261.
[Dvali:2023snt]
[7-65]
A non zero $\theta_{13}$ arising from a unique neutrino mass matrix, Sagar Tirtha Goswami, Subhankar Roy, arXiv:2303.02358, 2023.
[Goswami:2023bft]
[7-66]
Neutrino Mass and Mixing Models with Eclectic Flavor Symmetry $\Delta (27) \rtimes T'$, Gui-Jun Ding, Stephen F. King, Cai-Chang Li, Xiang-Gan Liu, Jun-Nan Lu, JHEP 05 (2023) 144, arXiv:2303.02071.
[Ding:2023ynd]
[7-67]
Towards UV-Models of Kinetic Mixing and Portal Matter III: Relating Portal Matter and R-H Neutrino Masses, Thomas G. Rizzo, Phys.Rev.D 107 (2023) 095014, arXiv:2302.12698.
[Rizzo:2023qbj]
[7-68]
Fermion masses, critical behavior and universality, Ferruccio Feruglio, JHEP 03 (2023) 236, arXiv:2302.11580.
[Feruglio:2023mii]
[7-69]
Weak Mixing Matrix Structures as a Consequence of Broken Mirror Symmetry, Igor T. Dyatlov, Phys.Atom.Nucl. 86 (2023) 129-146, arXiv:2302.05976.
[Dyatlov:2023jfv]
[7-70]
The Minimal Flavor Structure of Quarks and Leptons, Ying Zhang, J.Phys.G 50 (2023) 125006, arXiv:2302.05943.
[Zhang:2023zrn]
[7-71]
Towers and Hierarchies in the Standard Model from Emergence in Quantum Gravity, Alberto Castellano, Alvaro Herraez, Luis E. Ibanez, JHEP 10 (2023) 172, arXiv:2302.00017.
[Castellano:2023qhp]
[7-72]
Minimal Left-Right Symmetric Model with $A_4$ modular symmetry, Ankita Kakoti, Bichitra Bijay Boruah, Mrinal Kumar Das, Int.J.Mod.Phys.A 38 (2023) 2350150, arXiv:2301.13552.
[Kakoti:2023isn]
[7-73]
Ultraviolet extensions of the Scotogenic model, Diego Portillo-Sanchez, Pablo Escribano, Avelino Vicente, JHEP 08 (2023) 023, arXiv:2301.05249.
[Portillo-Sanchez:2023kbz]
[7-74]
Electroweak Phase Transition in a Right-Handed Neutrino Superfield Extended NMSSM, Pankaj Borah, Pradipta Ghosh, Sourov Roy, Abhijit Kumar Saha, JHEP 08 (2023) 029, arXiv:2301.05061.
[Borah:2023zsb]
[7-75]
Study of neutrino mass matrices with vanishing trace and one vanishing minor, Sangeeta Dey, Mahadev Patgiri, Phys.Rev.D 107 (2023) 035012, arXiv:2301.04057.
[Dey:2023tsk]
[7-76]
Addressing Six Standard Model Problems with Technically Natural Higgs Models, Martin Rosenlyst, JHEP 10 (2023) 068, arXiv:2212.14809.
[Rosenlyst:2022jxj]
[7-77]
Abelian charge inspired by family number, Phung Van Dong, Tran Ngoc Hung, Duong Van Loi, Eur.Phys.J.C 83 (2023) 199, arXiv:2212.13155.
[VanDong:2022cin]
[7-78]
Modular $A_4$ Symmetry With Three-Moduli and Flavor Problem, Mohammed Abbas, Shaaban Khalil, arXiv:2212.10666, 2022.
[Abbas:2022slb]
[7-79]
Exploring the vacuum structure of gravitationally induced neutrino masses, Carlos Henrique de Lima, Daniel Stolarski, Phys.Rev.D 107 (2023) 075035, arXiv:2212.06260.
[deLima:2022dht]
[7-80]
The special Two zeros texture based on $A_4$ symmetry and perturbation method, N. Razzaghi, arXiv:2212.00609, 2022.
[Razzaghi:2022zjq]
[7-81]
An Alternate Left-Right Symmetric Model with Dirac Neutrinos, Siddharth P. Maharathy, Manimala Mitra, Agnivo Sarkar, Eur.Phys.J.C 83 (2023) 480, arXiv:2211.09675.
[Maharathy:2022gki]
[7-82]
Texture-zero patterns of lepton mass matrices from modular symmetry, Gui-Jun Ding, F. R. Joaquim, Jun-Nan Lu, JHEP 03 (2023) 141, arXiv:2211.08136.
[Ding:2022aoe]
[7-83]
Predicting Neutrino Mixing Angles Using Group Presentations, Carlos Alvarado, Janelly Bautista, Alexander J. Stuart, Int.J.Mod.Phys.A 38 (2023) 2350039, arXiv:2211.07785.
[Alvarado:2022lzx]
[7-84]
Neutrino Masses from Generalized Symmetry Breaking, Clay Cordova, Sungwoo Hong, Seth Koren, Kantaro Ohmori, arXiv:2211.07639, 2022.
[Cordova:2022fhg]
[7-85]
The irresistible call of $\tau=i$, Ferruccio Feruglio, arXiv:2211.00659, 2022.
[Feruglio:2022kea]
[7-86]
Neutrino masses and self-interacting dark matter with mass mixing $Z-Z^\prime$ gauge portal, Leon M. G. de la Vega, Eduardo Peinado, Jose Wudka, JHEP 07 (2023) 017, arXiv:2210.14863.
[delaVega:2022uko]
[7-87]
Lepton masses in a non universal U(1) model with three families, C. Cortes-Parra, R. Martinez, J. S. Alvarado, arXiv:2210.14407, 2022.
[Cortes-Parra:2022bbq]
[7-88]
The $\mu$-$\tau$ reflection symmetry of Majorana neutrinos, Zhi-zhong Xing, Rept.Prog.Phys. 86 (2023) 076201, arXiv:2210.11922.
[Xing:2022uax]
[7-89]
Neutrino Oscillation Caused by Local Symmetry Broken, Xiao-Yan Wang, Xiang-Jun Chen, arXiv:2210.08436, 2022.
[Wang:2022oxv]
[7-90]
One-loop Matching of Scotogenic Model onto Standard Model Effective Field Theory up to Dimension 7, Yi Liao, Xiao-Dong Ma, JHEP 12 (2022) 053, arXiv:2210.04270.
[Liao:2022cwh]
[7-91]
SM Extension With Gauged Flavor $U(1)_F$, Zurab Tavartkiladze, Phys.Rev.D 106 (2022) 115002, arXiv:2209.14404.
[Tavartkiladze:2022pzf]
[7-92]
Asymmetric Mediator in Scotogenic Model, Kento Asai, Yuhei Sakai, Joe Sato, Yasutaka Takanishi, Masato Yamanaka, Phys.Lett.B 836 (2023) 137627, arXiv:2209.08257.
[Asai:2022vat]
[7-93]
Neutrino Masses and Helicities, J. W. Moffat, arXiv:2209.05350, 2022.
[Moffat:2022dcu]
[7-94]
Soft breaking of the $\mu\leftrightarrow \tau$ symmetry by $\mathbf{S}_{4}\otimes \mathbf{Z}_{2}$, J. D. Garcia-Aguilar, Asahel Enrique Pozas Ramirez, Marlon Michael Suarez Castaneda, Juan Carlos Gomez-Izquierdo, Rev.Mex.Fis. 69 (2023) 030802, arXiv:2209.01316.
[Garcia-Aguilar:2022gfw]
[7-95]
New types of instability and CP violation in electroweak theory, M. Yoshimura, arXiv:2209.00166, 2022.
[Yoshimura:2022diu]
[7-96]
Matter-antimatter Asymmetry, CP Violation and the Time Operator in Relativistic Quantum Mechanics, M. Bauer, arXiv:2208.13864, 2022.
[Bauer:2022qwi]
[7-97]
Is magic texture for Majorana neutrino immanent in Dirac nature?, Yuta Hyodo, Teruyuki Kitabayashi, Chin.Phys.C 47 (2023) 043103, arXiv:2208.11874.
[Hyodo:2022xyn]
[7-98]
The Geometric $\nu$SMEFT: Operators and Connections, Jim Talbert, JHEP 01 (2023) 069, arXiv:2208.11139.
[Talbert:2022unj]
[7-99]
Towards a Non-Local S-Matrix Theory, Dimitrios Karamitros, Apostolos Pilaftsis, arXiv:2208.10425, 2022.
[Karamitros:2022fki]
[7-100]
Vector-like Quarks, Gustavo Castelo Branco, M. N. Rebelo, PoS DISCRETE2020-2021 (2022) 004, arXiv:2208.07235.
[Branco:2022gja]
[7-101]
Trimaximal Mixing and Extended Magic Symmetry in a Model of Neutrino Mass Matrix, Monal Kashav, Labh Singh, Surender Verma, EPL 142 (2023) 64002, arXiv:2207.13328.
[Singh:2022nmk]
[7-102]
Reviving keV sterile Neutrino Dark Matter, Carlos Jaramillo, JCAP 10 (2022) 093, arXiv:2207.11269.
[Jaramillo:2022mos]
[7-103]
The translational $\mu$-$\tau$ reflection symmetry of Majorana neutrinos, Zhi-zhong Xing, Int.J.Mod.Phys.A 38 (2023) 2250215, arXiv:2207.08568.
[Xing:2022hst]
[7-104]
Right-handed neutrinos, domain walls and tadpoles in the superstring inspired $\mu\nu$SSM, D. E. Lopez-Fogliani, C. Munoz, Nucl.Phys.B 986 (2023) 116060, arXiv:2207.05105.
[Lopez-Fogliani:2022pef]
[7-105]
Chern-Simons Gravity and Neutrino Self-Interactions, Stephon Alexander, Cyril Creque-Sarbinowski, Phys.Rev.D 108 (2023) 104046, arXiv:2207.05094.
[Alexander:2022cow]
[7-106]
Flatland: abelian extensions of the Standard Model with semi-simple completions, Joe Davighi, Joseph Tooby-Smith, JHEP 09 (2022) 159, arXiv:2206.11271.
[Davighi:2022dyq]
[7-107]
One U(1) to Rule them All: In the Realm of Leptoquarks, the Axion Shines, Fernando Arias-Aragon, Christopher Smith, Phys.Rev.D 106 (2022) 055034, arXiv:2206.09810.
[Arias-Aragon:2022byr]
[7-108]
Neutrino mass square ratio in random neutrino mass matrices, Naoyuki Haba, Yasuhiro Shimizu, Toshifumi Yamada, PTEP 2023 (2023) 023B07, arXiv:2206.09720.
[Haba:2022zav]
[7-109]
Magic square and three-zero textures for Dirac neutrinos, Ryota Minamizawa, Yuta Hyodo, Teruyuki Kitabayashi, Int.J.Mod.Phys.A 37 (2022) 2250191, arXiv:2206.08484.
[Minamizawa:2022fch]
[7-110]
How many 1-loop neutrino mass models are there?, Carolina Arbelaez, Ricardo Cepedello, Juan Carlos Helo, Martin Hirsch, Sergey Kovalenko, JHEP 08 (2022) 023, arXiv:2205.13063.
[Arbelaez:2022ejo]
[7-111]
The Dark Dimension and the Swampland, Miguel Montero, Cumrun Vafa, Irene Valenzuela, JHEP 02 (2023) 022, arXiv:2205.12293.
[Montero:2022prj]
[7-112]
Effects of variations of SUSY breaking scale on neutrino parameters at low energy scale under radiative corrections, Kh. Helensana Devi, K. Sashikanta Singh, N.Nimai Singh, Adv.High Energy Phys. 2022 (2022) 5780441, arXiv:2205.10005.
[Devi:2022ajl]
[7-113]
Fermion mass hierarchy and lepton flavor violation using $CP$ symmetry, Joy Ganguly, Int.J.Mod.Phys.A 37 (2022) 2250095, arXiv:2205.03084.
[Ganguly:2022cbo]
[7-114]
Deviations from Tribimaximal and Golden Ratio mixings under radiative corrections of neutrino masses and mixings, Ph. Wilina, M. Shubhakanta Singh, N. Nimai Singh, Int.J.Mod.Phys.A 37 (2022) 2250156, arXiv:2205.01936.
[Wilina:2022pzy]
[7-115]
Dark $SU(2)_D$ Gauge Symmetry and Scotogenic Dirac Neutrinos, Ernest Ma, Phys.Lett.B 835 (2022) 137539, arXiv:2204.13205.
[Borah:2022phw]
[7-116]
Dynamically vanishing Dirac neutrino mass from quantum scale symmetry, Astrid Eichhorn, Aaron Held, Phys.Lett.B 846 (2023) 138196, arXiv:2204.09008.
[Eichhorn:2022vgp]
[7-117]
Deviation to the Tri-Bi-Maximal flavor pattern and equivalent classes, E. Barradas-Guevara, O. Felix-Beltran, F. Gonzalez-Canales, Int.J.Mod.Phys.A 38 (2023) 2350031, arXiv:2204.03664.
[Barradas-Guevara:2022bbd]
[7-118]
Naturally small Yukawa couplings from trans-Planckian asymptotic safety, Kamila Kowalska, Soumita Pramanick, Enrico Maria Sessolo, arXiv:2204.00866, 2022.
[Kowalska:2022ypk]
[7-119]
Lepton masses and mixing in a three-Higgs doublet model, Joris Vergeest, Marek Zralek, Bartosz Dziewit, Piotr Chaber, arXiv:2203.03514, 2022.
[Vergeest:2022mqm]
[7-120]
Scotogenic $A_5 \to A_4$ Dirac Neutrinos with Freeze-In Dark Matter, Ernest Ma, Phys.Lett.B 829 (2022) 137104, arXiv:2202.13031.
[Ma:2022bfa]
[7-121]
Origin of Neutrino Masses on the Convex Cone of Positivity Bounds, Xu Li, Shun Zhou, Phys.Rev.D 107 (2023) L031902, arXiv:2202.12907.
[Li:2022tcz]
[7-122]
Radiative neutrino masses from modular $A_4$ symmetry and supersymmetry breaking, Hajime Otsuka, Hiroshi Okada, arXiv:2202.10089, 2022.
[Otsuka:2022rak]
[7-123]
Modular symmetry anomaly and non-perturbative neutrino mass terms in magnetized orbifold models, Shota Kikuchi, Tatsuo Kobayashi, Kaito Nasu, Hikaru Uchida, Shohei Uemura, Phys.Rev.D 105 (2022) 116002, arXiv:2202.05425.
[Kikuchi:2022bkn]
[7-124]
The Structure of Flavor Mixing and Reconstruction of the Mass Matrix, Guojun Xu, Jingjun Zhang, Chenzi Liao, Ying Zhang, Int.J.Mod.Phys.A 38 (2023) 2350137, arXiv:2201.05264.
[Xu:2022mca]
[7-125]
Discrete $R$-symmetry, Various Energy Scales and Gravitational Waves, Gongjun Choi, Weikang Lin, Tsutomu T. Yanagida, Phys.Rev.D 105 (2022) 055033, arXiv:2201.03083.
[Choi:2022fce]
[7-126]
Accidental symmetries in the scalar potential of the Standard Model extended with two Higgs triplets, Xin Wang, Yilin Wang, Shun Zhou, arXiv:2112.15162, 2021.
[2112.15162]
[7-127]
A model of quark and lepton compositeness, Bogdan A. Dobrescu, arXiv:2112.15132, 2021.
[2112.15132]
[7-128]
Towards a Model of Quarks and Leptons, Y. H. Ahn, Sin Kyu Kang, Hyun Min Lee, Phys.Rev.D 106 (2022) 075029, arXiv:2112.13392.
[Ahn:2021ndu]
[7-129]
Vacuum (meta-)stability in the $\mu\nu$SSM, Thomas Biekotter, Sven Heinemeyer, Georg Weiglein, Eur.Phys.J.C 82 (2022) 301, arXiv:2112.12132.
[Biekotter:2021rak]
[7-130]
Technically Natural Higgs from Planck Scale, Martin Rosenlyst, Phys.Rev.D 106 (2022) 013002, arXiv:2112.11588.
[Rosenlyst:2021tdr]
[7-131]
Effective Dirac neutrino mass operator in the Standard Model with a local Abelian extension, Diego Restrepo, David Suarez, Front.in Phys. 10 (2022) 838531, arXiv:2112.09524.
[Restrepo:2021kpq]
[7-132]
Minimal embedding of the Standard Model into intersecting D-brane configurations with a bulk leptonic $U(1)$, Ignatios Antoniadis, Francois Rondeau, arXiv:2112.07587, 2021.
[Antoniadis:2021mqz]
[7-133]
Hadron masses from a Kaluza-Klein like Model, Manfred M. Vieten, arXiv:2112.04292, 2021.
[Vieten:2021dsv]
[7-134]
Composite Leptons, Quarks and Weak Bosons, Harald Fritzsch, arXiv:2112.00555, 2021.
[Fritzsch:2021bzy]
[7-135]
Zee model in a modular $A_4$ symmetry, Takaaki Nomura, Hiroshi Okada, Yong-hui Qi, arXiv:2111.10944, 2021.
[Nomura:2021pld]
[7-136]
Screening models and neutrino oscillations, H. Yazdani Ahmadabadi, H. Mohseni Sadjadi, Phys.Dark Univ. 37 (2022) 101067, arXiv:2111.03054.
[Ahmadabadi:2021yfk]
[7-137]
Probing Neutrino Sector via Statistical Approach, Yu-Cheng Qiu, Hui-Yu Zhu, Int.J.Mod.Phys.A 37 (2022) 2250055, arXiv:2110.10462.
[Qiu:2021jhi]
[7-138]
Predictions from extra dimensions, Steven C. Strausz, arXiv:2110.10023, 2021.
[Strausz:2021bpt]
[7-139]
Boundedness from below of SU(n) potentials, Renato M. Fonseca, arXiv:2110.08290, 2021.
[2110.08290]
[7-140]
Temperature effects on the $Z_2$ symmetry breaking in the scotogenic model, Alexandre Alvarez, Ricardo Cepedello, Martin Hirsch, Werner Porod, Phys.Rev.D 105 (2022), arXiv:2110.04311.
[Alvarez:2021otp]
[7-141]
Flavor changing neutral couplings for leptons, E. A. Paschos, Eur.Phys.J.ST 230 (2021) 4405-4408, arXiv:2110.01004.
[Paschos:2021hyb]
[7-142]
The hidden side of scalar-triplet models with spontaneous CP violation, P.M. Ferreira, B.L. Goncalves, F.R. Joaquim, JHEP 05 (2022) 105, arXiv:2109.13179.
[Ferreira:2021bdj]
[7-143]
A minimal non-supersymmetric $E_6$ Grand Unified Theory without intermediate symmetry, Chandini Dash, Snigdha Mishra, Sudhanwa Patra, Purushottam Sahu, Int.J.Mod.Phys.A 39 (2024) 2450018, arXiv:2109.12536.
[Dash:2021suj]
[7-144]
Flipped SU(5) with modular $A_4$ symmetry, Georgianna Charalampous, Stephen F. King, George K. Leontaris, Ye-Ling Zhou, Phys.Rev.D 104 (2021) 115015, arXiv:2109.11379.
[Charalampous:2021gmf]
[7-145]
Swampland Constraints on Neutrino Masses, E. Gonzalo, L.E. Ibanez, I. Valenzuela, JHEP 02 (2022) 088, arXiv:2109.10961.
[Gonzalo:2021zsp]
[7-146]
A chiral model for sterile neutrino, Chun Liu, Yakefu Reyimuaji, JHEP 12 (2021) 075, arXiv:2109.07828.
[Liu:2021ktw]
[7-147]
Scotogenic neutrino masses with gauged matter parity and gauge coupling unification, A. E. Carcamo Hernandez, Chandan Hati, Sergey Kovalenko, Jose W. F. Valle, Carlos A. Vaquera-Araujo, JHEP 03 (2022) 034, arXiv:2109.05029.
[Hernandez:2021zje]
[7-148]
Majorana Neutrinos, Exceptional Jordan Algebra, and Mass Ratios for Charged Fermions, Vivan Bhatt, Rajrupa Mondal, Vatsalya Vaibhav, Tejinder P. Singh, J.Phys.G 49 (2022) 045007, arXiv:2108.05787.
[Bhatt:2021cpg]
[7-149]
Left-Right symmetric fermions and sterile neutrinos from complex split biquaternions and bioctonions, Vatsalya Vaibhav, Tejinder P. Singh, Adv.Appl.Clifford Algebras 33 (2023) 32, arXiv:2108.01858.
[Vaibhav:2021xib]
[7-150]
A non-renormalizable neutrino mass model with $\mathbf{S}_{3}\otimes \mathbf{Z}_{2}$ symmetry, J. D. Garcia-Aguilar, Juan Carlos Gomez-Izquierdo, Rev.Mex.Fis. 68 (2022) 040801, arXiv:2108.00317.
[Garcia-Aguilar:2021xgk]
[7-151]
Light Sterile Neutrinos and a High-Quality Axion from a Holographic Peccei-Quinn Mechanism, Peter Cox, Tony Gherghetta, Minh D. Nguyen, Phys.Rev.D 105 (2022) 055011, arXiv:2107.14018.
[Cox:2021lii]
[7-152]
Neutrino mass matrices from localization in M-theory on $G_2$ orbifold, Eric Gonzalez, Gordon Kane, Khoa Nguyen, Phys.Rev.D 105 (2022) 046019, arXiv:2107.12893.
[Gonzalez:2021vuf]
[7-153]
Weak scale right-handed neutrino as pseudo-Goldstone fermion of spontaneously broken $U(1)_{L_\mu-L_\tau}$, Anjan S. Joshipura, Ketan M. Patel, JHEP 09 (2021) 115, arXiv:2107.12802.
[Joshipura:2021vtf]
[7-154]
An ultraviolet completion for the Scotogenic model, Pablo Escribano, Avelino Vicente, Phys.Lett.B 823 (2021) 136717, arXiv:2107.10265.
[Escribano:2021ymx]
[7-155]
A viable U(1) extended Standard Model with a massive Z' invoking the Stueckelberg mechanism, Radhika Vinze, Sreerup Raychaudhuri, arXiv:2107.08840, 2021.
[Vinze:2021ezd]
[7-156]
A $\nu$ Supersymmetric Anomaly-free Atlas, B.C. Allanach, Maeve Madigan, Joseph Tooby-Smith, JHEP 02 (2022) 144, arXiv:2107.07926.
[Allanach:2021yjy]
[7-157]
Lepton and quark mixing patterns with generalized CP transformations, Joy Ganguly, Raghavendra Srikanth Hundi, Chin.Phys.C 46 (2022) 103101, arXiv:2107.07275.
[Ganguly:2021swa]
[7-158]
Realistic Inflation in No-Scale $U(1)_R$ Symmetric Flipped $SU(5)$, Mian Muhammad Azeem Abid, Maria Mehmood, Mansoor Ur Rehman, Qaisar Shafi, JCAP 10 (2021) 015, arXiv:2107.05678.
[Abid:2021jvn]
[7-159]
Two A4 modular symmetries for Tri-Maximal 2 mixing, Ivo de Medeiros Varzielas, Joao Lourenco, Nucl.Phys.B 979 (2022) 115793, arXiv:2107.04042.
[deMedeirosVarzielas:2021pug]
[7-160]
The Swampland Conjectures: A bridge from Quantum Gravity to Particle Physics, Mariana Grana, Alvaro Herraez, Universe 7 (2021) 273, arXiv:2107.00087.
[Grana:2021zvf]
[7-161]
Quark and lepton flavor model with leptoquarks in a modular $A_4$ symmetry, Takaaki Nomura, Hiroshi Okada, Yuta Orikasa, Eur.Phys.J.C 81 (2021) 947, arXiv:2106.12375.
[Nomura:2021yjb]
[7-162]
A Radiative Netutrino Mass Model in Dark Non-Abelian Gauge Symmetry, Takaaki Nomura, Hiroshi Okada, Phys.Rev.D 105 (2022) 075010, arXiv:2106.10451.
[Nomura:2021aep]
[7-163]
Leptons and other forces of Nature, Subhankar Roy, Sagar Tirtha Goswami, arXiv:2106.06045, 2021.
[Roy:2021fkr]
[7-164]
QCD surprises: strong CP problem, neutrino mass, Dark Matter and Dark Energy, Andrea Addazi, Antonino Marciano, Roman Pasechnik, Kaiqiang Alan Zeng, Phys.Dark Univ. 36 (2022) 101007, arXiv:2106.03549.
[Addazi:2021ivu]
[7-165]
Unification of L$_\mu$-L$_\tau$ and the standard model gauge group, Joe Sato, JHEP 07 (2022) 011, arXiv:2106.01520.
[Sato:2021fpo]
[7-166]
Higher-Energy Standard Model from the Gauge Group Contraction, N.A. Gromov, Phys.Part.Nucl. 51 (2020) 540-544, arXiv:2105.13772.
[Gromov:2020ulz]
[7-167]
Operator Bases in Effective Field Theories with Sterile Neutrinos: $d \leq 9$, Hao-Lin Li, Zhe Ren, Ming-Lei Xiao, Jiang-Hao Yu, Yu-Hui Zheng, JHEP 11 (2021) 003, arXiv:2105.09329.
[Li:2021tsq]
[7-168]
$B-L$ model with $A_4\times Z_3\times Z_4$ symmetry for $3+1$ active$-$sterile neutrino mixing, V. V. Vien, arXiv:2105.07394, 2021.
[Vien:2021ypd]
[7-169]
2-zeroes texture and the Universal Texture Constraint, S. Gomez-Avila, L. Lopez-Lozano, Pedro Miranda-Romagnoli, R. Noriega-Papaqui, Pedro Lagos-Eulogio, arXiv:2105.01554, 2021.
[Gomez-Avila:2021hma]
[7-170]
Cohen-Kaplan-Nelson Bound and Minimum Coupling in Effective Field Theories, Hooman Davoudiasl, Phys.Rev.D 105 (2022) 116018, arXiv:2105.01116.
[Davoudiasl:2021aih]
[7-171]
The Principle of Global Relativity, J. J. van der Bij, Acta Phys.Polon.B 52 (2021) 627, arXiv:2104.12474.
[vanderBij:2021uda]
[7-172]
Minimal SU(6) Gauge-Higgs Grand Unification, Andrei Angelescu, Andreas Bally, Simone Blasi, Florian Goertz, Phys.Rev.D 105 (2022) 035026, arXiv:2104.07366.
[Angelescu:2021nbp]
[7-173]
AdS Swampland Conjectures and Light Fermions, Eduardo Gonzalo, Luis E. Ibanez, Irene Valenzuela, Phys.Lett.B 822 (2021) 136691, arXiv:2104.06415.
[Gonzalo:2021fma]
[7-174]
Scale-Invariant Quadratic Gravity and Inflation in the Palatini Formalism, Ioannis D. Gialamas, Alexandros Karam, Thomas D. Pappas, Vassilis C. Spanos, Phys.Rev.D 104 (2021) 023521, arXiv:2104.04550.
[Gialamas:2021enw]
[7-175]
On the neutrino and electron masses in the theory of scale relativity, Laurent Nottale, arXiv:2104.03924, 2021.
[Nottale:2021ufu]
[7-176]
Modular $S_4\times SU(5)$ GUT, Gui-Jun Ding, Stephen F. King, Chang-Yuan Yao, Phys.Rev.D 104 (2021) 055034, arXiv:2103.16311.
[Ding:2021zbg]
[7-177]
Naturally Light Dirac Neutrinos from $SO(10) \times U(1)_\psi$, Ernest Ma, Phys.Lett. B819 (2021) 136404, arXiv:2103.15013.
[Ma:2021jvk]
[7-178]
Diagonal reflection symmetries, maximal CP violation, and three-zero texture, Masaki J. S. Yang, Nucl.Phys.B 972 (2021) 115549, arXiv:2103.12289.
[Yang:2021smh]
[7-179]
Majorana neutrino masses by D-brane instanton effects in magnetized orbifold models, Kouki Hoshiya, Shota Kikuchi, Tatsuo Kobayashi, Kaito Nasu, Hikaru Uchida, Shohei Uemura, PTEP 2022 (2022) 013B04, arXiv:2103.07147.
[Hoshiya:2021nux]
[7-180]
Anomalous dimensions from Yukawa couplings in SMNEFT: four-fermion operators, Alakabha Datta, Jacky Kumar, Hongkai Liu, Danny Marfatia, JHEP 2105 (2021) 037, arXiv:2103.04441.
[Datta:2021akg]
[7-181]
Twin Modular $S_4$ with $SU(5)$ GUT, Stephen F. King, Ye-Ling Zhou, JHEP 2104 (2021) 291, arXiv:2103.02633.
[King:2021fhl]
[7-182]
Naturally Light Dirac Neutrinos from SU(6), Ernest Ma, JHEP 07 (2021) 024, arXiv:2103.02072.
[Ma:2021att]
[7-183]
Cobimaximal Mixing with Dirac Neutrinos, Ernest Ma, Phys.Lett. B816 (2021) 136203, arXiv:2102.11430.
[Ma:2021kfa]
[7-184]
The Singly-Charged Scalar Singlet as the Origin of Neutrino Masses, Tobias Felkl, Juan Herrero-Garcia, Michael A. Schmidt, JHEP 2105 (2021) 122, arXiv:2102.09898.
[Felkl:2021qdn]
[7-185]
Texture of One Equality in Neutrino Mass Matrix, A. Ismael, E. I. Lashin, M. AlKhateeb, N. Chamoun, Nucl.Phys.B 971 (2021) 115541, arXiv:2102.08326.
[Ismael:2021jay]
[7-186]
Fermion Mass Hierarchies, Large Lepton Mixing and Residual Modular Symmetries, P. P. Novichkov, J. T. Penedo, S. T. Petcov, JHEP 2104 (2021) 206, arXiv:2102.07488.
[Novichkov:2021evw]
[7-187]
Anomaly-free Abelian gauge symmetries with Dirac scotogenic models, Nicolas Bernal, Julian Calle, Diego Restrepo, Phys.Rev. D103 (2021) 095032, arXiv:2102.06211.
[Bernal:2021ezl]
[7-188]
Minimal scenario of Criticality for Electroweak scale, Neutrino Masses, Dark Matter, and Inflation, Yuta Hamada, Hikaru Kawai, Kiyoharu Kawana, Kin-ya Oda, Kei Yagyu, Eur.Phys.J.C 81 (2021) 962, arXiv:2102.04617.
[Hamada:2021jls]
[7-189]
Explicit Perturbations to the Stabilizer $\tau= {\rm i}$ of Modular $A^\prime_5$ Symmetry and Leptonic CP Violation, Xin Wang, Shun Zhou, JHEP 07 (2021) 093, arXiv:2102.04358.
[Wang:2021mkw]
[7-190]
A translational flavor symmetry in the mass terms of Dirac and Majorana fermions, Zhi-zhong Xing, J.Phys.G 49 (2022) 025003, arXiv:2102.03050.
[Xing:2021zxf]
[7-191]
Linkage of Dirac Neutrinos to Dark U(1) Gauge Symmetry, Ernest Ma, Phys.Lett. B817 (2021) 136290, arXiv:2101.12138.
[Ma:2021szi]
[7-192]
Structure Of Flavor Changing Goldstone Boson Interactions, Jin Sun, Yu Cheng, Xiao-Gang He, JHEP 2104 (2021) 141, arXiv:2101.06055.
[Sun:2021jpw]
[7-193]
$U(1)'$ extensions of the $\mu\nu$SSM, J. A. Aguilar-Saavedra, I. Lara, D. E. Lopez-Fogliani, C. Munoz, Eur.Phys.J. C81 (2021) 443, arXiv:2101.05565.
[Aguilar-Saavedra:2021qbv]
[7-194]
Hierarchical Quark and Lepton Masses with Sequential U(1) Gauge Symmetry, Ernest Ma, Phys.Lett. B815 (2021) 136145, arXiv:2101.04286.
[Ma:2021aag]
[7-195]
Adjoint SU(5) GUT model with Modular $S_4$ Symmetry, Ya Zhao, Hong-Hao Zhang, JHEP 2103 (2021) 002, arXiv:2101.02266.
[Zhao:2021jxg]
[7-196]
Ultra Unification, Juven Wang, Phys.Rev.D 103 (2021) 105024, arXiv:2012.15860.
[Wang:2020mra]
[7-197]
On symmetry breaking in the B-L extended spectral Standard Model, Fabien Besnard, J.Phys.A 55 (2022) 264010, arXiv:2012.11196.
[Besnard:2020mjk]
[7-198]
Flavor Non-universal Pati-Salam Unification and Neutrino Masses, Javier Fuentes-Martin, Gino Isidori, Julie Pages, Ben A. Stefanek, Phys.Lett.B 820 (2021) 136484, arXiv:2012.10492.
[Fuentes-Martin:2020pww]
[7-199]
One-Loop Electron Mass and Three-Loop Dirac Neutrino Masses, Ernest Ma, Phys.Lett. B815 (2021) 136130, arXiv:2012.07964.
[Ma:2020nhm]
[7-200]
$SU(4)$ Flavorful Portals, George N. Wojcik, Thomas G. Rizzo, Phys.Rev.D 105 (2022) 015032, arXiv:2012.05406.
[Wojcik:2020wgm]
[7-201]
Leptonic Sum Rules from Flavour Models with Modular Symmetries, Julia Gehrlein, Martin Spinrath, JHEP 2103 (2021) 177, arXiv:2012.04131.
[Gehrlein:2020jnr]
[7-202]
Universal Scotogenic Fermion Masses in Left-Right Gauge Model, Ernest Ma, Nucl.Phys. B967 (2021) 115406, arXiv:2012.03128.
[Ma:2020lnm]
[7-203]
Effective Field Theory for Leptoquarks, Bianka Mecaj, Matthias Neubert, JHEP 01 (2023) 059, arXiv:2012.02186.
[Mecaj:2020opd]
[7-204]
Multiscalar $B-L$ extension based on $S_4$ flavor symmetry for neutrino mass and mixing, V. V. Vien, H. N. Long, Chin.Phys. C45 (2021) 043112, arXiv:2012.01715.
[Vien:2020aya]
[7-205]
Spontaneous CP violation by modulus $\tau$ in $A_4$ model of lepton flavors, Hiroshi Okada, Morimitsu Tanimoto, JHEP 2103 (2021) 010, arXiv:2012.01688.
[Okada:2020brs]
[7-206]
Neutrino Masses from Low Scale Partial Compositeness, Zackaria Chacko, Patrick J. Fox, Roni Harnik, Zhen Liu, JHEP 2103 (2021) 112, arXiv:2012.01443.
[Chacko:2020zze]
[7-207]
On the Flavour Structure of Anomaly-free Hidden Photon Models, Martin Bauer, Patrick Foldenauer, Martin Mosny, Phys.Rev. D103 (2021) 075024, arXiv:2011.12973.
[Bauer:2020itv]
[7-208]
Fermion Masses and Mixing from Double Cover and Metaplectic Cover of $A_5$ Modular Group, Chang-Yuan Yao, Xiang-Gan Liu, Gui-Jun Ding, Phys.Rev. D103 (2021) 095013, arXiv:2011.03501.
[Yao:2020zml]
[7-209]
Neutrino Masses and Mixing in Models with Large Extra Dimensions and Localized Fermions, S. Girmohanta, R. N. Mohapatra, R. Shrock, Phys.Rev. D103 (2021) 015021, arXiv:2011.01237.
[Girmohanta:2020llh]
[7-210]
Split Left-Right Symmetry and Scotogenic Quark and Lepton Masses, Ernest Ma, Phys.Lett. B811 (2020) 135971, arXiv:2010.09127.
[Ma:2020wjc]
[7-211]
Dileptonic Scalar Dark Matter and Exotic Leptons, Ernest Ma, Phys.Lett. B815 (2021) 136157, arXiv:2010.05054.
[Ma:2020qyz]
[7-212]
Noncommutative geometry, the Lorentzian Standard Model and its B-L extension, Fabien Besnard, Christian Brouder, Phys.Rev. D103 (2021) 035003, arXiv:2010.04960.
[Besnard:2020lto]
[7-213]
The $U$ boson, interpolating between a generalized dark photon or dark $Z$, an axial boson and an axionlike particle, Pierre Fayet, Phys.Rev. D103 (2021) 035034, arXiv:2010.04673.
[Fayet:2020bmb]
[7-214]
Lepton sector in modular $A_4$ and gauged $U(1)_R$ symmetry, Keiko I. Nagao, Hiroshi Okada, Nucl.Phys.B 980 (2022) 115841, arXiv:2010.03348.
[Nagao:2020snm]
[7-215]
Loop-Generated Neutrino Masses in Composite Higgs Models, Giacomo Cacciapaglia, Martin Rosenlyst, JHEP 21 (2020) 167, arXiv:2010.01437.
[Cacciapaglia:2020psm]
[7-216]
Quark and Lepton Mass and Mixing with non-universal $Z'$ from a 5d Standard Model with gauged $SO(3)$, Francisco J. de Anda, Stephen F. King, JHEP 2103 (2021) 078, arXiv:2010.00100.
[DeAnda:2020dwc]
[7-217]
Modular invariant flavor model of $\rm A_4$ and hierarchical structures at nearby fixed points, Hiroshi Okada, Morimitsu Tanimoto, Phys.Rev. D103 (2021) 015005, arXiv:2009.14242.
[Okada:2020ukr]
[7-218]
Exploding operators for Majorana neutrino masses and beyond, John Gargalionis, Raymond R. Volkas, JHEP 2101 (2021) 074, arXiv:2009.13537.
[Gargalionis:2020xvt]
[7-219]
PeV Sterile Masses from D-Brane Instantons - Motivating Stringy Neutrino Options?, Jim Talbert, arXiv:2009.11813, 2020.
[Talbert:2020mny]
[7-220]
Model of Boson and Fermion Particle Masses, J. W. Moffat, Eur.Phys.J.Plus 136 (2021) 601, arXiv:2009.10145.
[Moffat:2020ecn]
[7-221]
Fermion mass hierarchies from supersymmetric gauged flavour symmetry in 5D, Ketan M. Patel, SciPost Phys. 10 (2021) 154, arXiv:2009.00248.
[Patel:2020bwo]
[7-222]
Inflation and long-range force from clockwork $D$-term, Anjan S. Joshipura, Subhendra Mohanty, Ketan M. Patel, Phys.Rev. D103 (2021) 035008, arXiv:2008.13334.
[Joshipura:2020ibd]
[7-223]
Reloading the Axion, Alex G. Dias, Julio Leite, Jose W. F. Valle, Carlos A. Vaquera-Araujo, Phys.Lett. B810 (2020) 135829, arXiv:2008.10650.
[Dias:2020kbj]
[7-224]
R-Symmetric Flipped SU(5), Koichi Hamaguchi, Shihwen Hor, Natsumi Nagata, JHEP 2011 (2020) 140, arXiv:2008.08940.
[Hamaguchi:2020tet]
[7-225]
Anomaly-free chiral $U(1)_{D}$ and its scotogenic implication, Chi-Fong Wong, Phys.Dark Univ. 32 (2021) 100818, arXiv:2008.08573.
[Wong:2020obo]
[7-226]
Anomaly and Cobordism Constraints Beyond Grand Unification: Energy Hierarchy, Juven Wang, arXiv:2008.06499, 2020.
[Wang:2020gqr]
[7-227]
Radiative Neutrino Masses in the $\nu_R$MSSM, Pablo Candia da Silva, Apostolos Pilaftsis, Phys.Rev. D102 (2020) 095013, arXiv:2008.05450.
[CandiadaSilva:2020hxj]
[7-228]
Neutrino masses, vacuum stability and quantum gravity prediction for the mass of the top quark, Guillem Domenech, Mark Goodsell, Christof Wetterich, JHEP 2101 (2021) 180, arXiv:2008.04310.
[Domenech:2020yjf]
[7-229]
The common origin of the family mass hierarchy and CP violation from flavour-dependent vacuum for quarks and leptons, Ying Zhang, arXiv:2008.02393, 2020.
[Zhang:2020ipl]
[7-230]
Sub-TeV Singlet Scalar Dark Matter and Electroweak Vacuum Stability with Vector Like Fermions, Debasish Borah, Rishav Roshan, Arunansu Sil, Phys.Rev.D 102 (2020) 075034, arXiv:2007.14904.
[Borah:2020nsz]
[7-231]
Radiative neutrino masses and exotic right-handed neutrinos, A. C. B. Machado, J. Montano, V. Pleitez, M. C. Rodriguez, arXiv:2007.14788, 2020.
[Machado:2020hsj]
[7-232]
PMNS matrix in a non-universal $U(1)_{X}$ extension to the MSSM with one massless neutrino, J. S. Alvarado, R. Martinez, arXiv:2007.14519, 2020.
[Alvarado:2020lcz]
[7-233]
Neutrinos masses in a supersymmtric model with exotic right-handed neutrinos in Global $(B-L)$ Symmetry, M. C. Rodriguez, Int.J.Mod.Phys. A36 (2021) 2150010, arXiv:2007.14154.
[Rodriguez:2020qkz]
[7-234]
Half-integral weight modular forms and application to neutrino mass models, Xiang-Gan Liu, Chang-Yuan Yao, Bu-Yao Qu, Gui-Jun Ding, Phys.Rev. D102 (2020) 115035, arXiv:2007.13706.
[Liu:2020msy]
[7-235]
Magic square and Dirac flavor neutrino mass matrix, Yuta Hyodo, Teruyuki Kitabayashi, Int.J.Mod.Phys. A35 (2020) 2050183, arXiv:2007.13254.
[Hyodo:2020ysq]
[7-236]
Quantum breaks in a model for the evolution of neutrinos during their decoupling era in the big bang, R. F. Sawyer, arXiv:2007.12693, 2020.
[Sawyer:2020oii]
[7-237]
Split Higgs triplet, Pei-Hong Gu, arXiv:2007.06525, 2020.
[Gu:2020zrz]
[7-238]
Survey of Texture Zeros with Light Dirac Neutrinos, Happy Borgohain, Debasish Borah, J.Phys. G48 (2021) 075005, arXiv:2007.06249.
[Borgohain:2020csn]
[7-239]
A systematic study of Dirac neutrino mass models with a modular $S^{}_4$ symmetry, Xin Wang, Nucl.Phys. B962 (2021) 115247, arXiv:2007.05913.
[Wang:2020dbp]
[7-240]
Axion and neutrino mass from a hidden gauge symmetry model, Takaaki Nomura, Hiroshi Okada, Seokhoon Yun, arXiv:2007.04052, 2020.
[Nomura:2020twp]
[7-241]
The $\nu_{R}$-philic scalar: its loop-induced interactions and Yukawa forces in LIGO observations, Xun-Jie Xu, JHEP 2009 (2020) 105, arXiv:2007.01893.
[Xu:2020qek]
[7-242]
Dynamical Majorana Neutrino Masses and Axions II: Inclusion of Axial Background and Anomaly Terms, Nick E. Mavromatos, Alex Soto, Nucl.Phys. B962 (2021) 115275, arXiv:2006.13616.
[Mavromatos:2020hfy]
[7-243]
New Hybrid Textures for Neutrino Mass Matrices, S. Dev, Desh Raj, Nucl.Phys. B957 (2020) 115081, arXiv:2006.12019.
[Dev:2020xzq]
[7-244]
Texture of Single Vanishing Subtrace in Neutrino Mass Matrix, A. Ismael, M. AlKhateeb, N. Chamoun, E. I. Lashin, Phys.Rev. D103 (2021) 035020, arXiv:2006.10888.
[Ismael:2020awy]
[7-245]
Modular Invariant Quark and Lepton Models in Double Covering of $S_4$ Modular Group, Xiang-Gan Liu, Chang-Yuan Yao, Gui-Jun Ding, Phys.Rev. D103 (2021) 056013, arXiv:2006.10722.
[Liu:2020akv]
[7-246]
Anomaly-free 2HDMs with a gauged abelian symmetry and two generations of right-handed neutrinos, Astrid Ordell, Roman Pasechnik, Hugo Serodio, Phys.Rev. D102 (2020) 035016, arXiv:2006.08676.
[Ordell:2020yoq]
[7-247]
Weinberg dimension-5 operator by vector-like lepton doublets, Pei-Hong Gu, arXiv:2006.08616, 2020.
[Gu:2020nic]
[7-248]
Anomaly cancellation with an extra gauge boson, B. C. Allanach, Ben Gripaios, Joseph Tooby-Smith, Phys.Rev.Lett. 125 (2020) 161601, arXiv:2006.03588.
[Allanach:2020zna]
[7-249]
A connection between flavour anomaly, neutrino mass, and axion, Seungwon Baek, JHEP 2010 (2020) 111, arXiv:2006.02050.
[Baek:2020ovw]
[7-250]
A Higgs Doublet + Higgs Singlet Scheme with Negative Kinetic Term for Neutrino Mass Generation, Jianlong Lu, arXiv:2005.13016, 2020.
[Lu:2020hyw]
[7-251]
Extending low energy effective field theory with a complete set of dimension-7 operators, Yi Liao, Xiao-Dong Ma, Quan-Yu Wang, JHEP 2008 (2020) 162, arXiv:2005.08013.
[Liao:2020zyx]
[7-252]
On the two-loop radiative origin of the smallest neutrino mass and the associated Majorana CP phase, Zhi-zhong Xing, Di Zhang, Phys.Lett. B807 (2020) 135598, arXiv:2005.05171.
[Xing:2020ezi]
[7-253]
Neutrino Mixing by modifying the Yukawa coupling structure of constrained sequential dominance, Joy Ganguly, Raghavendra Srikanth Hundi, Phys.Rev. D103 (2021) 035007, arXiv:2005.04023.
[Ganguly:2020riw]
[7-254]
Quark and lepton flavors with common modulus $\tau$ in $A_4$ modular symmetry, Hiroshi Okada, Morimitsu Tanimoto, Phys.Dark Univ. 40 (2023) 101204, arXiv:2005.00775.
[Okada:2020rjb]
[7-255]
Why Neutrino Masses Cannot Arise from Nonzero VEV of Charged Higgs Field in the Only Higgs Doublet, Jianlong Lu, arXiv:2005.00390, 2020.
[Jianlong:2020szn]
[7-256]
Anticorrelation of Mass and Mixing Angle Hierarchies, Paul H. Frampton, Jihn E. Kim, J.Korean Phys.Soc. 76 (2020) 695-700, arXiv:2004.13071.
[Frampton:2020wqv]
[7-257]
Modular Invariant Models of Leptons at Level 7, Gui-Jun Ding, Stephen F. King, Cai-Chang Li, Ye-Ling Zhou, JHEP 2008 (2020) 164, arXiv:2004.12662.
[Ding:2020msi]
[7-258]
Neutrinos masses in the Supersymmetric B-L model with three non-identical right-handed neutrinos, M. C. Rodriguez, Int.J.Mod.Phys. A36 (2021) 2150038, arXiv:2004.11090.
[Rodriguez:2020fvo]
[7-259]
Lepton number violation in a unified framework, Yuta Kawamura, Yamato Matsuo, Takuya Morozumi, Apriadi Salim Adam, Yusuke Shimizu, Yuya Tokunaga, Naoya Toyota, PTEP 2020 (2020) 093B07, arXiv:2004.07664.
[Kawamura:2020syn]
[7-260]
Generalizing the Scotogenic model, Pablo Escribano, Mario Reig, Avelino Vicente, JHEP 2007 (2020) 097, arXiv:2004.05172.
[Escribano:2020iqq]
[7-261]
Dynamical Majorana Neutrino Masses and Axions, Jean Alexandre, Nick E. Mavromatos, Alex Soto, Nucl.Phys. B961 (2020) 115212, arXiv:2004.04611.
[Alexandre:2020tba]
[7-262]
Neutrino condensation from a New Higgs Interaction, Alan Chodos, Fred Cooper, Phys.Rev. D102 (2020) 113003, arXiv:2004.03731.
[Chodos:2020dgi]
[7-263]
Minimally modified $A_4$ Altarelli-Feruglio model for neutrino masses and mixings and its experimental consequences, Minjie Lei, James D. Wells, Phys.Rev. D102 (2020) 016023, arXiv:2003.12689.
[Lei:2020nik]
[7-264]
A new scheme for neutrino mass generation and relevant new physics, Yanbin Deng, Changyu Huang, Yong-Chang Huang, arXiv:2003.12069, 2020.
[Deng:2020tde]
[7-265]
Reflection symmetries and universal four-zero texture, Masaki J. S. Yang, Chin.Phys. C45 (2021) 043103, arXiv:2003.11701.
[Yang:2020goc]
[7-266]
Scalar clockwork and flavor neutrino mass matrix, Teruyuki Kitabayashi, PTEP 2020 (2020) 123B01, arXiv:2003.06550.
[Kitabayashi:2020cpo]
[7-267]
Radiative generation of neutrino masses in a 3-3-1 type model, Arindam Das, Kazuki Enomoto, Shinya Kanemura, Kei Yagyu, Phys.Rev. D101 (2020) 095007, arXiv:2003.05857.
[Das:2020pai]
[7-268]
Gravitational Origin for Neutrino Masses, Hooman Davoudiasl, Phys.Rev. D101 (2020) 115024, arXiv:2003.04908.
[Davoudiasl:2020opf]
[7-269]
Topologically stable, finite-energy electroweak-scale monopoles, P. Q. Hung, Nucl.Phys. B962 (2021) 115278, arXiv:2003.02794.
[Hung:2020vuo]
[7-270]
Vacuum stability and spontaneous violation of the lepton number at low energy scale in a model for light sterile neutrinos, Joao Paulo Pinheiro, C. A. de S. Pires, Phys.Rev. D102 (2020) 015015, arXiv:2003.02350.
[Pinheiro:2020zde]
[7-271]
Interplay between $\mu$-$\tau$ reflection symmetry, four-zero texture and universal texture, Masaki J. S. Yang, Phys.Lett. B806 (2020) 135483, arXiv:2002.09152.
[Yang:2020qsa]
[7-272]
Flavor masses and mixing in modular A4 Symmetry, Mohamed Abbas, arXiv:2002.01929, 2020.
[Abbas:2020nki]
[7-273]
Five Texture Zeros for Dirac Neutrino Mass Matrices, Richard H. Benavides, Yithsbey Giraldo, Luis Munoz, William A. Ponce, Eduardo Rojas, J.Phys. G47 (2020) 115002, arXiv:2002.01864.
[Benavides:2020pjx]
[7-274]
Fermion Mass Hierarchies from Modular Symmetry, Simon J.D. King, Stephen F. King, JHEP 2009 (2020) 043, arXiv:2002.00969.
[King:2020qaj]
[7-275]
Chiral Abelian gauge theories with few fermions, Davi B. Costa, Bogdan A. Dobrescu, Patrick J. Fox, Phys.Rev.D 101 (2020) 095032, arXiv:2001.11991.
[Costa:2020dph]
[7-276]
A little theory of everything, with heavy neutral leptons, James M. Cline, Matteo Puel, Takashi Toma, JHEP 2005 (2020) 039, arXiv:2001.11505.
[Cline:2020mdt]
[7-277]
$\mu$-$\tau$ symmetry breaking and CP violation in the neutrino mass matrix, Takeshi Fukuyama, Yukihiro Mimura, Phys.Rev. D102 (2020) 016002, arXiv:2001.11185.
[Fukuyama:2020swd]
[7-278]
One-loop matching in the SMEFT extended with a sterile neutrino, Mikael Chala, Arsenii Titov, JHEP 05 (2020) 139, arXiv:2001.07732.
[Chala:2020vqp]
[7-279]
Tetrahedral Symmetry A$_{\bf 4}$ in Anti-SU(5) GUT, Jihn E. Kim, Se-Jin Kim, Soonkeon Nam, Phys.Rev. D101 (2020) 055022, arXiv:2001.02954.
[Frampton:2020tch]
[7-280]
Dark Matter and Torsion, G. Grensing, Gen.Rel.Grav. 53 (2021) 49, arXiv:2001.02159.
[Grensing:2020maa]
[7-281]
Dirac neutrinos from Peccei-Quinn symmetry: two examples, Leon M.G. de la Vega, Newton Nath, Eduardo Peinado, Nucl.Phys. B957 (2020) 115099, arXiv:2001.01846.
[delaVega:2020jcp]
[7-282]
Vacuum energy with mass generation and Higgs bosons, Steven D. Bass, Janina Krzysiak, Phys.Lett. B (2020) 135351, arXiv:2001.01706.
[Bass:2020egf]
[7-283]
Majorana phases in high-scale mixings unification hypotheses, S.S. AbdusSalam, M.Z. Abyaneh, F. Ghelichkhani, M. Noormandipour, Int.J.Mod.Phys.A 36 (2021) 2150077, arXiv:1912.13508.
[AbdusSalam:2019hov]
[7-284]
Parity and the origin of neutrino mass, Goran Senjanovic, Vladimir Tello, Int.J.Mod.Phys.A 35 (2020) 2050053, arXiv:1912.13060.
[Senjanovic:2019moe]
[7-285]
A flipped $U(1)_R$ extension of the Standard Model, Cao H. Nam, J.Phys.G 48 (2020) 015004, arXiv:1912.12595.
[Nam:2019zaa]
[7-286]
Radiative neutrino mass model from a mass dimension-11 $\DeltaL =2 $ effective operator, John Gargalionis, Iulia Popa-Mateiu, Raymond R. Volkas, JHEP 03 (2020) 150, arXiv:1912.12386.
[Gargalionis:2019drk]
[7-287]
Leptonic Source of Dark Matter and Radiative Majorana or Dirac Neutrino Mass, Ernest Ma, Phys.Lett. B809 (2020) 135736, arXiv:1912.11950.
[Ma:2019coj]
[7-288]
Breaking of the tetra-maximal neutrino mixing pattern, Newton Nath, Nucl.Phys. B956 (2020) 115011, arXiv:1912.11517.
[Nath:2019asv]
[7-289]
Predictions for the Leptonic Dirac CP-Violating Phase, Lisa L. Everett, Raymundo Ramos, Ariel B. Rock, Alexander J. Stuart, Int.J.Mod.Phys.A 36 (2021) 2150228, arXiv:1912.10139.
[Everett:2019idp]
[7-290]
Right-handed neutrinos and $U\left(1\right)_{X}$ symmetry-breaking, C. Herbert Clemens, Stuart Raby, JHEP 2004 (2020) 059, arXiv:1912.06902.
[Clemens:2019flx]
[7-291]
Neutrino Flavour Symmetries, Ferruccio Feruglio, Andrea Romanino, Rev.Mod.Phys. 93 (2021) 015007, arXiv:1912.06028.
[Feruglio:2019ybq]
[7-292]
Scotogenic neutrino mass with large $SU(2)_L$ multiplet fields, Nilanjana Kumar, Takaaki Nomura, Hiroshi Okada, Eur.Phys.J. C80 (2020) 801, arXiv:1912.03990.
[Kumar:2019tat]
[7-293]
$\text{TM}_1$ neutrino mixing with $\sin \theta_{13}=\frac{1}{\sqrt{3}}\sin \frac\pi{12}$, R. Krishnan, arXiv:1912.02451, 2019.
[Krishnan:2019xmk]
[7-294]
Yukawa ratio predictions in non-renormalizable $\mathrm{SO}(10)$ GUT models, Stefan Antusch, Christian Hohl, Vasja Susic, JHEP 02 (2020) 086, arXiv:1911.12807.
[Antusch:2019avd]
[7-295]
Asymmetric tri-bi-maximal mixing and residual symmetries, Salvador Centelles Chulia, Andreas Trautner, Mod.Phys.Lett. A35 (2020) 2050292, arXiv:1911.12043.
[CentellesChulia:2019ldn]
[7-296]
Neutrino mass generation from the perspective of presymmetry, Ernesto A. Matute, Mod.Phys.Lett. A34 (2019) 1950284, arXiv:1911.10259.
[Matute:2019hzj]
[7-297]
The $SU(3)_C\times SU(3)_L\times U(1)_X$ Model from $SU(6)$, Tianjun Li, Junle Pei, Fangzhou Xu, Wenxing Zhang, Phys.Rev. D102 (2020) 016004, arXiv:1911.09551.
[Li:2019qxy]
[7-298]
Broken Democracy with Intermediate $\mathbb S_2 \times \mathbb S_2$ Residual Symmetry and Random Perturbations, Neil D. Barrie, Shao-Feng Ge, Tsutomu T. Yanagida, Phys.Lett. B801 (2020) 135159, arXiv:1911.07430.
[Barrie:2019pqc]
[7-299]
Particle physics model of curvaton inflation in a stable universe, Zoltan Peli, Istvan Nandori, Zoltan Trocsanyi, Phys.Rev. D101 (2020) 063533, arXiv:1911.07082.
[Peli:2019vtp]
[7-300]
Two-Higgs-Doublet Models with a Flavored $\mathbb{Z}_2$, S. Centelles Chulia, W. Rodejohann, U. J. Saldana-Salazar, Phys.Rev. D101 (2020) 035013, arXiv:1911.06824.
[CentellesChulia:2019ijn]
[7-301]
From Peccei Quinn symmetry to strong CP problem through hierarchical mass problem, Y. A. Garnica, R. Martinez, H. Vargas, J.Phys.G 48 (2021) 095002, arXiv:1911.05923.
[Garnica:2019hvn]
[7-302]
A new anomaly free flipped 341 model, Meriem.Djouala, Noureddine Mebarki, Habib Aissaoui, Int.J.Mod.Phys.A 36 (2021) 2150101, arXiv:1911.04887.
[Djouala:2019hhn]
[7-303]
Connecting Light Dirac Neutrinos to a Multi-component Dark Matter Scenario in Gauged $B-L$ Model, Dibyendu Nanda, Debasish Borah, Eur.Phys.J. C80 (2020) 557, arXiv:1911.04703.
[Nanda:2019nqy]
[7-304]
Dirac neutrino from the breaking of Peccei-Quinn symmetry, Seungwon Baek, Phys.Lett. B805 (2020) 135415, arXiv:1911.04210.
[Baek:2019wdn]
[7-305]
Neutrino Mass Matrix Model Under a U(3)$\times$U(3)$'$ Family Symmetry, Yoshio Koide, Hiroyuki Nishiura, arXiv:1911.03411, 2019.
[Koide:2019dbs]
[7-306]
Sequentially loop supressed fermion masses from a unique discrete symmetry, Carolina Arbelaez, A. E. Carcamo Hernandez, Ricardo Cepedello, Sergey Kovalenko, Ivan Schmidt, JHEP 2006 (2020) 043, arXiv:1911.02033.
[Arbelaez:2019ofg]
[7-307]
The standard model, the Pati-Salam model, and 'Jordan geometry', Latham Boyle, Shane Farnsworth, New J.Phys. 22 (2020) 073023, arXiv:1910.11888.
[Boyle:2019cvm]
[7-308]
Minimal Realizations of Dirac Neutrino Mass from Generic One-loop and Two-loop Topologies at $d=5$, Sudip Jana, Vishnu P.K., Shaikh Saad, JCAP 2004 (2020) 018, arXiv:1910.09537.
[Jana:2019mgj]
[7-309]
Towards Minimal SU(5), Ilja Dorsner, Shaikh Saad, Phys.Rev. D101 (2020) 015009, arXiv:1910.09008.
[Dorsner:2019vgf]
[7-310]
A modular $A_4$ symmetry realization of two-zero textures of the Majorana neutrino mass matrix, Di Zhang, Nucl.Phys. B952 (2020) 114935, arXiv:1910.07869.
[Zhang:2019ngf]
[7-311]
Neutrino masses in an $SU(4)\times U(1)$ - electroweak model with a scalar decuplet, N. Anh Ky, N. T. Hong Van, D. Nguyen Dinh, P. Quang Van, Eur.Phys.J. C79 (2019) 843, arXiv:1910.07163.
[AnhKy:2019kxq]
[7-312]
eV-scale sterile neutrinos from an extra dimension, Shinsuke Kawai, Nobuchika Okada, Phys.Rev. D100 (2019) 115043, arXiv:1910.02936.
[Kawai:2019uei]
[7-313]
Covert symmetries in the neutrino mass matrix, Fredrik Bjoorkeroth, Luca Di Luzio, Federico Mescia, Enrico Nardi, JHEP 2002 (2020) 066, arXiv:1910.00576.
[Bjorkeroth:2019rat]
[7-314]
A note on the predictions of models with modular flavor symmetries, Mu-Chun Chen, Saul Ramos-Sanchez, Michael Ratz, Phys.Lett. B801 (2020) 135153, arXiv:1909.06910.
[Chen:2019ewa]
[7-315]
Baryon Number, Lepton Number, and Operator Dimension in the SMEFT with Flavor Symmetries, Andreas Helset, Andrew Kobach, Phys.Lett. B800 (2020) 135132, arXiv:1909.05853.
[Helset:2019eyc]
[7-316]
A Predictive Neutrino Mass Matrix texture on $\theta_{23}$, $\theta_{13}$ and $\sum m_i$ based on a broken Symmetry Ansatz, Satyabrata Datta, Ambar Ghosal, J.Phys. G48 (2021) 045003, arXiv:1909.05061.
[Datta:2019uxt]
[7-317]
Light neutrino masses from gravitational condensation: the Schwinger-Dyson approach, Gabriela Barenboim, Jessica Turner, Ye-Ling Zhou, Eur.Phys.J. C81 (2021) 511, arXiv:1909.04675.
[Barenboim:2019fmj]
[7-318]
Generalised $\mu$-$\tau$ symmetries and calculable gauge kinetic and mass mixing in $U(1)_{L_\mu-L_\tau}$ models, Anjan S. Joshipura, Namit Mahajan, Ketan M. Patel, JHEP 2003 (2020) 001, arXiv:1909.02331.
[Joshipura:2019qxz]
[7-319]
Sterile Neutrinos, Black Hole Vacuum and Holographic Principle, Gabriela Barenboim, Christopher T. Hill, Eur.Phys.J. C81 (2021) 150, arXiv:1909.01956.
[Barenboim:2019mcs]
[7-320]
Dirac neutrinos in the 2HDM with restrictive Abelian symmetries, S. S. Correia, R. G. Felipe, F. R. Joaquim, Phys.Rev. D100 (2019) 115008, arXiv:1909.00833.
[Correia:2019vbn]
[7-321]
Modular Invariant Models of Lepton Masses at Levels 4 and 5, Juan Carlos Criado, Ferruccio Feruglio, Simon J.D. King, JHEP 02 (2020) 001, arXiv:1908.11867.
[Criado:2019tzk]
[7-322]
Natural neutrino sector in a 331-model with Froggatt-Nielsen mechanism, Katri Huitu, Niko Koivunen, Timo J. Karkkainen, JHEP 2002 (2020) 162, arXiv:1908.09384.
[Huitu:2019mdr]
[7-323]
Neutrino mass model with a modular $S_4$ symmetry, Hiroshi Okada, Yuta Orikasa, arXiv:1908.08409, 2019.
[Okada:2019lzv]
[7-324]
Neutrino Mass Spectrum for Co-Bimaximal Mixings from Quantum Gravity, Bipin Singh Koranga, arXiv:1908.08387, 2019.
[SinghKoranga:2019ybc]
[7-325]
A modular $A_4$ symmetric scotogenic model, Takaaki Nomura, Hiroshi Okada, Oleg Popov, Phys.Lett. B803 (2020) 135294, arXiv:1908.07457.
[Nomura:2019lnr]
[7-326]
Dirac neutrinos in a $SU(2)$ left-right symmetric model, Henry Diaz Chavez, V. Pleitez, O. P. Ravinez, Phys.Rev. D102 (2020) 075006, arXiv:1908.02828.
[Diaz:2019ebd]
[7-327]
Trimaximal TM$_1$ mixing with two modular $S_4$ groups, Stephen F. King, Ye-Ling Zhou, Phys.Rev. D101 (2020) 015001, arXiv:1908.02770.
[King:2019vhv]
[7-328]
Modular $A_4$ Symmetry Models of Neutrinos and Charged Leptons, Gui-Jun Ding, Stephen F. King, Xiang-Gan Liu, arXiv:1907.11714, 2019.
[Ding:2019xvi]
[7-329]
$A_4$ flavor symmetric model in SUSY SU(5) GUT, Yu Muramatsu, Hideaki Okane, Yusuke Shimizu, Kenta Takagi, arXiv:1907.09172, 2019.
[Muramatsu:2019ohu]
[7-330]
New $A_4$ lepton flavor model from $S_4$ modular symmetry, Tatsuo Kobayashi, Yusuke Shimizu, Kenta Takagi, Morimitsu Tanimoto, Takuya H. Tatsuishi, JHEP 2002 (2020) 097, arXiv:1907.09141.
[Kobayashi:2019mna]
[7-331]
Systematic classification of two loop d = 4 Dirac neutrino mass models and the Diracness-dark matter stability connection, Salvador Centelles Chulia, Ricardo Cepedello, Eduardo Peinado, Rahul Srivastava, JHEP 1910 (2019) 093, arXiv:1907.08630.
[CentellesChulia:2019xky]
[7-332]
One String to Rule Them All: Neutrino Masses and Mixing Angles, Jordan Gemmill, Evan Howington, Van E. Mayes, Phys.Rev. D100 (2019) 115048, arXiv:1907.07106.
[Gemmill:2019kxr]
[7-333]
Radiative neutrino masses and successful $SU(5)$ unification, Christiane Klein, Manfred Lindner, Stefan Vogl, Phys.Rev. D100 (2019) 075024, arXiv:1907.05328.
[Klein:2019jgb]
[7-334]
Two-Loop $Z_4$ Dirac Neutrino Masses and Mixing, with Self-Interacting Dark Matter, Ernest Ma, Nucl.Phys. B946 (2019) 114725, arXiv:1907.04665.
[Ma:2019byo]
[7-335]
Lepton mixing patterns from $PSL_2(7)$ with a generalised CP symmetry, Shu-Jun Rong, Adv.High Energy Phys. 2020 (2020) 6120803, arXiv:1907.04203.
[Rong:2019ubh]
[7-336]
4321... axion!, Javier Fuentes-Martin, Mario Reig, Avelino Vicente, Phys.Rev. D100 (2019) 115028, arXiv:1907.02550.
[Fuentes-Martin:2019bue]
[7-337]
Neutrino Masses and Mixing from Double Covering of Finite Modular Groups, Xiang-Gan Liu, Gui-Jun Ding, JHEP 1908 (2019) 134, arXiv:1907.01488.
[Liu:2019khw]
[7-338]
Neutrino Masses from the Point of View of Economy and Simplicity, S. Bilenky, Phys.Part.Nucl. 50 (2019) 645-662, arXiv:1907.01472.
[Bilenky:2019gzn]
[7-339]
Cosmological Unification, Dark Energy and the Origin of Neutrino Mass, J.G. Salazar-Arias, Abdel Perez-Lorenzana, Phys.Rev. D101 (2020) 083526, arXiv:1907.00131.
[Salazar-Arias:2019xzx]
[7-340]
Pati-Salam unification with a spontaneous CP violation, Daijiro Suematsu, Phys.Rev. D100 (2019) 055019, arXiv:1906.10849.
[Suematsu:2019hco]
[7-341]
Modular $S_3$ invariant flavor model in SU(5) GUT, Tatsuo Kobayashi, Yusuke Shimizu, Kenta Takagi, Morimitsu Tanimoto, Takuya H. Tatsuishi, PTEP 2020 (2020) 053B05, arXiv:1906.10341.
[Kobayashi:2019rzp]
[7-342]
New partial symmetries from group algebras for lepton mixing, Shu-Jun Rong, Adv.High Energy Phys. 2020 (2020) 3967605, arXiv:1906.09157.
[Rong:2019qjh]
[7-343]
A two loop induced neutrino mass model with modular $A_4$ symmetry, Takaaki Nomura, Hiroshi Okada, Nucl.Phys. B966 (2021) 115372, arXiv:1906.03927.
[Nomura:2019yft]
[7-344]
Long-lived heavy particles in neutrino mass models, Carolina Arbelaez, Juan Carlos Helo, Martin Hirsch, Phys.Rev. D100 (2019) 055001, arXiv:1906.03030.
[Arbelaez:2019cmj]
[7-345]
A near-minimal leptoquark model for reconciling flavour anomalies and generating radiative neutrino masses, Innes Bigaran, John Gargalionis, Raymond R. Volkas, JHEP 1910 (2019) 106, arXiv:1906.01870.
[Bigaran:2019bqv]
[7-346]
Transition Probabilities in the Two-Level System with PT-Symmetric Non-Hermitian Hamiltonians, Tommy Ohlsson, Shun Zhou, J.Math.Phys. 61 (2020) 052104, arXiv:1906.01567.
[Ohlsson:2019noy]
[7-347]
Towards unification of quark and lepton flavors in $A_4$ modular invariance, Hiroshi Okada, Morimitsu Tanimoto, Eur.Phys.J.C 81 (2021) 52, arXiv:1905.13421.
[Okada:2019uoy]
[7-348]
Higgs Parity Grand Unification, Lawrence J. Hall, Keisuke Harigaya, JHEP 1911 (2019) 033, arXiv:1905.12722.
[Hall:2019qwx]
[7-349]
Generalised Proper Time as a Unifying Basis for Models with Two Right-Handed Neutrinos, David J. Jackson, arXiv:1905.12419, 2019.
[Jackson:2019ngi]
[7-350]
Generalised CP Symmetry in Modular-Invariant Models of Flavour, P. P. Novichkov, J. T. Penedo, S. T. Petcov, A. V. Titov, JHEP 1907 (2019) 165, arXiv:1905.11970.
[Novichkov:2019sqv]
[7-351]
Zee Model with Flavor Dependent Global $U(1)$ Symmetry, Takaaki Nomura, Kei Yagyu, JHEP 1910 (2019) 105, arXiv:1905.11568.
[Nomura:2019dhw]
[7-352]
Novel Flavon Stabilization with Trimaximal Neutrino Mixing, So Chigusa, Shinta Kasuya, Kazunori Nakayama, Phys.Rev. D100 (2019) 015030, arXiv:1905.11517.
[Chigusa:2019jrz]
[7-353]
Do we Come from a Quantum Anomaly?, Spyros Basilakos, Nick E. Mavromatos, Joan Sola, Int.J.Mod.Phys. 28 (2019) 1944002, arXiv:1905.04685.
[Basilakos:2019mpe]
[7-354]
Light Mediators in Anomaly Free $U(1)_X$ Models I - Theoretical Framework, F.C. Correia, Svjetlana Fajfer, JHEP 1910 (2019) 278, arXiv:1905.03867.
[Correia:2019pnn]
[7-355]
Scotogenic Cobimaximal Dirac Neutrino Mixing from $\Delta(27)$ and $U(1)_\chi$, Ernest Ma, Eur.Phys.J. C79 (2019) 903, arXiv:1905.01535.
[Ma:2019iwj]
[7-356]
A Portalino to the Twin Sector, Di Liu, Neal Weiner, JHEP 03 (2023) 235, arXiv:1905.00861.
[Liu:2019ixm]
[7-357]
A radiative neutrino mass model with hidden gauge symmetry inducing semi-annihilating dark matter, Takaaki Nomura, Hiroshi Okada, arXiv:1904.13066, 2019.
[Nomura:2019vqc]
[7-358]
Majorana neutrino masses in gauge-Higgs unification, K. Hasegawa, PoS CORFU2018 (2019) 043, arXiv:1904.12750.
[Hasegawa:2019hjp]
[7-359]
Clockwork origin of neutrino mixings, Teruyuki Kitabayashi, Phys.Rev. D100 (2019) 035019, arXiv:1904.12516.
[Kitabayashi:2019qvi]
[7-360]
Flavor from the double tetrahedral group without supersymmetry: flavorful axions and neutrinos, Christopher D. Carone, Marco Merchand, Phys.Rev. D100 (2019) 035006, arXiv:1904.11059.
[Carone:2019lfc]
[7-361]
Breaking Mirror Twin Hypercharge, Brian Batell, Christopher B. Verhaaren, JHEP 1912 (2019) 010, arXiv:1904.10468.
[Batell:2019ptb]
[7-362]
New model for radiatively generated Dirac neutrino masses and lepton flavor violating decays of the Higgs boson, Kazuki Enomoto, Shinya Kanemura, Kodai Sakurai, Hiroaki Sugiyama, Phys.Rev. D100 (2019) 015044, arXiv:1904.07039.
[Enomoto:2019mzl]
[7-363]
Geometrical contribution to neutrino mass matrix, Subhasish Chakrabarty, Amitabha Lahiri, Eur.Phys.J. C79 (2019) 697, arXiv:1904.06036.
[Chakrabarty:2019cau]
[7-364]
Minimal Two-component Scalar Doublet Dark Matter with Radiative Neutrino Mass, Debasish Borah, Rishav Roshan, Arunansu Sil, arXiv:1904.04837, 2019.
[Borah:2019afy]
[7-365]
Gravitational waves from the minimal gauged $U(1)_{B-L}$ model, Taiki Hasegawa, Nobuchika Okada, Osamu Seto, Phys.Rev. D99 (2019) 095039, arXiv:1904.03020.
[Hasegawa:2019amx]
[7-366]
Neutrino Mass and Mixing with $A_5$ Modular Symmetry, Gui-Jun Ding, Stephen F. King, Xiang-Gan Liu, Phys.Rev.D 100 (2019) 115005, arXiv:1903.12588.
[Ding:2019xna]
[7-367]
KeV scale new fermion from a hidden sector, We-Fu Chang, John N. Ng, Phys.Rev.D 101 (2020) 035028, arXiv:1903.12545.
[Chang:2019sel]
[7-368]
On explaining the observed pattern of quark and lepton masses, Jiri Hosek, arXiv:1903.10194, 2019.
[Hosek:2019sae]
[7-369]
Fermionic spectral action and the origin of nonzero neutrino masses, Mairi Sakellariadou, Andrzej Sitarz, Phys.Lett. B795 (2019) 351-355, arXiv:1903.09149.
[Sakellariadou:2019ihz]
[7-370]
Clockwork Neutrinos, Sungwoo Hong, Gowri Kurup, Maxim Perelstein, JHEP 1910 (2019) 073, arXiv:1903.06191.
[Hong:2019bki]
[7-371]
Radiative generation of realistic neutrino mixing with $A4$, Soumita Pramanick, Nucl.Phys. B963 (2021) 115282, arXiv:1903.04208.
[Pramanick:2019qpg]
[7-372]
A New Left-Right Symmetry Model, Apriadi Salim Adam, Akmal Ferdiyan, Mirza Satriawan, Adv.High Energy Phys. 2020 (2020) 3090783, arXiv:1903.03370.
[Adam:2019oes]
[7-373]
The role of residual symmetries in dark matter stability and the neutrino nature, Cesar Bonilla, Eduardo Peinado, Rahul Srivastava, LHEP 124 (2019) 1, arXiv:1903.01477.
[Srivastava:2019xhh]
[7-374]
Multi-Higgs-Doublet Models and Singular Alignment, Werner Rodejohann, Ulises Saldana-Salazar, JHEP 1907 (2019) 036, arXiv:1903.00983.
[Rodejohann:2019izm]
[7-375]
On the Origin of Two-Loop Neutrino Mass from SU(5) Grand Unification, Shaikh Saad, Phys.Rev. D99 (2019) 115016, arXiv:1902.11254.
[Saad:2019vjo]
[7-376]
Revisiting the SUSY mu problem and its solutions in the LHC era, Kyu Jung Bae, Howard Baer, Vernon Barger, Dibyashree Sengupta, Phys.Rev. D99 (2019) 115027, arXiv:1902.10748.
[Bae:2019dgg]
[7-377]
A simple gauge theory with Majorana neutrinos, I. Alikhanov, E. A. Paschos, arXiv:1902.09950, 2019.
[Alikhanov:2019drg]
[7-378]
A $U(1)_{X}$ extension to the MSSM with three families, J.S. Alvarado, Carlos E. Diaz, R. Martinez, Phys.Rev. D100 (2019) 055037, arXiv:1902.08566.
[Alvarado:2019dps]
[7-379]
More five-parameter models for lepton mixing, D. Jurciukonis, L. Lavoura, JHEP 1907 (2019) 157, arXiv:1902.07544.
[Jurciukonis:2019bsq]
[7-380]
Simplest Radiative Dirac Neutrino Mass Models, Shaikh Saad, Nucl.Phys. B (2019) 114636, arXiv:1902.07259.
[Saad:2019bqf]
[7-381]
Scalar Democracy, Christopher T. Hill, Pedro A. N. Machado, Anders E. Thomsen, Jessica Turner, Phys.Rev. D100 (2019) 015015, arXiv:1902.07214.
[Hill:2019ldq]
[7-382]
String Landscape and Fermion Masses, Stefano Andriolo, Shing Yan Li, S.-H. Henry Tye, Phys.Rev.D 101 (2020) 066005, arXiv:1902.06608.
[Andriolo:2019gcb]
[7-383]
An alternative formulation of left-right symmetry with $B-L$ conservation and purely Dirac neutrinos, Patrick D. Bolton, Frank F. Deppisch, Chandan Hati, Sudhanwa Patra, Utpal Sarkar, Phys.Rev. D100 (2019) 035013, arXiv:1902.05802.
[Bolton:2019bou]
[7-384]
Stability of the vacuum as constraint on $U$(1) extensions of the standard model, Zoltan Peli, Zoltan Trocsanyi, arXiv:1902.02791, 2019.
[Peli:2019xwv]
[7-385]
GUT inspired $SO(5) \times U(1) \times SU(3)$ gauge-Higgs unification, Shuichiro Funatsu, Hisaki Hatanaka, Yutaka Hosotani, Yuta Orikasa, Naoki Yamatsu, Phys.Rev. D99 (2019) 095010, arXiv:1902.01603.
[Funatsu:2019xwr]
[7-386]
All Fermion Masses and Mixings in an Intersecting D-brane World, Van E. Mayes, Nucl.Phys. B950 (2020) 114848, arXiv:1902.00983.
[Mayes:2019isy]
[7-387]
Unitarity bounds on charged/neutral state mass ratio, Wei-Ming Chen, Yu-tin Huang, Toshifumi Noumi, Congkao Wen, Phys.Rev. D100 (2019) 025016, arXiv:1901.11480.
[Chen:2019qvr]
[7-388]
Scotogenic $U(1)_\chi$ Dirac Neutrinos, Ernest Ma, Phys.Lett. B793 (2019) 411-414, arXiv:1901.09091.
[Ma:2019yfo]
[7-389]
Flavor changing in the flipped trinification, D. N. Dinh, D. T. Huong, N. T. Duy, N. T. Nhuan, L. D. Thien, Phung Van Dong, Phys.Rev. D99 (2019) 055005, arXiv:1901.07969.
[Dinh:2019jdg]
[7-390]
SU(8) Grand Unification from Composite Quarks and Leptons, J.L. Chkareuli, Nucl.Phys. B941 (2019) 425-457, arXiv:1901.07428.
[Chkareuli:2019xqi]
[7-391]
Dihedral flavor group as the key to understand quark and lepton flavor mixing, Jun-Nan Lu, Gui-Jun Ding, JHEP 1903 (2019) 056, arXiv:1901.07414.
[Lu:2019gqp]
[7-392]
Scotogenic Dark Symmetry as a residual subgroup of Standard Model Symmetries, Salvador Centelles Chulia, Ricardo Cepedello, Eduardo Peinado, Rahul Srivastava, Chin.Phys. C44 (2020) 083110, arXiv:1901.06402.
[CentellesChulia:2019gic]
[7-393]
Neutrino Mass Matrix in a gauge group $SU(2)_L \times U(1)_e \times U(1)_\mu\times U(1)_\tau$, Fayyazuddin, Int.J.Mod.Phys. A34 (2019) 1950066, arXiv:1901.04154.
[Fayyazuddin:2019lir]
[7-394]
Minimal Radiative Neutrino Masses, Christiane Klein, Manfred Lindner, Sebastian Ohmer, JHEP 1903 (2019) 018, arXiv:1901.03225.
[Klein:2019iws]
[7-395]
Sequentially loop-generated quark and lepton mass hierarchies in an extended Inert Higgs Doublet model, A. E. Carcamo Hernandez, Sergey Kovalenko, Roman Pasechnik, Ivan Schmidt, JHEP 1906 (2019) 056, arXiv:1901.02764.
[CarcamoHernandez:2019cbd]
[7-396]
Fully Constrained Mass Matrix: Can Symmetries alone determine the Flavon Vacuum Alignments?, R. Krishnan, Phys.Rev. D101 (2020) 075004, arXiv:1901.01205.
[Krishnan:2019ftw]
[7-397]
Super-weak force and neutrino masses, Zoltan Trocsanyi, Symmetry 12 (2020) 107, arXiv:1812.11189.
[Trocsanyi:2018bkm]
[7-398]
A minimal non-supersymmetric SO(10) model with Peccei-Quinn symmetry, Sofiane M. Boucenna, Tommy Ohlsson, Marcus Pernow, Phys.Lett. B792 (2019) 251-257, arXiv:1812.10548.
[Boucenna:2018wjc]
[7-399]
Two simple textures of the magic neutrino mass matrix, Kanwaljeet S. Channey, Sanjeev Kumar, J.Phys. G46 (2019) 015001, arXiv:1812.10268.
[Channey:2018cfj]
[7-400]
Baryogenesis, Dark Matter, and Flavor Structure in Non-thermal Moduli Cosmology, Mu-Chun Chen, Volodymyr Takhistov, JHEP 1905 (2019) 101, arXiv:1812.09341.
[Chen:2018uzu]
[7-401]
Symmetry Breaking and Reheating after Inflation in No-Scale Flipped SU(5), John Ellis, Marcos A. G. Garcia, Natsumi Nagata, Dimitri V. Nanopoulos, Keith A. Olive, JCAP 1904 (2019) 009, arXiv:1812.08184.
[Ellis:2018moe]
[7-402]
One-loop neutrino mass model with $SU(2)_L$ multiplet fields, Takaaki Nomura, Hiroshi Okada, Nucl.Phys. B (2019) 114621, arXiv:1812.08016.
[Nomura:2018pbw]
[7-403]
$SU(5)$ Grand Unified Theory with $A_4$ Modular Symmetry, Francisco J. de Anda, Stephen F. King, Elena Perdomo, Phys.Rev. D101 (2020) 015028, arXiv:1812.05620.
[deAnda:2018ecu]
[7-404]
Minimal radiative Dirac neutrino mass models, Julian Calle, Diego Restrepo, Carlos E. Yaguna, Oscar Zapata, Phys.Rev. D99 (2019) 075008, arXiv:1812.05523.
[Calle:2018ovc]
[7-405]
Minimal $Z'$ models for flavor anomalies, Richard H. Benavides, Luis Munoz, William A. Ponce, Oscar Rodriguez, Eduardo Rojas, J.Phys. G47 (2020) 075003, arXiv:1812.05077.
[Benavides:2018rgh]
[7-406]
An Anomaly-free Atlas: charting the space of flavour-dependent gauged $U(1)$ extensions of the Standard Model, B. C. Allanach, Joe Davighi, Scott Melville, JHEP 1902 (2019) 082, arXiv:1812.04602.
[Allanach:2018vjg]
[7-407]
Non-Standard Neutrino Interactions and Neutral Gauge Bosons, Julian Heeck, Manfred Lindner, Werner Rodejohann, Stefan Vogl, SciPost Phys. 6 (2019) 038, arXiv:1812.04067.
[Heeck:2018nzc]
[7-408]
Modular $A_5$ Symmetry for Flavour Model Building, P. P. Novichkov, J. T. Penedo, S. T. Petcov, A. V. Titov, JHEP 1904 (2019) 174, arXiv:1812.02158.
[Novichkov:2018nkm]
[7-409]
A neutrino mass model with hidden $U(1)$ gauge symmetry, Haiying Cai, Takaaki Nomura, Hiroshi Okada, Nucl.Phys. B949 (2019) 114802, arXiv:1812.01240.
[Cai:2018upp]
[7-410]
Light sterile neutrino and low scale left-right symmetry in a D-brane inspired $SU(4)_C \times SU(2)_L \times SU(2)_R$ model, George K. Leontaris, Qaisar Shafi, Phys. Rev. D99 (2019) 035032, arXiv:1811.12647.
[Leontaris:2018whz]
[7-411]
Lepton Mixing Predictions from $S_4$ in the Tri-Direct CP approach to Two Right-handed Neutrino Models, Gui-Jun Ding, Stephen F. King, Cai-Chang Li, Phys.Rev. D99 (2019) 075035, arXiv:1811.12340.
[Ding:2018tuj]
[7-412]
Lepton and Quark Masses and Mixing in a SUSY Model with Delta(384) and CP, Claudia Hagedorn, Johannes Konig, Nucl.Phys. B953 (2020) 114953, arXiv:1811.09262.
[Hagedorn:2018bzo]
[7-413]
Elementary charge and neutrino's mass from Planck length, Saulo Carneiro, Found.Phys. 50 (2020) 1376-1381, arXiv:1811.08731.
[Carneiro:2018zyt]
[7-414]
Lepton and Quark Mixing from Stepwise Breaking of Flavor and CP, Claudia Hagedorn, Johannes Konig, Phys.Rev. D100 (2019) 075036, arXiv:1811.07750.
[Hagedorn:2018gpw]
[7-415]
Vacuum structure of the left-right symmetric model, P.S. Bhupal Dev, Rabindra N. Mohapatra, Werner Rodejohann, Xun-Jie Xu, JHEP 1902 (2019) 154, arXiv:1811.06869.
[BhupalDev:2018xya]
[7-416]
Neutrino Masses in a Two Higgs Doublet Model with a U(1) Gauge Symmetry, Daniel A. Camargo, Alex G. Dias, Tessio B. de Melo, Farinaldo S. Queiroz, JHEP 1904 (2019) 129, arXiv:1811.05488.
[Camargo:2018uzw]
[7-417]
Modular $S_4$ Models of Lepton Masses and Mixing, P. P. Novichkov, J. T. Penedo, S. T. Petcov, A. V. Titov, JHEP 1904 (2019) 005, arXiv:1811.04933.
[Novichkov:2018ovf]
[7-418]
R-parity from string compactification, Jihn E. Kim, Phys.Rev. D99 (2019) 093004, arXiv:1810.10796.
[Kim:2018kdv]
[7-419]
Asymptotic safety and Conformal Standard Model, Frederic Grabowski, Jan H. Kwapisz, Krzysztof A. Meissner, Phys.Rev. D99 (2019) 115029, arXiv:1810.08461.
[Grabowski:2018fjj]
[7-420]
Zee and Zee-Babu mechanisms in the minimal 331 model, A. C. B. Machado, Pedro Pasquini, V. Pleitez, arXiv:1810.02817, 2018.
[Machado:2018sfh]
[7-421]
Higgs Criticality in a Viable Motivated Model, Alberto Salvio, arXiv:1810.00792, 2018.
[Salvio:2018rvb]
[7-422]
An extension of the SM based on effective Peccei-Quinn Symmetry, Daijiro Suematsu, Eur.Phys.J. C78 (2018) 881, arXiv:1809.06563.
[Suematsu:2018hbu]
[7-423]
Examining the neutrino option, Ilaria Brivio, Michael Trott, JHEP 1902 (2019) 107, arXiv:1809.03450.
[Brivio:2018rzm]
[7-424]
Symmetries and Algebraic Methods in Neutrino Physics, A. B. Balantekin, J.Phys. G45 (2018) 113001, arXiv:1809.02539.
[Balantekin:2018mpq]
[7-425]
$R_{D^{(\ast)}}$ in custodial warped space, Marcela Carena, Eugenio Megias, Mariano Quiros, Carlos Wagner, JHEP 1812 (2018) 043, arXiv:1809.01107.
[Carena:2018cow]
[7-426]
Dynamical generation of neutrino mass scales, Alfredo Aranda, Cesar Bonilla, Eduardo Peinado, Phys.Lett. B792 (2019) 40-42, arXiv:1808.07727.
[Aranda:2018lif]
[7-427]
One-loop neutrino mass model without any additional symmetries, Takaaki Nomura, Hiroshi Okada, Phys.Dark Univ. 26 (2019) 100359, arXiv:1808.05476.
[Nomura:2018lsx]
[7-428]
Clockworked VEVs and Neutrino Mass, Avik Banerjee, Subhajit Ghosh, Tirtha Sankar Ray, JHEP 1811 (2018) 075, arXiv:1808.04010.
[Banerjee:2018grm]
[7-429]
Modular $A_4$ invariance and neutrino mixing, Tatsuo Kobayashi et al., JHEP 1811 (2018) 196, arXiv:1808.03012.
[Kobayashi:2018scp]
[7-430]
Witten's loop in the minimal flipped $SU(5)$ unification revisited, Dylan Harries, Michal Malinsky, Martin Zdrahal, Phys.Rev. D98 (2018) 095015, arXiv:1808.02339.
[Harries:2018tld]
[7-431]
Cosmic acceleration and de Sitter expansion in hybrid mass varying neutrino model, H. Mohseni Sadjadi, V. Anari, JCAP 1810 (2018) 036, arXiv:1808.01903.
[Sadjadi:2018xqo]
[7-432]
Charge Quantization and Neutrino Mass from Planck-scale SUSY, Wen Yin, Phys.Lett. B785 (2018) 585-590, arXiv:1808.00440.
[Yin:2018qcs]
[7-433]
The Conformal UV Completion of the Neutrino Option, Vedran Brdar, Yannick Emonds, Alexander J. Helmboldt, Manfred Lindner, Phys.Rev.D 99 (2019) 055014, arXiv:1807.11490.
[Brdar:2018vjq]
[7-434]
Neutrino masses and gauged $U(1)_\ell$ lepton number, We-Fu Chang, John N. Ng, JHEP 1810 (2018) 015, arXiv:1807.09439.
[Chang:2018wsw]
[7-435]
$R_{D^{(\ast)}}$, $R_{K^{(\ast)}}$ and neutrino mass in the 2HDM-III with right-handed neutrinos, Shao-Ping Li, Xin-Qiang Li, Ya-Dong Yang, Xin Zhang, JHEP 1809 (2018) 149, arXiv:1807.08530.
[Li:2018rax]
[7-436]
Radiative Neutrino Mass via Fermion Kinetic Mixing, Sin Kyu Kang, Oleg Popov, Phys.Rev. D98 (2018) 115025, arXiv:1807.07988.
[Kang:2018lyy]
[7-437]
$SU(3) \times SO(10)$ in 6d, Francisco J. de Anda, Stephen F. King, JHEP 1810 (2018) 128, arXiv:1807.07078.
[deAnda:2018yfp]
[7-438]
Right-handed Neutrinos and $R(D^{(*)})$, Dean J. Robinson, Bibhushan Shakya, Jure Zupan, JHEP 1902 (2019) 119, arXiv:1807.04753.
[Robinson:2018gza]
[7-439]
The Bearable Compositeness of Leptons, Michele Frigerio, Marco Nardecchia, Javi Serra, Luca Vecchi, JHEP 1810 (2018) 017, arXiv:1807.04279.
[Frigerio:2018uwx]
[7-440]
A $Z'$-model and the magnetism of a dark fermion candidate, M. J. Neves, J. A. Helayel-Neto, arXiv:1807.02167, 2018.
[Neves:2018qqn]
[7-441]
The Flipped Generations, Carlos Alvarado, Alfredo Aranda, Phys.Lett. B787 (2018) 1-7, arXiv:1807.01453.
[Alvarado:2018acf]
[7-442]
Systematic classification of three-loop realizations of the Weinberg operator, Ricardo Cepedello, Renato M. Fonseca, Martin Hirsch, JHEP 1810 (2018) 197, arXiv:1807.00629.
[Cepedello:2018rfh]
[7-443]
Lepton Masses and Mixing from Modular $S_4$ Symmetry, J. T. Penedo, S. T. Petcov, Nucl.Phys. B939 (2019) 292-307, arXiv:1806.11040.
[Penedo:2018nmg]
[7-444]
A predictive model of radiative neutrino mass with gauged $U(1)_{B-2L_{\ell_2}-L_{\ell_1}}$ symmetry, Takaaki Nomura, Hiroshi Okada, arXiv:1806.09957, 2018.
[Nomura:2018rvy]
[7-445]
The Fundamental Need for a SM Higgs and the Weak Gravity Conjecture, Eduardo Gonzalo, Luis E. Ibanez, Phys.Lett. B786 (2018) 272-277, arXiv:1806.09647.
[Gonzalo:2018dxi]
[7-446]
The Hierarchion, a Relaxion Addressing the Standard Model's Hierarchies, Oz Davidi, Rick S. Gupta, Gilad Perez, Diego Redigolo, Aviv Shalit, JHEP 1808 (2018) 153, arXiv:1806.08791.
[Davidi:2018sii]
[7-447]
$\mu\tau$ reflection symmetry with a high scale texture-zero, C. C. Nishi, B. L. Sanchez-Vega, G. Souza Silva, JHEP 1809 (2018) 042, arXiv:1806.07412.
[Nishi:2018vlz]
[7-448]
High-dimensional neutrino masses, Gaetana Anamiati, Oscar Castillo-Felisola, Renato M. Fonseca, J. C. Helo, M. Hirsch, JHEP 1812 (2018) 066, arXiv:1806.07264.
[Anamiati:2018cuq]
[7-449]
Flavor Changing Neutral Currents in the Asymmetric Left-Right Gauge Model, Chia-Feng Chang, Ernest Ma, JHEP 1809 (2018) 058, arXiv:1806.04812.
[Chang:2018jko]
[7-450]
Quark and Lepton Mixing Patterns from a Common Discrete Flavor Symmetry with Generalized CP, Jun-Nan Lu, Gui-Jun Ding, Phys.Rev. D98 (2018) 055011, arXiv:1806.02301.
[Lu:2018oxc]
[7-451]
An Asymmetric TBM Texture, Moinul Hossain Rahat, Pierre Ramond, Bin Xu, Phys.Rev. D98 (2018) 055030, arXiv:1805.10684.
[Rahat:2018sgs]
[7-452]
$B-L$ as a Gauged Peccei-Quinn Symmetry, Masahiro Ibe, Motoo Suzuki, Tsutomu T. Yanagida, JHEP 1808 (2018) 049, arXiv:1805.10029.
[Ibe:2018hir]
[7-453]
SO(3) family symmetry and axions, Mario Reig, Jose W.F. Valle, Frank Wilczek, Phys.Rev. D98 (2018) 095008, arXiv:1805.08048.
[Reig:2018ocz]
[7-454]
Effects of heavy neutrinos on vacuum stability in two-Higgs-doublet model with GUT scale supersymmetry, V Suryanarayana Mummidi, Vishnu P. K., Ketan M. Patel, JHEP 1808 (2018) 134, arXiv:1805.08005.
[Mummidi:2018nph]
[7-455]
Nearly right unitary triangle and CP phase in quark and lepton flavor mixings, Yukihiro Mimura, arXiv:1805.07773, 2018.
[Mimura:2018sbc]
[7-456]
A Realistic $U(2)$ Model of Flavor, Matthias Linster, Robert Ziegler, JHEP 1808 (2018) 058, arXiv:1805.07341.
[Linster:2018avp]
[7-457]
Predictive neutrino mass textures with origin of flavor symmetries, Tatsuo Kobayashi, Takaaki Nomura, Hiroshi Okada, Phys.Rev. D98 (2018) 055025, arXiv:1805.07101.
[Kobayashi:2018zpq]
[7-458]
Flavor Mixing and the Permutation Symmetry among Generations, T. K. Kuo, S. H. Chiu, Adv.High Energy Phys. 2020 (2020) 2491897, arXiv:1805.05600.
[Kuo:2018mnm]
[7-459]
Syndetic Extension of Baryon and Lepton Numbers: Proton Decay and Long-Lived Dark Matter, Ernest Ma, Koji Tsumura, Phys.Rev. D98 (2018) 035037, arXiv:1805.05056.
[Ma:2018fhd]
[7-460]
Breaking flavor democracy with symmetric perturbations, Tathagata Ghosh, Jiajun Liao, Danny Marfatia, Tsutomu T. Yanagida, Phys.Lett. B785 (2018) 268-273, arXiv:1805.05030.
[Ghosh:2018tzv]
[7-461]
Neutrino mass generation with large $SU(2)_L$ multiplets under local $U(1)_{L_\mu- L_\tau}$ symmetry, Takaaki Nomura, Hiroshi Okada, Phys.Lett. B783 (2018) 381-386, arXiv:1805.03942.
[Nomura:2018cle]
[7-462]
Three-Loop Neutrino Masses via New Massive Gauge Bosons from E_6 GUT, Bhaskar Dutta, Sumit Ghosh, Ilia Gogoladze, Tianjun Li, Phys.Rev. D98 (2018) 055028, arXiv:1805.01866.
[Dutta:2018qei]
[7-463]
Natural Higgs Inflation, Gauge Coupling Unification, and Neutrino Masses, Heng-Yu Chen, Ilia Gogoladze, Shan Hu, Tianjun Li, Lina Wu, Int.J.Mod.Phys. A35 (2020) 2050117, arXiv:1805.00161.
[Chen:2018ucf]
[7-464]
B-L Model with ${\bf S}_{3}$ Symmetry: Nearest Neighbor Interaction Textures and Broken $\mu\leftrightarrow\tau$ Symmetry, Juan Carlos Gomez-Izquierdo, M. Mondragon, Eur.Phys.J. C79 (2019) 285, arXiv:1804.08746.
[Gomez-Izquierdo:2018jrx]
[7-465]
Compact model for Quarks and Leptons via flavored-Axions, Y. H. Ahn, Phys.Rev. D98 (2018) 035047, arXiv:1804.06988.
[Ahn:2018cau]
[7-466]
Majorana neutrino masses in the scenario of gauge-Higgs unification, K. Hasegawa, C. S. Lim, PTEP 2018 (2018) 073B01, arXiv:1804.04270.
[Hasegawa:2018jze]
[7-467]
Neutrino Masses from Outer Space, Guido D'Amico, Teresa Hamill, Nemanja Kaloper, Phys.Lett. B797 (2019) 134846, arXiv:1804.01542.
[DAmico:2018hgc]
[7-468]
Neutrino mixing from finite modular groups, Tatsuo Kobayashi, Kentaro Tanaka, Takuya H. Tatsuishi, Phys.Rev. D98 (2018) 016004, arXiv:1803.10391.
[Kobayashi:2018vbk]
[7-469]
AdS-phobia, the WGC, the Standard Model and Supersymmetry, Eduardo Gonzalo, Alvaro Herraez, Luis E. Ibanez, JHEP 1806 (2018) 051, arXiv:1803.08455.
[Gonzalo:2018tpb]
[7-470]
Neutrino mixing in SO(10) GUTs with non-abelian flavor symmetry in the hidden sector, Alexei Yu. Smirnov, Xun-Jie Xu, Phys.Rev. D97 (2018) 095030, arXiv:1803.07933.
[Smirnov:2018luj]
[7-471]
A model with flavor-dependent gauged $U(1)_{B-L_1}\times U(1)_{B-L_2-L_3}$ symmetry, Linping Mu, Hiroshi Okada, Chao-Qiang Geng, Chin.Phys. C42 (2018) 123106, arXiv:1803.05633.
[Mu:2018weh]
[7-472]
An $S_4 \times SU(5)$ SUSY GUT of avour in 6d, Francisco J. de Anda, Stephen F. King, JHEP 1807 (2018) 057, arXiv:1803.04978.
[deAnda:2018oik]
[7-473]
A Zee-Babu type model with $U(1)_{L_\mu- L_\tau}$ gauge symmetry, Takaaki Nomura, Hiroshi Okada, Phys.Rev. D97 (2018) 095023, arXiv:1803.04795.
[Nomura:2018vfz]
[7-474]
Neutrino masses in the minimal gauged $(B-L)$ supersymmetry, Yu-Li Yan et al., Phys.Rev. D97 (2018) 055036, arXiv:1803.04599.
[Yan:2018jdf]
[7-475]
Connecting Majorana phases to the Geometric Parameters of Majorana Unitarity Triangle in a model of Neutrino Mass Matrix, Surender Verma, Shankita Bharadwaj, Phys.Rev. D97 (2018) 095022, arXiv:1803.04162.
[Verma:2018yiu]
[7-476]
Proton decay and light sterile neutrinos, Juan C. Helo, Martin Hirsch, Toshihiko Ota, JHEP 1806 (2018) 047, arXiv:1803.00035.
[Helo:2018bgb]
[7-477]
Neutrino masses from Planck-scale lepton number breaking, Alejandro Ibarra, Patrick Strobl, Takashi Toma, Phys.Rev.Lett. 122 (2019) 081803, arXiv:1802.09997.
[Ibarra:2018dib]
[7-478]
A Grand-Unified Nelson-Barr Model, Jakob Schwichtenberg, Paul Tremper, Robert Ziegler, Eur.Phys.J. C78 (2018) 910, arXiv:1802.08109.
[Schwichtenberg:2018aqc]
[7-479]
Systematic Analysis of Dirac Neutrino Masses at Dimension Five, Chang-Yuan Yao, Gui-Jun Ding, Phys.Rev. D97 (2018) 095042, arXiv:1802.05231.
[Yao:2018ekp]
[7-480]
Towards a Model of Quarks and Leptons, Y. H. Ahn, Nucl.Phys. B939 (2019) 534-565, arXiv:1802.05044.
[Ahn:2018nfb]
[7-481]
Trimaximal mixing with a texture zero, Radha Raman Gautam, Phys.Rev. D97 (2018) 055022, arXiv:1802.00425.
[Gautam:2018izb]
[7-482]
Can an unbroken flavour symmetry provide an approximate description of lepton masses and mixing?, Y. Reyimuaji, A. Romanino, JHEP 1803 (2018) 067, arXiv:1801.10530.
[Reyimuaji:2018xvs]
[7-483]
A topological approach to Neutrino masses by using exotic smoothness, T. Asselmeyer-Maluga, J. Krol, Mod.Phys.Lett. A34 (2019) 1950097, arXiv:1801.10419.
[Asselmeyer-Maluga:2018ywa]
[7-484]
Neutrino masses in a conformal multi-Higgs-doublet model, Manuel Fink, Helmut Neufeld, arXiv:1801.10104, 2018.
[Fink:2018mcz]
[7-485]
$S_4$ symmetric four-generation models for quarks and charged leptons, Teruyuki Kitabayashi, Hiroshi Ozaki, arXiv:1801.09325, 2018.
[Kitabayashi:2018uzw]
[7-486]
Predictions for the Dirac CP-Violating Phase from Sum Rules, Luis A. Delgadillo, Lisa L. Everett, Raymundo Ramos, Alexander J. Stuart, Phys.Rev. D97 (2018) 095001, arXiv:1801.06377.
[Delgadillo:2018tza]
[7-487]
Fractional dynamics of fermion generations, Yu.A. Simonov, arXiv:1801.04722, 2018.
[Simonov:2018qnz]
[7-488]
Prediction on Neutrino Dirac and Majorana Phases and Absolute Mass Scale from the CKM Matrix, Naoyuki Haba, Toshifumi Yamada, Phys.Rev. D97 (2018) 055018, arXiv:1801.02904.
[Haba:2018xke]
[7-489]
Perturbed flavour symmetries and predictions of CP violating phase $\delta$, Anjan S. Joshipura, arXiv:1801.02843, 2018.
[Joshipura:2018rit]
[7-490]
A generalized one-loop neutrino mass model with charged particles, Kingman Cheung, Hiroshi Okada, Phys.Rev. D97 (2018) 075027, arXiv:1801.00585.
[Cheung:2018itc]
[7-491]
Mirror fermions and the strong CP problem: A new axion-less solution, P. Q. Hung, arXiv:1712.09701, 2017.
[Hung:2017exy]
[7-492]
Inflation from High-Scale Supersymmetry Breaking, Valerie Domcke, Kai Schmitz, Phys.Rev. D97 (2018) 115025, arXiv:1712.08121.
[Domcke:2017rzu]
[7-493]
Solving the fermionic mass hierarchy of the standard model, Gauhar Abbas, Int.J.Mod.Phys. A34 (2019) 1950104, arXiv:1712.08052.
[Abbas:2017vws]
[7-494]
Evidence for M-theory based on fractal nearly tri-bimaximal neutrino mixing, Hui-Bin Qiu, arXiv:1712.07689, 2017.
[Qiu:2017olp]
[7-495]
Equivalence between massless neutrinos and lepton number conservation in fermionic singlet extensions of the Standard Model, K. Moffat, S. Pascoli, C. Weiland, arXiv:1712.07611, 2017.
[Moffat:2017feq]
[7-496]
Fermion mass hierarchy from nonuniversal abelian extensions of the Standard Model, Carlos E. Diaz, S.F Mantilla, R. Martinez, Phys.Rev. D98 (2018) 015038, arXiv:1712.07263.
[Diaz:2017eob]
[7-497]
Flavour physics without flavour symmetries, Wilfried Buchmuller, Ketan M. Patel, Phys.Rev. D97 (2018) 075019, arXiv:1712.06862.
[Buchmuller:2017vut]
[7-498]
Orbifold family unification using vectorlike representation on six dimensions, Yuhei Goto, Yoshiharu Kawamura, Phys.Rev. D98 (2018) 035039, arXiv:1712.06444.
[Goto:2017zsx]
[7-499]
Texture zeros and hierarchical masses from flavour (mis)alignment, Wolfgang G. Hollik, Ulises J. Saldana-Salazar, Nucl.Phys. B928 (2018) 535-554, arXiv:1712.05387.
[Hollik:2017get]
[7-500]
Renormalizable SU(5) Completions of a Zee-type Neutrino Mass Model, Kresimir Kumericki, Timon Mede, Ivica Picek, Phys.Rev. D97 (2018) 055012, arXiv:1712.05246.
[Kumericki:2017sfc]
[7-501]
Radiative neutrino masses from order-4 CP symmetry, Igor P. Ivanov, JHEP 1802 (2018) 025, arXiv:1712.02101.
[Ivanov:2017bdx]
[7-502]
Deviations of exact neutrino textures using radiative neutrino masses, D. Wegman, arXiv:1711.08004, 2017.
[Wegman:2017zui]
[7-503]
Clockwork Mechanism for Flavour Hierarchies, Ketan M. Patel, Phys.Rev. D96 (2017) 115013, arXiv:1711.05393.
[Patel:2017pct]
[7-504]
Left-handed and right-handed U(1) gauge symmetry, Takaaki Nomura, Hiroshi Okada, JHEP 1801 (2018) 099, arXiv:1710.10028.
[Nomura:2017lsn]
[7-505]
The Dark Side of Flipped Trinification, P. V. Dong, D. T. Huong, Farinaldo S. Queiroz, Jose W. F. Valle, C. A. Vaquera-Araujo, JHEP 1804 (2018) 143, arXiv:1710.06951.
[Dong:2017zxo]
[7-506]
Electroweak Symmetry Breaking and Mass Spectra in Six-Dimensional Gauge-Higgs Grand Unification, Yutaka Hosotani, Naoki Yamatsu, PTEP 2018 (2018) 023B05, arXiv:1710.04811.
[Hosotani:2017edv]
[7-507]
A Unified Model of Quarks and Leptons with a Universal Texture Zero, Ivo de Medeiros Varzielas, Graham G. Ross, Jim Talbert, JHEP 1803 (2018) 007, arXiv:1710.01741.
[deMedeirosVarzielas:2017sdv]
[7-508]
Exponential Hierarchies from Anderson Localization in Theory Space, Nathaniel Craig, Dave Sutherland, Phys.Rev.Lett. 120 (2018) 221802, arXiv:1710.01354.
[Craig:2017ppp]
[7-509]
A Clifford Algebra Approach to Chiral Symmetry Breaking and Fermion Mass Hierarchies, Wei Lu, Int.J.Mod.Phys. A32 (2017) 1750159, arXiv:1709.09294.
[Lu:2017kvy]
[7-510]
Neutrino mass matrices with three or four vanishing cofactors and non diagonal charged lepton sector, S. Dev, Desh Raj, Radha Raman Gautam, Phys.Rev. D96 (2017) 095002, arXiv:1709.09084.
[Dev:2017jdx]
[7-511]
Beyond the standard model with sum rules, Damian Ejlli, Int.J.Mod.Phys. A34 (2019) 1950122, arXiv:1709.04677.
[Ejlli:2017ebl]
[7-512]
Cobimaximal lepton mixing from soft symmetry breaking, W. Grimus, L. Lavoura, Phys.Lett. B774 (2017) 325-331, arXiv:1708.09809.
[Grimus:2017itg]
[7-513]
The $\mu-\tau$ reflection symmetry of Dirac neutrinos and its breaking effect via quantum corrections, Zhi-zhong Xing, Di Zhang, Jing-yu Zhu, JHEP 1711 (2017) 135, arXiv:1708.09144.
[Xing:2017mkx]
[7-514]
On the Origin of Lepton and Quark Masses, Jiri Hosek, Jr J. Adam, arXiv:1708.08233, 2017.
[Hosek:2017qup]
[7-515]
Neutrino mass with large $SU(2)_L$ multiplet fields, Takaaki Nomura, Hiroshi Okada, Phys.Rev. D96 (2017) 095017, arXiv:1708.03204.
[Nomura:2017abu]
[7-516]
Cobimaximal Neutrino Mixing from $A_4$ and its Possible Deviation, Ernest Ma, G. Rajasekaran, Europhys.Lett. 119 (2017) 31001, arXiv:1708.02208.
[Ma:2017moj]
[7-517]
Structure of Right-Handed Neutrino Mass Matrix, Yoshio Koide, Phys.Rev. D96 (2017) 095005, arXiv:1708.01406.
[Koide:2017nco]
[7-518]
Asymptotically Safe Standard Model Extensions, Giulio Maria Pelaggi et al., Phys.Rev. D97 (2018) 095013, arXiv:1708.00437.
[Pelaggi:2017abg]
[7-519]
Radiative Left-Right Dirac Neutrino Mass, Ernest Ma, Utpal Sarkar, Phys.Lett. B776 (2018) 54-57, arXiv:1707.07698.
[Ma:2017kgb]
[7-520]
Analytical solution for the Zee mechanism, A. C. B. Machado, J. Montano, Pedro Pasquini, V. Pleitez, arXiv:1707.06977, 2017.
[Machado:2017flo]
[7-521]
EDM with and beyond flavor invariants, Christopher Smith, Selim Touati, Nucl.Phys. B924 (2017) 417-452, arXiv:1707.06805.
[Smith:2017dtz]
[7-522]
Weak Gravity Conjecture, Multiple Point Principle and the Standard Model Landscape, Yuta Hamada, Gary Shiu, JHEP 1711 (2017) 043, arXiv:1707.06326.
[Hamada:2017yji]
[7-523]
Neutrino mass in flavor dependent gauged lepton model, Takaaki Nomura, Hiroshi Okada, Phys.Rev. D97 (2018) 055044, arXiv:1707.06083.
[Nomura:2017psk]
[7-524]
New Class of Two-Loop Neutrino Mass Models with Distinguishable Phenomenology, Qing-Hong Cao, Shao-Long Chen, Ernest Ma, Bin Yan, Dong-Ming Zhang, Phys.Lett. B779 (2018) 430-435, arXiv:1707.05896.
[Cao:2017xgk]
[7-525]
Cobimaximal Neutrino Mixing from $S_3 \times Z_2$, Ernest Ma, Phys.Lett. B777 (2018) 332-334, arXiv:1707.03352.
[Ma:2017trv]
[7-526]
Masses and Mixing of Neutral Leptons in a Grand Unified E_6 Model with Intermediate Pati-Salam Symmetry, Secil Benli, Tekin Dereli, Int.J.Theor.Phys. 57 (2018) 2343-2358, arXiv:1707.03144.
[Benli:2017eld]
[7-527]
Minimal realization of right-handed gauge symmetry, Takaaki Nomura, Hiroshi Okada, Phys.Rev. D97 (2018) 015015, arXiv:1707.00929.
[Nomura:2017tih]
[7-528]
$\psi'$MSSM: Light Sterile Neutrinos, Dark Matter, and New Resonances, A. Hebbar, G. Lazarides, Q.Shafi, Phys.Rev. D96 (2017) 055026, arXiv:1706.09630.
[Hebbar:2017fit]
[7-529]
Are neutrino masses modular forms?, Ferruccio Feruglio, arXiv:1706.08749, 2017.
[Feruglio:2017spp]
[7-530]
The economical 3-3-1 model revisited, P. V. Dong, D. Q. Phong, D. V. Soa, N. C. Thao, Eur.Phys.J. C78 (2018) 653, arXiv:1706.06152.
[Dong:2017ayu]
[7-531]
Flavourful Z$^{'}$ models for $ {R}_{K^{\left(\ast \right)}} $, Stephen F. King, JHEP 08 (2017) 019, arXiv:1706.06100.
[King:2017anf]
[7-532]
Study of Electroweak Vacuum Stability from Extended Higgs Portal of Dark Matter and Neutrinos, Purusottam Ghosh, Abhijit Kumar Saha, Arunansu Sil, Phys.Rev. D97 (2018) 075034, arXiv:1706.04931.
[Ghosh:2017fmr]
[7-533]
Toward a unified interpretation of quark and lepton mixing from flavor and CP symmetries, Cai-Chang Li, Jun-Nan Lu, Gui-Jun Ding, JHEP 1802 (2018) 038, arXiv:1706.04576.
[Li:2017abz]
[7-534]
A Novel Foamy Origin for Singlet Fermion Masses, John Ellis, Nick E. Mavromatos, Dimitri V. Nanopoulos, Phys.Rev. D96 (2017) 086012, arXiv:1706.04080.
[Ellis:2017orv]
[7-535]
Implications of texture zeros for a variant of Tri-Bimaximal Mixing, Sanjeev Kumar, Radha Raman Gautam, Phys.Rev. D96 (2017) 015020, arXiv:1706.03258.
[Kumar:2017hjn]
[7-536]
A model of spontaneous $CP$ breaking at low scale, Gauhar Abbas, Phys.Lett. B773 (2017) 252-257, arXiv:1706.02564.
[Abbas:2017vle]
[7-537]
Revisiting Large Neutrino Magnetic Moments, Manfred Lindner, Branimir Radovcic, Johannes Welter, JHEP 1707 (2017) 139, arXiv:1706.02555.
[Lindner:2017uvt]
[7-538]
Texture zeros of low-energy Majorana neutrino mass matrix in 3+1 scheme, Debasish Borah, Monojit Ghosh, Shivani Gupta, Sushant K. Raut, Phys.Rev. D96 (2017) 055017, arXiv:1706.02017.
[Borah:2017azf]
[7-539]
Gauged Lepton Symmetry Model, Takaaki Nomura, Hiroshi Okada, arXiv:1706.01321, 2017.
[Nomura:2017xko]
[7-540]
Neutrino mass in a gauged $L_\mu- L_\tau$ model, Chuan-Hung Chen, Takaaki Nomura, Nucl.Phys. B940 (2019) 292-311, arXiv:1705.10620.
[Chen:2017gvf]
[7-541]
A novel 3-3-1 model for the generation of the SM fermion mass and mixing pattern, A. E. Carcamo Hernandez, Sergey Kovalenko, H. N. Long, Ivan Schmidt, JHEP 1807 (2018) 144, arXiv:1705.09169.
[CarcamoHernandez:2017cwi]
[7-542]
Radiative neutrino mass in an alternative $U(1)_{B-L}$ gauge symmetry, Takaaki Nomura, Hiroshi Okada, Nucl.Phys. B941 (2019) 586-599, arXiv:1705.08309.
[Nomura:2017vzp]
[7-543]
Surveying the SO(10) Model Landscape: The Left-Right Symmetric Case, Frank F. Deppisch, Tomas E. Gonzalo, Lukas Graf, Phys.Rev. D96 (2017) 055003, arXiv:1705.05416.
[Deppisch:2017xhv]
[7-544]
Trimaximal $\mu$-$\tau$ reflection symmetry, Werner Rodejohann, Xun-Jie Xu, Phys.Rev. D96 (2017) 055039, arXiv:1705.02027.
[Rodejohann:2017lre]
[7-545]
Flavor Gauge Models Below the Fermi Scale, K.S. Babu, A. Friedland, P.A.N. Machado, I. Mocioiu, JHEP 1712 (2017) 096, arXiv:1705.01822.
[Babu:2017olk]
[7-546]
A natural $ S_4 \times SO(10) $ model of flavour, Fredrik Bjorkeroth, Francisco J. de Anda, Stephen F. King, Elena Perdomo, JHEP 1710 (2017) 148, arXiv:1705.01555.
[Bjorkeroth:2017ybg]
[7-547]
Loop neutrino masses from d=7 operator, R. Cepedello, M. Hirsch, J.C. Helo, JHEP 1707 (2017) 079, arXiv:1705.01489.
[Cepedello:2017eqf]
[7-548]
Scotogenic model with $B - L$ symmetry and exotic neutrinos, A. C. B. Machado, J. Montano, V. Pleite, M. C. Rodriguez, arXiv:1705.01009, 2017.
[Machado:2017ksd]
[7-549]
The $B-L$ Scotogenic Models for Dirac Neutrino Masses, Weijian Wang, Ronghui Wang, Zhi-Long Han, Jin-Zhong Han, Eur.Phys.J. C77 (2017) 889, arXiv:1705.00414.
[Wang:2017mcy]
[7-550]
3HD+1HS U(1)' family non-universal model, S. F. Mantilla, R. Martinez, Phys.Rev. D96 (2017) 095027, arXiv:1704.04869.
[Mantilla:2017ijh]
[7-551]
Loop suppressed light fermion masses with $U(1)_R$ gauge symmetry, Takaaki Nomura, Hiroshi Okada, Phys.Rev. D96 (2017) 015016, arXiv:1704.03382.
[Nomura:2017ezy]
[7-552]
Neutrino Mass Sum Rules and Symmetries of the Mass Matrix, Julia Gehrlein, Martin Spinrath, Eur.Phys.J. C77 (2017) 281, arXiv:1704.02371.
[Gehrlein:2017ryu]
[7-553]
The Neutrino Option, llaria Brivio, Michael Trott, Phys.Rev.Lett. 119 (2017) 141801, arXiv:1703.10924.
[Brivio:2017dfq]
[7-554]
A novel mathematical construct for the family of leptonic mixing patterns, Shu-jun Rong, arXiv:1703.09981, 2017.
[Rong:2017rel]
[7-555]
Addressing $R_K$ and neutrino mixing in a class of $U(1)_X$ models, Disha Bhatia, Sabyasachi Chakraborty, Amol Dighe, PoS CKM2016 (2017) 064, arXiv:1703.08299. 6 pages, 2 figures, talk presented at the 9th International Workshop on the CKM Unitarity Triangle.
[Bhatia:2017xze]
[7-556]
Naturalizing Gravity of the Quantum Fields, and the Hierarchy Problem, Durmus Demir, arXiv:1703.05733, 2017.
[Demir:2017juu]
[7-557]
Extended Higgs Sectors in Radiative Neutrino Models, Oleg Antipin, Petar Culjak, Kresimir Kumericki, Ivica Picek, Phys.Lett. B768 (2017) 330-336, arXiv:1703.05075.
[Antipin:2017wiz]
[7-558]
Breakings of the neutrino mu-tau reflection symmetry, Zhen-hua Zhao, JHEP 1709 (2017) 023, arXiv:1703.04984.
[Zhao:2017yvw]
[7-559]
Asymmetric Dark Matter and Baryogenesis from $SU(2)$-Lepton, Bartosz Fornal, Yuri Shirman, Tim M. P. Tait, Jennifer Rittenhouse West, Phys.Rev. D96 (2017) 035001, arXiv:1703.00199.
[Fornal:2017owa]
[7-560]
Radiative Two-Loop Neutrino Masses with Dark Matter, C. Simoes, D. Wegman, JHEP 1704 (2017) 148, arXiv:1702.04759.
[Simoes:2017kqb]
[7-561]
Radiatively Induced Neutrino Mass Model with Flavor Dependent Gauge Symmetry, SangJong Lee, Takaaki Nomura, Hiroshi Okada, Nucl.Phys. B931 (2018) 179-191, arXiv:1702.03733.
[Lee:2017ekw]
[7-562]
Naturally Light Dirac Neutrino in Left-Right Symmetric Model, Debasish Borah, Arnab Dasgupta, JCAP 1706 (2017) 003, arXiv:1702.02877.
[Borah:2017leo]
[7-563]
Leptoquark mechanism of neutrino masses within the grand unification framework, Ilja Dorsner, Svjetlana Fajfer, Nejc Kosnik, Eur.Phys.J. C77 (2017) 417, arXiv:1701.08322.
[Dorsner:2017wwn]
[7-564]
Twenty years after the discovery of $\mu-\tau$ symmetry, Takeshi Fukuyama, PTEP 2017 (2017) 033B11, arXiv:1701.04985.
[Fukuyama:2017qxb]
[7-565]
On a reinterpretation of the Higgs field in supersymmetry and a proposal for new quarks, Daniel E. Lopez-Fogliani, Carlos Munoz, Phys.Lett. B771 (2017) 136-141, arXiv:1701.02652.
[Lopez-Fogliani:2017qzj]
[7-566]
Non-Minimal Flavored ${\bf S}_{3}\times {\bf Z}_{2} $ Left-Right Symmetric Model, Juan Carlos Gomez-Izquierdo, Eur.Phys.J. C77 (2017) 551, arXiv:1701.01747.
[Gomez-Izquierdo:2017rxi]
[7-567]
Natural emergence of neutrino masses and bi-linear, Sabyasachi Chakraborty, Joydeep Chakrabortty, JHEP 1710 (2017) 012.
[Chakraborty:2017dfg]
[7-568]
Anarchy with Hierarchy: A Probabilistic Appraisal, K.S. Babu, Alexander Khanov, Shaikh Saad, Phys.Rev. D95 (2017) 055014, arXiv:1612.07787.
[Babu:2016aro]
[7-569]
Minimal non-universal EW extensions of the Standard Model: a chiral multi-parameter solution, Richard Benavides, Luis Alfredo Munoz, William A. Ponce, Oscar Rodriguez, Eduardo Rojas, Phys.Rev. D95 (2017) 115018, arXiv:1612.07660.
[Benavides:2016utf]
[7-570]
PSL(2,7) Representations and their relevance to Neutrino Physics, G. Aliferis, G.K. Leontaris, N.D. Vlachos, Eur.Phys.J. C77 (2017) 370, arXiv:1612.06161.
[Aliferis:2016blw]
[7-571]
Flaxion: a minimal extension to solve puzzles in the standard model, Yohei Ema, Koichi Hamaguchi, Takeo Moroi, Kazunori Nakayama, JHEP 1701 (2017) 096, arXiv:1612.05492.
[Ema:2016ops]
[7-572]
Radiative Electroweak Symmetry Breaking in Standard Model Extensions, K.S. Babu, Ilia Gogoladze, S. Khan, Phys.Rev. D95 (2017) 095013, arXiv:1612.05185.
[Babu:2016gpg]
[7-573]
Operators up to Dimension Seven in Standard Model Effective Field Theory Extended with Sterile Neutrinos, Yi Liao, Xiao-Dong Ma, Phys.Rev. D96 (2017) 015012, arXiv:1612.04527.
[Liao:2016qyd]
[7-574]
Radiatively generated hierarchy of lepton and quark masses, A. E. Carcamo Hernandez, Sergey Kovalenko, Ivan Schmidt, JHEP 1702 (2017) 125, arXiv:1611.09797.
[CarcamoHernandez:2016pdu]
[7-575]
Minimal left-right symmetric intersecting D-brane model, Luis A. Anchordoqui, Ignatios Antoniadis, Haim Goldberg, Xing Huang, Dieter Lust, Tomasz R. Taylor, Phys. Rev. D95 (2017) 026011, arXiv:1611.09785.
[Anchordoqui:2016kmu]
[7-576]
Standard model flavor from an $SU(2)$ symmetry, Jeffrey M. Berryman, Daniel Hernandez, Phys.Rev. D95 (2017) 115007, arXiv:1611.07033.
[Berryman:2016mfg]
[7-577]
A Three Doublet Lepton-Specific Model, Marco Merchand, Marc Sher, Phys.Rev. D95 (2017) 055004, arXiv:1611.06887.
[Merchand:2016ldu]
[7-578]
Generalized Gauge U(1) Family Symmetry for Quarks and Leptons, Corey Kownacki, Ernest Ma, Nicholas Pollard, Mohammadreza Zakeri, Phys.Lett. B766 (2017) 149-152, arXiv:1611.05017.
[Kownacki:2016pmx]
[7-579]
Non-renormalizable Operators for Solar Mass Generation in Split SuSy with Bilinear R-parity Violation, Marco Aurelio Diaz, Benjamin Koch, Nicolas Rojas, Nucl. Phys. B916 (2017) 402-413, arXiv:1611.03468.
[Diaz:2016ybj]
[7-580]
Naturally Dirac Neutrino Mass Generation with Intermediate $SU(2)_{L}$ Multiplet Fields, Weijian Wang, Zhi-Long Han, arXiv:1611.03240, 2016.
[Wang:2016lve]
[7-581]
$Z^\prime$-portal right-handed neutrino dark matter in the minimal U(1)$_X$ extended Standard Model, Nobuchika Okada, Satomi Okada, Phys.Rev. D95 (2017) 035025, arXiv:1611.02672.
[Okada:2016tci]
[7-582]
Unifying left-right symmetry and 331 electroweak theories, Mario Reig, Jose W.F. Valle, C.A. Vaquera-Araujo, Phys.Lett. B766 (2017) 35-40, arXiv:1611.02066.
[Reig:2016tuk]
[7-583]
Residual $Z_2$ symmetries and leptonic mixing patterns from finite discrete subgroups of $U(3)$, Anjan S. Joshipura, Ketan M. Patel, JHEP 1701 (2017) 134, arXiv:1610.07903.
[Joshipura:2016quv]
[7-584]
A composite tale of two right-handed neutrinos, Gabriela Barenboim, Cristian Bosch, Phys. Rev. D94 (2016) 116019, arXiv:1610.06588.
[Barenboim:2016xhn]
[7-585]
Alternative Schemes of Predicting Lepton Mixing Parameters from Discrete Flavor and CP Symmetry, Jun-Nan Lu, Gui-Jun Ding, Phys. Rev. D95 (2017) 015012, arXiv:1610.05682.
[Lu:2016jit]
[7-586]
A Three-loop Neutrino Mass Model with a Colored Triplet Scalar, Kingman Cheung, Takaaki Nomura, Hiroshi Okada, Phys. Rev. D95 (2017) 015026, arXiv:1610.04986.
[Cheung:2016frv]
[7-587]
A Radiative Neutrino Model with $SU(2)_L$ Triplet Fields, Takaaki Nomura, Hiroshi Okada, Yuta Orikasa, Phys. Rev. D94 (2016) 115018, arXiv:1610.04729.
[Nomura:2016dnf]
[7-588]
Neutrino Oscillation, Finite Self-Mass and General Yang-Mills Symmetry, Jong-Ping Hsu, Mod.Phys.Lett. A31 (2016) 1650200, arXiv:1610.00978.
[Hsu:2016bix]
[7-589]
A New Variant of $\mu$\,-\,$\tau$ Symmetry for One Generic Neutrino Mixing Angle: Analytical Study, E. I. Lashin, N. Chamoun, C. Hamzaoui, S. Nasri, Phys.Rev. D96 (2017) 015003, arXiv:1609.09125.
[Lashin:2016idf]
[7-590]
A Probability Density Function for Neutrino Masses and Mixings, Jean-Francois Fortin, Nicolas Giasson, Luc Marleau, Phys. Rev. D94 (2016) 115004, arXiv:1609.08581.
[Fortin:2016zyf]
[7-591]
Supersymmetric $U(1)_{Y^{\prime}}\otimes U(1)_{B-L}$ extension of the standard model, J. C. Montero, V. Pleitez, M. C. Rodriguez, B. L. Sanchez-Vega, Int.J.Mod.Phys. A32 (2017) 1750093, arXiv:1609.08129.
[Montero:2016qpx]
[7-592]
Soft See-Saw: Radiative Origin of Neutrino Masses in SUSY Theories, Luka Megrelidze, Zurab Tavartkiladze, Nucl. Phys. B914 (2017) 553-576, arXiv:1609.07344.
[Megrelidze:2016fcs]
[7-593]
Accommodation of the Dirac Phase in the Krauss-Nasri-Trodden Model, Kingman Cheung, Hiroyuki Ishida, Hiroshi Okada, arXiv:1609.06231, 2016.
[Cheung:2016ypw]
[7-594]
Gauged Lepton Flavour, R. Alonso et al., JHEP 1612 (2016) 119, arXiv:1609.05902.
[Alonso:2016onw]
[7-595]
Minimal Mirror Twin Higgs, Riccardo Barbieri, Lawrence J. Hall, Keisuke Harigaya, JHEP 1611 (2016) 172, arXiv:1609.05589.
[Barbieri:2016zxn]
[7-596]
Lepton mass and mixing in a simple extension of the Standard Model based on T7 flavor symmetry, V. V. Vien, H. N. Long, Phys.Atom.Nucl. 82 (2019) 168-182, arXiv:1609.03895.
[Vien:2016qbb]
[7-597]
Higgs portal dark matter and neutrino mass and mixing with a doubly charged scalar, I.M. Hierro, S. F. King, S. Rigolin, Phys.Lett. B769 (2017) 121-128, arXiv:1609.02872.
[Hierro:2016nwm]
[7-598]
Pathways to Naturally Small Dirac Neutrino Masses, Ernest Ma, Oleg Popov, Phys.Lett. B764 (2017) 142-144, arXiv:1609.02538.
[Ma:2016mwh]
[7-599]
SO(10) model of standard and dark matter, V. V. Khruschov, arXiv:1609.01858, 2016.
[Khruschov:2016twd]
[7-600]
Two-loop Induced Majorana Neutrino Mass in a Radiatively Induced Quark and Lepton Mass Model, Takaaki Nomura, Hiroshi Okada, Phys. Rev. D94 (2016) 093006, arXiv:1609.01504.
[Nomura:2016pgg]
[7-601]
Chirally Invariant Avatar in a Model of Neutrinos with Light Cone Reflection Symmetry, Alan Chodos, arXiv:1609.01378, 2016.
[Chodos:2016syc]
[7-602]
Families from Supergroups, S.M. Barr, Heng-Yu Chen, JHEP 1710 (2017) 128, arXiv:1609.00706.
[Barr:2016rva]
[7-603]
Neutrino masses in the $SU(4)_L \otimes U(1)_X$ electroweak extension of the standard model, Guillermo Palacio, Int.J.Mod.Phys.A 31 (2016) 1650142, arXiv:1608.08676.
[Palacio:2016mam]
[7-604]
A Radiative Model of Quark Masses with Binary Tetrahedral Symmetry, Alexander Natale, Nucl. Phys. B914 (2017) 201-219, arXiv:1608.06999.
[Natale:2016xob]
[7-605]
331 Models and Grand Unification: From Minimal SU(5) to Minimal SU(6), Frank F. Deppisch, Chandan Hati, Sudhanwa Patra, Utpal Sarkar, Jose W.F. Valle, Phys.Lett. B762 (2016) 432-440, arXiv:1608.05334.
[Deppisch:2016jzl]
[7-606]
Neutrino assisted GUT baryogenesis - revisited, Wei-Chih Huang, Heinrich Pas, Sinan Zeissner, Phys.Rev. D97 (2018) 055040, arXiv:1608.04354.
[Huang:2016wwj]
[7-607]
A Colored KNT Neutrino Model, Takaaki Nomura, Hiroshi Okada, Nobuchika Okada, Phys.Lett. B762 (2016) 409-414, arXiv:1608.02694.
[Nomura:2016ezz]
[7-608]
Solving the Standard Model Problems in Softened Gravity, Alberto Salvio, Phys. Rev. D94 (2016) 096007, arXiv:1608.01194.
[Salvio:2016vxi]
[7-609]
Fermionic WIMPs and Vacuum Stability in the Scotogenic Model, Manfred Lindner, Alexander Merle, Moritz Platscher, Carlos E. Yaguna, Phys. Rev. D94 (2016) 115027, arXiv:1608.00577.
[Lindner:2016kqk]
[7-610]
Sneutrino Inflation with $\alpha$-attractors, Renata Kallosh, Andrei Linde, Diederik Roest, Timm Wrase, JHEP 1609 (2016) 063, arXiv:1607.08854.
[Kallosh:2016sej]
[7-611]
Group-theoretical search for rows or columns of the lepton mixing matrix, D. Jurciukonis, L. Lavoura, J.Phys. G44 (2017) 045003, arXiv:1607.06777.
[Jurciukonis:2016wrh]
[7-612]
Neutrino mass from M Theory SO(10), Bobby S. Acharya, Krzysztof Bozek, Miguel Crispim Romao, Stephen F. King, Chakrit Pongkitivanichkul, JHEP 1611 (2016) 173, arXiv:1607.06741.
[Acharya:2016kep]
[7-613]
Born-Infeld condensate as a possible origin of neutrino masses and dark energy, Andrea Addazi, Salvatore Capozziello, Sergei Odintsov, Phys.Lett. B760 (2016) 611-616, arXiv:1607.05706.
[Addazi:2016oob]
[7-614]
An Extended Colored Zee-Babu Model, Takaaki Nomura, Hiroshi Okada, Phys. Rev. D94 (2016) 075021, arXiv:1607.04952.
[Nomura:2016ask]
[7-615]
A new B-L model without right-handed neutrinos, Sudhanwa Patra, Werner Rodejohann, Carlos E. Yaguna, JHEP 1609 (2016) 076, arXiv:1607.04029.
[Patra:2016ofq]
[7-616]
Weak Gravity Conjecture as a Razor Criterium for Exotic D-brane instantons, Andrea Addazi, Mod.Phys.Lett. A32 (2016) 1750014, arXiv:1607.01203.
[Addazi:2016ksv]
[7-617]
Revisiting on-shell renormalization conditions in theories with flavour mixing, W. Grimus, M. Loschner, Int.J.Mod.Phys. A31 (2016) 1630038, arXiv:1606.06191.
[Grimus:2016hmw]
[7-618]
On the Predictivity of Neutrino Mass Sum Rules, Julia Gehrlein, Alexander Merle, Martin Spinrath, Phys. Rev. D94 (2016) 093003, arXiv:1606.04965.
[Gehrlein:2016wlc]
[7-619]
Dynamical lepton and quark mass generation and its consequences, Jiri Hosek, arXiv:1606.03292, 2016.
[Hosek:2016idn]
[7-620]
A vector-like extension of the standard model in which the vacuum spontaneously breaks parity, Kevin Cahill, arXiv:1606.01225, 2016.
[Cahill:2016wpk]
[7-621]
A flipped 331 model, Renato M. Fonseca, Martin Hirsch, JHEP 1608 (2016) 003, arXiv:1606.01109.
[Fonseca:2016tbn]
[7-622]
Effective action approach to dynamical generation of fermion mixing, Massimo Blasone, Petr Jizba, Luca Smaldone, Nuovo Cim. C38 (2015) 201, arXiv:1606.00320.
[Blasone:2015iqf]
[7-623]
Hidden flavor symmetries of SO(10) GUT, Borut Bajc, Alexei Yu. Smirnov, Nucl. Phys. B909 (2016) 954-979, arXiv:1605.07955.
[Bajc:2016eiw]
[7-624]
The electroweak theory based on SU(4)_L X U(1)_X gauge group, H. N. Long, L. T. Hue, D. V. Loi, Phys. Rev. D94 (2016) 015007, arXiv:1605.07835.
[Long:2016lmj]
[7-625]
The Feynman rules for neutrinos and new neutralinos in BLMSSM, Xing-Xing Dong, Shu-Min Zhao, Hai-Bin Zhang, Fang Wang, Tai-Fu Feng, Chin.Phys. C40 (2016) 093103, arXiv:1605.07475.
[Dong:2016axg]
[7-626]
New Class of SO(10) Models for Flavor, K.S. Babu, Borut Bajc, Shaikh Saad, Phys. Rev. D94 (2016) 015030, arXiv:1605.05116.
[Babu:2016cri]
[7-627]
Unification of Gauge Couplings in Radiative Neutrino Mass Models, Claudia Hagedorn, Tommy Ohlsson, Stella Riad, Michael A. Schmidt, JHEP 1609 (2016) 111, arXiv:1605.03986.
[Hagedorn:2016dze]
[7-628]
Imperfect Mirrors of the Standard Model, Jeffrey M. Berryman, Andre de Gouvea, Daniel Hernandez, Kevin J. Kelly, Phys. Rev. D94 (2016) 035009, arXiv:1605.03610.
[Berryman:2016rot]
[7-629]
Bottom-Up Discrete Symmetries for Cabibbo Mixing, Ivo de Medeiros Varzielas, Rasmus W. Rasmussen, Jim Talbert, Int.J.Mod.Phys. A32 (2017) 1750047, arXiv:1605.03581.
[deMedeirosVarzielas:2016fqq]
[7-630]
An $SU(2)_L$ Septet Scalar Linking to Radiative Neutrino Model, Takaaki Nomura, Hiroshi Okada, Yuta Orikasa, Phys. Rev. D94 (2016) 055012, arXiv:1605.02601.
[Nomura:2016jnl]
[7-631]
Direct and Semi-Direct Approaches to Lepton Mixing with a Massless Neutrino, Stephen F. King, Patrick Otto Ludl, JHEP 1606 (2016) 147, arXiv:1605.01683.
[King:2016pgv]
[7-632]
Generating nonzero $\theta_{13}$ without breaking the $2$-$3$ symmetry of neutrino mass matrix, Subhankar Roy, N. Nimai Singh, arXiv:1605.00809, 2016.
[Roy:2016zyu]
[7-633]
Lepton mixing patterns from the group $\Sigma(36\times3)$ with the generalized CP, Shu-jun Rong, Phys.Rev. D95 (2017) 076014, arXiv:1604.08482.
[Rong:2016cpk]
[7-634]
Hierarchical majorana neutrinos from democratic mass matrices, Masaki J. S. Yang, Phys.Lett. B760 (2016) 747-752, arXiv:1604.07896.
[Yang:2016esx]
[7-635]
Systematic $U(1)_{B-L}$ Extensions of Loop-Induced Neutrino Mass Models with Dark Matter, Shu-Yu Ho, Takashi Toma, Koji Tsumura, Phys. Rev. D94 (2016) 033007, arXiv:1604.07894.
[Ho:2016aye]
[7-636]
Scotogenic model for co-bimaximal mixing, P.M. Ferreira, W. Grimus, D. Jurciukonis, L. Lavoura, JHEP 1607 (2016) 010, arXiv:1604.07777.
[Ferreira:2016sbb]
[7-637]
$A_4 \times U(1)_{PQ}$ Model for the Lepton Flavor Structure and the Strong $CP$ Problem, Takaaki Nomura, Yusuke Shimizu, Toshifumi Yamada, JHEP 1606 (2016) 125, arXiv:1604.07650.
[Nomura:2016nfi]
[7-638]
Way-out to the Gravitino problem in intersecting D-brane Pati-Salam models, Andrea Addazi, Maxim Khlopov, Mod.Phys.Lett. A31 (2016) 1650111, arXiv:1604.07622.
[Addazi:2016mtn]
[7-639]
Theoretical constraints on masses of heavy particles in Left-Right Symmetric Models, J. Chakrabortty, J. Gluza, T. Jelinski, T. Srivastava, Phys.Lett. B759 (2016) 361-368, arXiv:1604.06987.
[Chakrabortty:2016wkl]
[7-640]
Small Neutrino Masses: Another Anthropic principle aspect?, C Sivaram, Kenath Arun, Kiren O V, arXiv:1604.06897, 2016.
[Sivaram:2016ukn]
[7-641]
Scale-Invariant Models with One-Loop Neutrino Mass and Dark Matter Candidates, Amine Ahriche, Adrian Manning, Kristian L. McDonald, Salah Nasri, Phys. Rev. D94 (2016) 053005, arXiv:1604.05995.
[Ahriche:2016ixu]
[7-642]
Baryon Number, Lepton Number, and Operator Dimension in the Standard Model, Andrew Kobach, Phys.Lett. B758 (2016) 455-457, arXiv:1604.05726.
[Kobach:2016ami]
[7-643]
The Scale-Invariant Scotogenic Model, Amine Ahriche, Kristian L. McDonald, Salah Nasri, JHEP 1606 (2016) 182, arXiv:1604.05569.
[Ahriche:2016cio]
[7-644]
Neutrino Self-Interactions, Jasper Hasenkamp, Phys. Rev. D93 (2016) 055033, arXiv:1604.04742.
[Hasenkamp:2016pme]
[7-645]
Neutrino mixing and masses in SO(10) GUTs with hidden sector and flavor symmetries, Xiaoyong Chu, Alexei Yu. Smirnov, JHEP 1605 (2016) 135, arXiv:1604.03977.
[Chu:2016lkb]
[7-646]
Renormalizable SU(5) Unification, Pavel Fileviez Perez, Clara Murgui, Phys. Rev. D94 (2016) 075014, arXiv:1604.03377.
[FileviezPerez:2016sal]
[7-647]
String completion of an $\mathrm{SU(3)_c \otimes SU(3)_L \otimes U(1)_X}$ electroweak model, Andrea Addazi, J. W. F. Valle, C. A. Vaquera-Araujo, Phys.Lett. B759 (2016) 471-478, arXiv:1604.02117.
[Addazi:2016xuh]
[7-648]
Do Small-mass Neutrinos participate in Gauge Transformations?, Y.S. Kim, G.Q. Maguire Jr, M.E. Noz, Adv.High Energy Phys. 2016 (2016) 1847620, arXiv:1604.01975.
[Kim:2016bbj]
[7-649]
Mini Force: the (B-L) + xY gauge interaction with a light mediator, Hye-Sung Lee, Seokhoon Yun, Phys. Rev. D93 (2016) 115028, arXiv:1604.01213.
[Lee:2016ief]
[7-650]
Gauge $U(1)$ Dark Symmetry and Radiative Light Fermion Masses, Corey Kownacki, Ernest Ma, Phys.Lett. B760 (2016) 59-62, arXiv:1604.01148.
[Kownacki:2016hpm]
[7-651]
Dynamical Electroweak Symmetry Breaking in the model of electroweak-scale right-handed neutrinos, P. Q. Hung, N. N. Le, Int.J.Mod.Phys. 31 (2016) 1650065, arXiv:1604.00084.
[Hung:2016jtg]
[7-652]
The one loop corrections to the neutrino masses in BLMSSM, Shu-Min Zhao et al., Nucl. Phys. B910 (2016) 225-239, arXiv:1603.09505.
[Zhao:2016mhw]
[7-653]
Modulated bimaximal neutrino mixing, Subhankar Roy, N. Nimai Singh, Phys. Rev. D92 (2015) 036001, arXiv:1603.07972.
[Roy:2015cka]
[7-654]
The mixing angle as a function of neutrino mass ratio, Subhankar Roy, N.Nimai Singh, Phys. Rev. D91 (2015) 096003, arXiv:1603.07474.
[Roy:2015cza]
[7-655]
Gauge Interactions and a Quantum Avatar in a Model with Light Cone Reflection Symmetry, Alan Chodos, arXiv:1603.07053, 2016.
[Chodos:2016yac]
[7-656]
Neutrino Mass Matrices from Two Zero 3x2 Yukawa Textures and Minimal d=5 Entries, Avtandil Achelashvili, Zurab Tavartkiladze, Int.J.Mod.Phys. 31 (2016) 1650077, arXiv:1603.06707.
[Achelashvili:2016nkr]
[7-657]
Electroweak and Majorana Sector Higgs Bosons and Pseudo-Nambu-Goldstone Bosons, Wei Lu, arXiv:1603.04697, 2016.
[Lu:2016jwj]
[7-658]
Lepton mass and mixing in a Neutrino Mass Model based on $S_4$ flavor symmetry, V. V. Vien, Int.J.Mod.Phys. A31 (2016) 1650039, arXiv:1603.03933.
[Vien:2016jkz]
[7-659]
R-parity Conserving Minimal SUSY $B-L$ Model, Nobuchika Okada, Nathan Papapietro, arXiv:1603.01769, 2016.
[Okada:2016tzi]
[7-660]
Radiative Neutrino Mass via Both Minimal Dark Matter Candidates, Amine Ahriche, Kristian L. McDonald, Salah Nasri, Ivica Picek, Phys.Lett. B757 (2016) 399-404, arXiv:1603.01247.
[Ahriche:2016rgf]
[7-661]
The Minimal R$\nu$MDM Model, Yi Cai, Michael A. Schmidt, JHEP 1605 (2016) 028, arXiv:1603.00255.
[Cai:2016jrl]
[7-662]
Radiative Neutrino Mass in Alternative Left-Right Symmetric Model, Takaaki Nomura, Hiroshi Okada, Yuta Orikasa, Eur.Phys.J. C77 (2017) 103, arXiv:1602.08302.
[Nomura:2016run]
[7-663]
Small Neutrino Masses from Gravitational $\theta$-Term, Gia Dvali, Lena Funcke, Phys. Rev. D93 (2016) 113002, arXiv:1602.03191.
[Dvali:2016uhn]
[7-664]
Double Froggatt-Nielsen Mechanism, Kenji Nishiwaki, Yusuke Shimizu, Yoshiyuki Tatsuta, PTEP 2016 (2016) 083B05, arXiv:1602.00890.
[Nishiwaki:2016xyp]
[7-665]
Radiative Breaking of the Minimal Supersymmetric Left-Right Model, Nobuchika Okada, Nathan Papapietro, Phys.Lett. B756 (2016) 47-51, arXiv:1602.00637.
[Okada:2016bqx]
[7-666]
Coxeter groups and the PMNS matrix, Pritibhajan Byakti, Palash B. Pal, Eur.Phys.J. C77 (2017) 730, arXiv:1601.08063.
[Byakti:2016rru]
[7-667]
Unification of gauge, family, and flavor symmetries illustrated in gauged SU(12) models, Carl H. Albright, Robert P. Feger., Thomas W. Kephart, Phys. Rev. D93 (2016) 075032, arXiv:1601.07523.
[Albright:2016lpi]
[7-668]
Active Dirac Neutrinos via $SU(2)_L$ Doublets in 5d, Yukihiro Fujimoto et al., JHEP 1606 (2016) 178, arXiv:1601.05265.
[Fujimoto:2016gfu]
[7-669]
A 3-3-1 model with right-handed neutrinos based on the $\Delta\left(27\right)$ family symmetry, A. E. Carcamo Hernandez, H. N. Long, V. V. Vien, Eur.Phys.J. C76 (2016) 242, arXiv:1601.05062.
[CarcamoHernandez:2016piw]
[7-670]
A realistic model for Dark Matter interactions in the neutrino portal paradigm, Vannia Gonzalez-Macias, Jose I. Illana, Jose Wudka, JHEP 1605 (2016) 171, arXiv:1601.05051.
[Gonzalez-Macias:2016vxy]
[7-671]
Warped $R-$Parity Violation, B.C. Allanach, A.M. Iyer, K. Sridhar, Phys. Rev. D93 (2016) 055046, arXiv:1601.03007.
[Allanach:2016zmm]
[7-672]
A new and trivial CP symmetry for extended $A_4$ flavor, C. C. Nishi, Phys. Rev. D93 (2016) 093009, arXiv:1601.00977.
[Nishi:2016jqg]
[7-673]
Extending the MSSM with singlet higgs and right handed neutrino for the self-interacting Dark Matter, Hai-Jing Kang, Wenyu Wang, Commun.Theor.Phys. 65 (2016) 499-505, arXiv:1601.00373.
[Kang:2016xrm]
[7-674]
The Roots of the Standard Model of Particle Physics, P.J. Mulders, arXiv:1601.00300, 2016.
[Mulders:2016qve]
[7-675]
Soft $A_4 \to Z_3$ Symmetry Breaking and Cobimaximal Neutrino Mixing, Ernest Ma, Phys. Lett. B755 (2016) 348-350, arXiv:1601.00138.
[Ma:2016nkf]
[7-676]
Quark and Lepton Mass Matrices Described by Charged Lepton Masses, Yoshio Koide, Hiroyuki Nishiura, Mod.Phys.Lett. A31 (2016) 1650125, arXiv:1512.08386.
[Koide:2015ype]
[7-677]
Radiative neutrino mass model with degenerate right-handed neutrinos, Shoichi Kashiwase, Daijiro Suematsu, Eur. Phys. J. C76 (2016) 117, arXiv:1512.07961.
[Kashiwase:2015joo]
[7-678]
New U(1) Gauge Model of Radiative Lepton Masses with Sterile Neutrino and Dark Matter, Rathin Adhikari, Debasish Borah, Ernest Ma, Phys. Lett. B755 (2016) 414-417, arXiv:1512.05491.
[Adhikari:2015woo]
[7-679]
An $S_4$ model inspired from self-complementary neutrino mixing, Xinyi Zhang, J.Phys. G45 (2018) 035004, arXiv:1512.05085.
[Zhang:2015vle]
[7-680]
Formulae for flavour neutrino masses and its application to texture two zeros, Teruyuki Kitabayashi, Masaki Yasue, Phys. Rev. D93 (2016) 053012, arXiv:1512.00913.
[Kitabayashi:2015jdj]
[7-681]
Towards a complete $\Delta(27) \times SO(10)$ SUSY GUT, Fredrik Bjorkeroth, Francisco J. de Anda, Ivo de Medeiros Varzielas, Stephen F. King, Phys. Rev. D94 (2016) 016006, arXiv:1512.00850.
[Bjorkeroth:2015uou]
[7-682]
Light Sterile Neutrino Mass Matrix with Texture Zero and a Vanishing Mass, Newton Nath, Monojit Ghosh, Shivani Gupta, Int.J.Mod.Phys. A31 (2016) 1650132, arXiv:1512.00635.
[Nath:2015emg]
[7-683]
Majorana neutrino mass structure induced by rigid instatons on toroidal orbifold, Tatsuo Kobayashi, Yoshiyuki Tatsuta, Shohei Uemura, Phys. Rev. D93 (2016) 065029, arXiv:1511.09256.
[Kobayashi:2015siy]
[7-684]
Approaching Minimal Flavour Violation from an S4 x SU(5) SUSY GUT, Maria Dimou, Stephen F. King, Christoph Luhn, JHEP 1602 (2016) 118, arXiv:1511.07886.
[Dimou:2015yng]
[7-685]
A Model of Neutrinos, Alan Chodos, arXiv:1511.06745, 2015.
[Chodos:2015oaj]
[7-686]
Electroweak Absolute, Meta-, and Thermal Stability in Neutrino Mass Models, Manfred Lindner, Hiren H. Patel, Branimir Radovcic, Phys. Rev. D93 (2016) 073005, arXiv:1511.06215.
[Lindner:2015qva]
[7-687]
A Model of Quark and Lepton Mixing and Mass Hierarchy, S.M. Barr, Heng-Yu Chen, Phys. Rev. D93 (2016) 053009, arXiv:1511.05989.
[Barr:2015rrm]
[7-688]
SO(10) models with flavour symmetries: Classification and examples, I. P. Ivanov, L. Lavoura, J. Phys. G43 (2016) 105005, arXiv:1511.02720.
[Ivanov:2015xss]
[7-689]
Gauge coupling unification in a classically scale invariant model, Naoyuki Haba, Hiroyuki Ishida, Ryo Takahashi, Yuya Yamaguchi, JHEP 02 (2016) 058, arXiv:1511.02107.
[Haba:2015nwl]
[7-690]
The Inert Zee Model, Robinson Longas, Dilia Portillo, Diego Restrepo, Oscar Zapata, JHEP 1603 (2016) 162, arXiv:1511.01873.
[Longas:2015sxk]
[7-691]
Gauge-Higgs Grand Unification, Yutaka Hosotani, Naoki Yamatsu, PoS PLANCK2015 (2015) 058, arXiv:1511.01674. 10 pages, 3 figures, Proceeding for Planck 2015.
[Hosotani:2015wmb]
[7-692]
A common origin of $R_K$ and neutrino masses, Heinrich Pas, Erik Schumacher, Phys. Rev. D92 (2015) 114025, arXiv:1510.08757.
[Pas:2015hca]
[7-693]
Quark and Lepton Mass Matrix Model with Only Six Family-Independent Parameters, Yoshio Koide, Hiroyuki Nishiura, Phys. Rev. D92 (2015) 111301, arXiv:1510.05370.
[Koide:2015hya]
[7-694]
Neutrino-axion-dilaton interconnection, Stefano Bertolini, Luca Di Luzio, Helena Kolesova, Michal Malinsky, Juan Carlos Vasquez, Phys. Rev. D93 (2016) 015009, arXiv:1510.03668.
[Bertolini:2015boa]
[7-695]
Generalized CP and $\Delta(3n^2)$ Family Symmetry for Semi-Direct Predictions of the PMNS Matrix, Gui-Jun Ding, Stephen F. King, Phys. Rev. D93 (2016) 025013, arXiv:1510.03188.
[Ding:2015rwa]
[7-696]
Flavour symmetries in a renormalizable SO(10) model, P.M. Ferreira, W. Grimus, D. Jurciukonis, L. Lavoura, Nucl. Phys. B906 (2016) 289-320, arXiv:1510.02641.
[Ferreira:2015jpa]
[7-697]
Neutrino Mixing: $A_4$ Variations, Ernest Ma, Phys. Lett. B752 (2016) 198-200, arXiv:1510.02501.
[Ma:2015fpa]
[7-698]
Higgs Triplet Model with Classically Conformal Invariance, Hiroshi Okada, Yuta Orikasa, Kei Yagyu, arXiv:1510.00799, 2015.
[Okada:2015gia]
[7-699]
Discrete symmetries and mixing of Dirac neutrinos, Arman Esmaili, Alexei Yu. Smirnov, Phys. Rev. D92 (2015) 093012, arXiv:1510.00344.
[Esmaili:2015pna]
[7-700]
$\nu$DFSZ: a technically natural non-supersymmetric model of neutrino masses, baryogenesis, the strong CP problem, and dark matter, Jackson D. Clarke, Raymond R. Volkas, Phys. Rev. D93 (2016) 035001, arXiv:1509.07243.
[Clarke:2015bea]
[7-701]
A modified Friedberg-Lee symmetry for the TM1 neutrino mixing, Zhen-hua Zhao, Phys. Rev. D92 (2015) 113001, arXiv:1509.06915.
[Zhao:2015bza]
[7-702]
Hidden $U(1)_Y$ Ward-Takahashi identities, absence of Brout-Englert-Higgs fine-tuning, decoupling of certain heavy particles, due to spontaneous symmetry breaking II: The Abelian Higgs model (AHM), extended-AHM, derivations and examples, Bryan W. Lynn, Glenn D. Starkman, Phys.Rev. D96 (2017) 065003, arXiv:1509.06471.
[Lynn:2015ysa]
[7-703]
Global $SU(3)_C x SU(2)_L x U(1)_Y$ linear sigma model with Standard Model fermions: axial-vector Ward Takahashi identities, the absence of Higgs mass fine tuning, and the decoupling of certain heavy particles, due to the Goldstone theorem, Bryan W. Lynn, Glenn D. Starkman, Phys.Rev. D96 (2017) 065006, arXiv:1509.06199.
[Lynn:2015bla]
[7-704]
Running Non-Minimal Inflation with Stabilized Inflaton Potential, Nobuchika Okada, Digesh Raut, PoS DSU2015 (2016) 013, arXiv:1509.04439.
[Okada:2015lia]
[7-705]
Two-loop Neutrino Model with Exotic Leptons, Hiroshi Okada, Yuta Orikasa, Phys. Rev. D93 (2016) 013008, arXiv:1509.04068.
[Okada:2015nca]
[7-706]
Quasi-localized wavefunctions on magnetized tori and tiny neutrino Yukawa couplings, Keigo Sumita, JHEP 01 (2016) 067, arXiv:1509.03392.
[Sumita:2015sta]
[7-707]
A left-right symmetric flavor symmetry model, Werner Rodejohann, Xun-Jie Xu, Eur.Phys.J. C76 (2016) 138, arXiv:1509.03265.
[Rodejohann:2015hka]
[7-708]
Obstacles to extending R-parity violation to Supersymmetric SU(5), Najimuddin Khan, Subhendu Rakshit, Amitava Raychaudhuri, arXiv:1509.01516, 2015.
[Khan:2015dxa]
[7-709]
Electroweak vacuum stability in classically conformal $B-L$ extension of the Standard Model, Arindam Das, Nobuchika Okada, Nathan Papapietro, Eur.Phys.J. C77 (2017) 122, arXiv:1509.01466.
[Das:2015nwk]
[7-710]
Non-Hermitian extension of gauge theories and implications for neutrino physics, Jean Alexandre, Carl M. Bender, Peter Millington, JHEP 11 (2015) 111, arXiv:1509.01203.
[Alexandre:2015kra]
[7-711]
R-Parity Conserving Supersymmetric Extension of the Zee Model, Shinya Kanemura, Tetsuo Shindou, Hiroaki Sugiyama, Phys. Rev. D92 (2015) 115001, arXiv:1508.05616.
[Kanemura:2015maa]
[7-712]
The model that predicts the maximal 2-3 mixing and CP violation for neutrinos is revisited, Eiichi Takasugi, PTEP 2015 (2015) 113B04, arXiv:1508.04867.
[Takasugi:2015bja]
[7-713]
A Radiative Model for the Weak Scale and Neutrino Mass via Dark Matter, Amine Ahriche, Kristian L. McDonald, Salah Nasri, JHEP 02 (2016) 038, arXiv:1508.02607.
[Ahriche:2015loa]
[7-714]
$T_7$ flavor symmetry scheme for understanding neutrino mass and mixing in 3-3-1 model with neutral leptons, V.V. Vien, Mod. Phys. Lett. A29 (2014) 28, arXiv:1508.02585.
[Vien:2014yyb]
[7-715]
A new radiative neutrino mass generation mechanism with higher dimensional scalar representations and custodial symmetry, Alfredo Aranda, Eduardo Peinado, Phys. Lett. B754 (2016) 11-13, arXiv:1508.01200.
[Aranda:2015xoa]
[7-716]
Three-loop Neutrino Mass Model with Doubly Charged Particles from Iso-Doublets, Hiroshi Okada, Kei Yagyu, Phys. Rev. D93 (2016) 013004, arXiv:1508.01046.
[Okada:2015hia]
[7-717]
A Complete Analysis of $\mathsf{B-L=-2}$ Operators from Matter-Higgs Interactions in a Class of Supersymmetric $\mathsf{SO(10)}$ Models, Pran Nath, Raza M. Syed, Phys. Rev. D93 (2016) 055005, arXiv:1508.00585.
[Nath:2015kaa]
[7-718]
Generating $\theta_{13}$ from sterile neutrinos in $\mu- \tau$ symmetric models, Diana C. Rivera-Agudelo, Abdel Perez-Lorenzana, Phys. Rev. D92 (2015) 073009, arXiv:1507.07030.
[Rivera-Agudelo:2015vza]
[7-719]
Predictions for Leptonic Mixing Angle Correlations and Non-trivial Dirac CP Violation from $A_5$ with Generalised CP Symmetry, Jessica Turner, Phys. Rev. D92 (2015) 116007, arXiv:1507.06224.
[Turner:2015uta]
[7-720]
Pure Gravity Mediation and Spontaneous B-L Breaking from Strong Dynamics, Kaladi S. Babu, Kai Schmitz, Tsutomu T. Yanagida, Nucl. Phys. B905 (2016) 73-95, arXiv:1507.04467.
[Babu:2015xba]
[7-721]
Gauge $B-L$ Model with Residual $Z_3$ Symmetry, Ernest Ma, Nicholas Pollard, Rahul Srivastava, Mohammadreza Zakeri, Phys. Lett. B750 (2015) 135-138, arXiv:1507.03943.
[Ma:2015mjd]
[7-722]
Lepton mixing from the hidden sector, P.O. Ludl, A.Yu. Smirnov, Phys. Rev. D92 (2015) 073010, arXiv:1507.03494.
[Ludl:2015tha]
[7-723]
Connecting Neutrino Masses and Dark Matter by High-dimensional Lepton Number Violation Operator, Chao-Qiang Geng, Da Huang, Lu-Hsing Tsai, Qing Wang, JHEP 08 (2015) 141, arXiv:1507.03455.
[Geng:2015qha]
[7-724]
Neutrino Mixing from CP Symmetry, Peng Chen, Chang-Yuan Yao, Gui-Jun Ding, Phys. Rev. D92 (2015) 073002, arXiv:1507.03419.
[Chen:2015nha]
[7-725]
A Three Loop Neutrino Model with Isolated $k^{\pm\pm}$, Kenji Nishiwaki, Hiroshi Okada, Yuta Orikasa, Phys. Rev. D92 (2015) 093013, arXiv:1507.02412.
[Nishiwaki:2015iqa]
[7-726]
The Conformal Standard Model, Adam Latosinski, Adrian Lewandowski, Krzysztof A. Meissner, Hermann Nicolai, JHEP 10 (2015) 170, arXiv:1507.01755.
[Latosinski:2015pba]
[7-727]
Generalized $\mu$-$\tau$ symmetry and discrete subgroups of O(3), Anjan S. Joshipura, Ketan M. Patel, Phys. Lett. B749 (2015) 159-166, arXiv:1507.01235.
[Joshipura:2015dsa]
[7-728]
Relating Lepton Mixing Angles with Lepton Mass Hierarchy, Debasish Borah, Int. J. Mod. Phys. A31 (2016) 1650002, arXiv:1507.00960.
[Borah:2015sea]
[7-729]
New Chiral Fermions, a New Gauge Interaction, Dirac Neutrinos, and Dark Matter, Andre de Gouvea, Daniel Hernandez, JHEP 10 (2015) 046, arXiv:1507.00916.
[deGouvea:2015pea]
[7-730]
A realistic pattern of fermion masses from a five-dimensional SO(10) model, Ferruccio Feruglio, Ketan M. Patel, Denise Vicino, JHEP 09 (2015) 040, arXiv:1507.00669.
[Feruglio:2015iua]
[7-731]
$\Delta(27)$ family symmetry and neutrino mixing, Ivo de Medeiros Varzielas, JHEP 08 (2015) 157, arXiv:1507.00338.
[deMedeirosVarzielas:2015amz]
[7-732]
Lepton mixing and CP violation phase in the 3-3-1 model with neutral leptons based on T13 flavor symmetry, V.V. Vien, Braz. J. Phys. 45 (2015) 467-480, arXiv:1506.07388.
[VanVien:2015cnm]
[7-733]
Condensed state of heavy vectorlike neutrinos, M. B. Voloshin, Phys. Rev. Lett. 115 (2015) 091802, arXiv:1506.04096.
[Voloshin:2015ona]
[7-734]
Generalized perturbations in neutrino mixing, Jiajun Liao, D. Marfatia, K. Whisnant, Phys. Rev. D92 (2015) 073004, arXiv:1506.03013.
[Liao:2015rma]
[7-735]
Is the Higgs Boson Composed of Neutrinos?, Jens Krog, Christopher T. Hill, Phys. Rev. D92 (2015) 093005, arXiv:1506.02843.
[Krog:2015cna]
[7-736]
High scale mixing relations as a natural explanation for large neutrino mixing, Gauhar Abbas, Mehran Zahiri Abyaneh, Aritra Biswas, Saurabh Gupta, Monalisa Patra et al., Int.J.Mod.Phys. A31 (2016) 1650095, arXiv:1506.02603.
[Abbas:2015vba]
[7-737]
Neutrino masses and mixing from flavour antisymmetry, Anjan S. Joshipura, JHEP 11 (2015) 186, arXiv:1506.00455.
[Joshipura:2015zla]
[7-738]
Unifying the electroweak and B-L interactions, P.V. Dong, Phys. Rev. D92 (2015) 055026, arXiv:1505.06469.
[Dong:2015yra]
[7-739]
Constrained inflaton due to a complex scalar, Romy H. S. Budhi, Shoichi Kashiwase, Daijiro Suematsu, JCAP 1509 (2015) 039, arXiv:1505.05955.
[Budhi:2015fla]
[7-740]
The Framed Standard Model (I) - A Physics Case for Framing the Yang-Mills Theory?, HM Chan, ST Tsou, Int.J.Mod.Phys. A30 (2015) 1530059, arXiv:1505.05472.
[Chan:2015aka]
[7-741]
Dimension Seven Operators in Standard Model with Right handed Neutrinos, Subhaditya Bhattacharya, Jose Wudka, Phys. Rev. D94 (2016) 055022, arXiv:1505.05264.
[Bhattacharya:2015vja]
[7-742]
Lepton and Quark Mixing Patterns from Finite Flavor Symmetries, Chang-Yuan Yao, Gui-Jun Ding, Phys. Rev. D92 (2015) 096010, arXiv:1505.03798.
[Yao:2015dwa]
[7-743]
$SU(3)_{F}$ Gauge Family Model and New Symmetry Breaking Scale From FCNC Processes, Shou-Shan Bao, Zhuo Liu, Yue-Liang Wu, Nucl. Phys. B904 (2016) 1-17, arXiv:1505.03583.
[Bao:2015pva]
[7-744]
The minimal 3-3-1 model with a spectator sextet, G. De Conto, A. C. B. Machado, V. Pleitez, Phys. Rev. D92 (2015) 075031, arXiv:1505.01343.
[DeConto:2015eia]
[7-745]
Dynamical R-parity violations from exotic instantons, Andrea Addazi, Electron.J.Theor.Phys. 13 (2016) 39-56, arXiv:1505.00625.
[Addazi:2015fua]
[7-746]
Stueckelberg model and Composite Z', Michio Hashimoto, arXiv:1504.08180, 2015.
[Hashimoto:2015vba]
[7-747]
A TeV Scale Model for Baryon and Lepton Number Violation and Resonant Baryogenesis, P. S. Bhupal Dev, Rabindra N. Mohapatra, Phys. Rev. D92 (2015) 016007, arXiv:1504.07196.
[Dev:2015uca]
[7-748]
Classically conformal U(1)$^\prime$ extended Standard Model and Higgs vacuum stability, Satsuki Oda, Nobuchika Okada, Dai-suke Takahashi, Phys. Rev. D92 (2015) 015026, arXiv:1504.06291.
[Oda:2015gna]
[7-749]
A Model of Neutrino Mass and Dark Matter with an Accidental Symmetry, Amine Ahriche, Kristian L. McDonald, Salah Nasri, Takashi Toma, Phys.Lett. B746 (2015) 430-435, arXiv:1504.05755.
[Ahriche:2015wha]
[7-750]
Comment on 'A three-loop radiative neutrino mass model with dark matter' [Phys. Lett. B 741 (2015) 163], Chao-Qiang Geng, Da Huang, Lu-Hsing Tsai, Phys.Lett. B745 (2015) 56-57, arXiv:1504.05468.
[Geng:2015coa]
[7-751]
Naturalness redux, Marco Fabbrichesi, Alfredo Urbano, Phys. Rev. D92 (2015) 015028, arXiv:1504.05403.
[Fabbrichesi:2015zna]
[7-752]
Electroweak standard model with very special relativity, Jorge Alfaro, Pablo Gonzalez, Ricardo Avila, Phys. Rev. D91 (2015) 105007, arXiv:1504.04222.
[Alfaro:2015fha]
[7-753]
Neutrino Masses from Neutral Top Partners, Brian Batell, Matthew McCullough, Phys. Rev. D92 (2015) 073018, arXiv:1504.04016.
[Batell:2015aha]
[7-754]
Anomaly-safe discrete groups, Mu-Chun Chen, Maximilian Fallbacher, Michael Ratz, Andreas Trautner, Patrick K.S. Vaudrevange, Phys.Lett. B747 (2015) 22-26, arXiv:1504.03470.
[Chen:2015aba]
[7-755]
Fermion Masses and Mixing in General Warped Extra Dimensional Models, Mariana Frank, Cherif Hamzaoui, Nima Pourtolami, Manuel Toharia, Phys. Rev. D91 (2015) 116001, arXiv:1504.02780.
[Frank:2015sua]
[7-756]
Transformative $A_4$ Mixing of Neutrinos with CP Violation, Ernest Ma, Phys. Rev. D92 (2015) 051301, arXiv:1504.02086.
[Ma:2015pma]
[7-757]
A Model of Neutrino Mass Matrix With $\delta= -\pi/2$ and $\theta_{23} = \pi/4$, Xiao-Gang He, Chin.J. Phys. 53 (2015) 100101, arXiv:1504.01560.
[He:2015afa]
[7-758]
A Minimal Supersymmetric $\mathrm{E}_6$ Unified Theory, K. S. Babu, Borut Bajc, Vasja Susic, JHEP 1505 (2015) 108, arXiv:1504.00904.
[Babu:2015psa]
[7-759]
Anthropic Origin of the Neutrino Mass from Cooling Failure, Raphael Bousso, Dan Mainemer Katz, Claire Zukowski, Phys. Rev. D92 (2015) 025037, arXiv:1504.00677.
[Bousso:2015zqa]
[7-760]
Majorana neutrinos with point interactions, Chengfeng Cai, Hong-Hao Zhang, Phys. Rev. D93 (2016) 036003, arXiv:1503.08805.
[Cai:2015jla]
[7-761]
Study of Two-Loop Neutrino Mass Generation Models, Chao-Qiang Geng, Lu-Hsing Tsai, Annals Phys. 365 (2016) 210-222, arXiv:1503.06987.
[Geng:2015sza]
[7-762]
Stability and symmetry breaking in a three Higgs-boson doublet model with lepton family symmetry O(2)xZ2, M. Maniatis, D. Mehta, Carlos M. Reyes, Phys. Rev. D92 (2015) 035017, arXiv:1503.05948.
[Maniatis:2015kma]
[7-763]
A Modest Revision of the Standard Model, Jr. G. J. Stephenson, T. Goldman, arXiv:1503.04211, 2015.
[Stephenson:2015ega]
[7-764]
Towards a complete $A_4 \times SU(5)$ SUSY GUT, Fredrik Bjorkeroth, Francisco J. de Anda, Ivo de Medeiros Varzielas, Stephen F. King, JHEP 1506 (2015) 141, arXiv:1503.03306.
[Bjorkeroth:2015ora]
[7-765]
Towards unity of families: A string perspective, Jihn E. Kim, JHEP 1506 (2015) 114, arXiv:1503.03104.
[Kim:2015mpa]
[7-766]
R-parity violation in SU(5), Borut Bajc, Luca Di Luzio, JHEP 07 (2015) 123, arXiv:1502.07968.
[Bajc:2015zja]
[7-767]
Parity Problem of the Scotogenic Neutrino Model, Alexander Merle, Moritz Platscher, Phys. Rev. D92 (2015) 095002, arXiv:1502.03098.
[Merle:2015gea]
[7-768]
New texture-zero models for lepton mixing, L. Lavoura, J. Phys. G42 (2015) 105004, arXiv:1502.03008.
[Lavoura:2015wwa]
[7-769]
Derivation of Dark Matter Parity from Lepton Parity, Ernest Ma, Phys. Rev. Lett. 115 (2015) 011801, arXiv:1502.02200.
[Ma:2015xla]
[7-770]
The hidden symmetries in the PMNS matrix and the light sterile neutrino(s), Hong-Wei Ke, Jia-Hui Zhou, Shuai Chen, Tan Liu, Xue-Qian Li, Mod. Phys. Lett. A30 (2015) 1550136, arXiv:1502.00875.
[Ke:2015xka]
[7-771]
Linking Leptonic CP violation to Quark Unitarity Triangle, Morimitsu Tanimoto, Kei Yamamoto, JHEP 1504 (2015) 037, arXiv:1501.07717.
[Tanimoto:2015hqa]
[7-772]
A minimal and predictive $T_7$ lepton flavor 331 model, A. E. Carcamo Hernandez, R. Martinez, J. Phys. G43 (2016) 045003, arXiv:1501.07261.
[CarcamoHernandez:2015fan]
[7-773]
Resonant and nonresonant new phenomena of four-fermion operators for experimental searches, She-Sheng Xue, Phys.Lett. B744 (2015) 88-94, arXiv:1501.06844.
[Xue:2015vea]
[7-774]
Lepton masses and mixings in a $331$ model with $A_4$ flavour symmetry, A. E. Carcamo Hernandez, Roberto Martinez, Nucl. Phys. B905 (2016) 337-358, arXiv:1501.05937.
[CarcamoHernandez:2015rmj]
[7-775]
A Bottom-Up Approach to Lepton Flavor and CP Symmetries, Lisa L. Everett, Todd Garon, Alexander J. Stuart, JHEP 1504 (2015) 069, arXiv:1501.04336.
[Everett:2015oka]
[7-776]
On neutrino and charged lepton masses and mixings: A view from the electroweak-scale right-handed neutrino model, P. Q. Hung, Trinh Le, JHEP 09 (2015) 001, arXiv:1501.02538.
[Hung:2015nva]
[7-777]
A three-loop radiative neutrino mass model with dark matter, Li-Gang Jin, Rui Tang, Fei Zhang, Phys.Lett. B741 (2015) 163, arXiv:1501.02020.
[Jin:2014glp]
[7-778]
Flavour Dependent Gauged Radiative Neutrino Mass Model, Seungwon Baek, Hiroshi Okada, Kei Yagyu, JHEP 1504 (2015) 049, arXiv:1501.01530.
[Baek:2015mna]
[7-779]
A Three-Loop Neutrino Model with Global $U(1)$ Symmetry, Hisaki Hatanaka, Kenji Nishiwaki, Hiroshi Okada, Yuta Orikasa, Nucl. Phys. B894 (2015) 268-283, arXiv:1412.8664.
[Hatanaka:2014tba]
[7-780]
Lepton Flavor Mixing and CP Symmetry, Peng Chen, Cai-Chang Li, Gui-Jun Ding, Phys. Rev. D91 (2015) 033003, arXiv:1412.8352.
[Chen:2014wxa]
[7-781]
Corrections to Scaling Neutrino Mixing: Non-zero $\theta_{13}, \delta_{CP}$ and Baryon Asymmetry, Rupam Kalita, Debasish Borah, Mrinal Kumar Das, Nucl. Phys. B894 (2015) 307-327, arXiv:1412.8333.
[Kalita:2014vxa]
[7-782]
Why are there three generations of fermions in the standard model?, Amir H. Fariborz, Renata Jora, Joseph Schechter, arXiv:1412.7658, 2014.
[Fariborz:2014tpa]
[7-783]
Massive neutrinos and invisible axion minimally connected, Stefano Bertolini, Luca Di Luzio, Helena Kolesova, Michal Malinsky, Phys. Rev. D91 (2015) 055014, arXiv:1412.7105.
[Bertolini:2014aia]
[7-784]
A Light Z' Heterotic-String Derived Model, Alon E. Faraggi, John Rizos, Nucl. Phys. B895 (2015) 233-247, arXiv:1412.6432.
[Faraggi:2014ica]
[7-785]
Neutrino masses, the $\mu$-term and $\mathcal{ PSL}_2(7)$, Gaoli Chen, M. Jay Perez, Pierre Ramond, Phys. Rev. D92 (2015) 076006, arXiv:1412.6107.
[Chen:2014wiw]
[7-786]
Dynamical flavor origin of $\mathbb{Z}_N$ symmetries, D. Aristizabal Sierra, Mikael Dhen, Chee Sheng Fong, Avelino Vicente, Phys. Rev. D91 (2015) 096004, arXiv:1412.5600.
[AristizabalSierra:2014irc]
[7-787]
The right generations, Alfredo Aranda, Jose A. R. Cembranos, arXiv:1412.4836, 2014.
[Aranda:2014kea]
[7-788]
Classically Conformal Radiative Neutrino Model with Gauged B-L Symmetry, Hiroshi Okada, Yuta Orikasa, Phys.Lett. B760 (2016) 558-564, arXiv:1412.3616.
[Okada:2014nea]
[7-789]
Standard Model Fermions and N=8 supergravity, Krzysztof A. Meissner, Hermann Nicolai, Phys.Rev.D 91 (2015) 065029, arXiv:1412.1715.
[Meissner:2014joa]
[7-790]
Systematic classification of two-loop realizations of the Weinberg operator, D. Aristizabal Sierra, A. Degee, L. Dorame, M. Hirsch, JHEP 1503 (2015) 040, arXiv:1411.7038.
[AristizabalSierra:2014wal]
[7-791]
Syndetic Model of Fundamental Interactions, Ernest Ma, Phys.Lett. B741 (2015) 202-204, arXiv:1411.6679.
[Ma:2014yka]
[7-792]
Exploring variations in the gauge sector of a six-dimensional flavour model, Jean-Marie Frere, Maxim Libanov, Simon Mollet, Sergey Troitsky, Zh.Eksp.Teor.Fiz. 147 (2015) 438-443, arXiv:1411.6539.
[Frere:2014afa]
[7-793]
Common Origin of Active and Sterile Neutrino Masses with Dark Matter, Rathin Adhikari, Debasish Borah, Ernest Ma, arXiv:1411.4602, 2014.
[Adhikari:2014nea]
[7-794]
Self-Interacting Dark Matter through the Higgs Portal, Chris Kouvaris, Ian M. Shoemaker, Kimmo Tuominen, Phys. Rev. D91 (2015) 043519, arXiv:1411.3730.
[Kouvaris:2014uoa]
[7-795]
Fermion mass and mixing hierarchy in an $SU(5)$ grand unified model with extra flavour symmetries, A. E. Carcamo Hernandez, Sergey Kovalenko, Ivan Schmidt, arXiv:1411.2913, 2014.
[CarcamoHernandez:2014ety]
[7-796]
The Multiple Point Principle of the Standard Model with Scalar Singlet Dark Matter and Right Handed Neutrinos, Kiyoharu Kawana, PTEP 2015 (2014) 023B04, arXiv:1411.2097.
[Kawana:2014zxa]
[7-797]
New textures for the lepton mass matrices, P.M. Ferreira, L. Lavoura, Nucl. Phys. B891 (2015) 378-400, arXiv:1411.0693.
[Ferreira:2014vna]
[7-798]
Small neutrino masses and gauge coupling unification, Sofiane M. Boucenna, Renato M. Fonseca, Felix Gonzalez-Canales, Jose W.F. Valle, Phys. Rev. D91 (2015) 031702, arXiv:1411.0566.
[Boucenna:2014dia]
[7-799]
Leptonic $CP$ violating Phase in the Yukawaon Model, Yoshio Koide, Hiroyuki Nishiura, Phys. Rev. D90 (2014) 117903, arXiv:1410.8653.
[Koide:2014oxa]
[7-800]
Loop-induced Neutrino Masses: A Case Study, Chao-Qiang Geng, Da Huang, Lu-Hsing Tsai, Phys. Rev. D90 (2014) 113005, arXiv:1410.7606.
[Geng:2014gua]
[7-801]
The Fermion Content of the Standard Model, Paul Mansfield, Phys.Lett. B743 (2015) 353-356, arXiv:1410.7298.
[Mansfield:2014vea]
[7-802]
The Cabibbo angle as a universal seed for quark and lepton mixings, S. Roy, S. Morisi, N.N. Singh, J.W.F. Valle, Phys.Lett. B748 (2015) 1-4, arXiv:1410.3658.
[Roy:2014nua]
[7-803]
An SU(5) x A5 Golden Ratio Flavour Model, Julia Gehrlein, Jens P. Oppermann, Daniela Schafer, Martin Spinrath, Nucl. Phys. B890 (2014) 539-568, arXiv:1410.2057.
[Gehrlein:2014wda]
[7-804]
Flavored Peccei-Quinn symmetry, Y. H. Ahn, Phys. Rev. D91 (2015) 056005, arXiv:1410.1634.
[Ahn:2014gva]
[7-805]
Generalised CP and $\Delta(6n^2)$ Family Symmetry in Semi-Direct Models of Leptons, Gui-Jun Ding, Stephen F. King, Thomas Neder, JHEP 1412 (2014) 007, arXiv:1409.8005.
[Ding:2014ora]
[7-806]
[Re]constructing Finite Flavour Groups: Horizontal Symmetry Scans from the Bottom-Up, Jim Talbert, JHEP 1412 (2014) 058, arXiv:1409.7310.
[Talbert:2014bda]
[7-807]
Stable fermion mass matrices and the charged lepton contribution to neutrino mixing, David Marzocca, Andrea Romanino, JHEP 1411 (2014) 159, arXiv:1409.3760.
[Marzocca:2014tga]
[7-808]
SU(2)_N Model of Vector Dark Matter with a Leptonic Connection, Sean Fraser, Ernest Ma, Mohammadreza Zakeri, Int.J.Mod.Phys. A30 (2015) 0018, arXiv:1409.1162.
[Fraser:2014yga]
[7-809]
Lepton Mixing from Delta (3 n^2) and Delta (6 n^2) and CP, C. Hagedorn, A. Meroni, E. Molinaro, Nucl. Phys. B891 (2015) 499-557, arXiv:1408.7118.
[Hagedorn:2014wha]
[7-810]
Unbroken B-L Symmetry, Julian Heeck, Phys.Lett. B739 (2014) 256-262, arXiv:1408.6845.
[Heeck:2014zfa]
[7-811]
The Geometry of Generations, Yang-Hui He, Vishnu Jejjala, Cyril Matti, Brent D. Nelson, Michael Stillman, Commun.Math.Phys. 339 (2015) 149-190, arXiv:1408.6841.
[He:2014oha]
[7-812]
Inert Extension of the Zee-Babu Model, Hiroshi Okada, Takashi Toma, Kei Yagyu, Phys. Rev. D90 (2014) 095005, arXiv:1408.0961.
[Okada:2014qsa]
[7-813]
Deviation from Bimaximal Mixing and Leptonic CP Phases in $S_4$ Family Symmetry and Generalized CP, Cai-Chang Li, Gui-Jun Ding, JHEP 08 (2015) 017, arXiv:1408.0785.
[Li:2014eia]
[7-814]
Vacuum Stability in U(1)-Prime Extensions of the Standard Model with TeV Scale Right Handed Neutrinos, Claudio Coriano, Luigi Delle Rose, Carlo Marzo, Phys.Lett. B738 (2014) 13-19, arXiv:1407.8539.
[Coriano:2014mpa]
[7-815]
A covariantly foliated higher dimensional space-time: Implications for short distance gravity and BSM physics, Cao H. Nam, arXiv:1407.8493, 2014.
[Nam:2014ypa]
[7-816]
Lepton masses and mixing in $SU\left( 3\right) _{C}\otimes SU\left(3\right) _{L}\otimes U\left( 1\right) _{X}$ models with a $S_3$ flavor symmetry, A. E. Carcamo Hernandez, E. Catano Mur, R. Martinez, Phys. Rev. D90 (2014) 073001, arXiv:1407.5217.
[CarcamoHernandez:2014wdl]
[7-817]
Phase Locked Inflation - Effectively Trans-Planckian Natural Inflation, Keisuke Harigaya, Masahiro Ibe, JHEP 1411 (2014) 147, arXiv:1407.4893.
[Harigaya:2014rga]
[7-818]
Lepton Mixing, Residual Symmetries, and Trigonometric Diophantine Equations, Bo Hu, Phys. Rev. D90 (2014) 073012, arXiv:1407.4722.
[Hu:2014kca]
[7-819]
Order and Anarchy hand in hand in 5D SO(10), Ferruccio Feruglio, Ketan M. Patel, Denise Vicino, JHEP 1409 (2014) 095, arXiv:1407.2913.
[Feruglio:2014jla]
[7-820]
Effective Aligned 2HDM with a DFSZ-like invisible axion, Alejandro Celis, Javier Fuentes-Martin, Hugo Serodio, Phys.Lett. B737 (2014) 185-190, arXiv:1407.0971.
[Celis:2014zaa]
[7-821]
A to Z of Flavour with Pati-Salam, Stephen F. King, JHEP 1408 (2014) 130, arXiv:1406.7005.
[King:2014iia]
[7-822]
Fermion masses and mixing in $\Delta(27)$ flavour model, Mohammed Abbas, Shaaban Khalil, Phys. Rev. D91 (2015) 053003, arXiv:1406.6716.
[Abbas:2014ewa]
[7-823]
Discrete Family Symmetry from F-Theory GUTs, Athanasios Karozas, Stephen F. King, George K. Leontaris, Andrew Meadowcroft, JHEP 1409 (2014) 107, arXiv:1406.6290.
[Karozas:2014aha]
[7-824]
Towards the Standard Model in F-theory, Ling Lin, Timo Weigand, Fortsch.Phys. 63 (2015) 55-104, arXiv:1406.6071.
[Lin:2014qga]
[7-825]
A Minimal Model of Majoronic Dark Radiation and Dark Matter, We-Fu Chang, John N. Ng, Phys. Rev. D90 (2014) 065034, arXiv:1406.4601.
[Chang:2014lxa]
[7-826]
A complete survey of texture zeros in the lepton mass matrices, Patrick Otto Ludl, Walter Grimus, JHEP 1407 (2014) 090, arXiv:1406.3546.
[Ludl:2014axa]
[7-827]
Unified Flavor Symmetry from warped dimensions, Mariana Frank, Cherif Hamzaoui, Nima Pourtolami, Manuel Toharia, Phys.Lett. B742 (2015) 178-182, arXiv:1406.2331.
[Frank:2014aca]
[7-828]
A Microscopic Approach to Quark and Lepton Masses and Mixings, Bodo Lampe, Int.J.Mod.Phys. A30 (2015) 0025, arXiv:1405.6604.
[Lampe:2014cfa]
[7-829]
Neutrino Masses and Conformal Electro-Weak Symmetry Breaking, Manfred Lindner, Steffen Schmidt, Juri Smirnov, JHEP 1410 (2014) 177, arXiv:1405.6204.
[Lindner:2014oea]
[7-830]
Realization of lepton masses and mixing angles from point interactions in an extra dimension, Yukihiro Fujimoto, Kenji Nishiwaki, Makoto Sakamoto, Ryo Takahashi, JHEP 1410 (2014) 191, arXiv:1405.5872.
[Fujimoto:2014fka]
[7-831]
Democratic Neutrino Theory, Dmitry Zhuridov, arXiv:1405.5522, 2014.
[Zhuridov:2014vfa]
[7-832]
Higgs sector in NMSSM with right-handed neutrinos and spontaneous R-parity violation, Katri Huitu, Harri Waltari, JHEP 1411 (2014) 053, arXiv:1405.5330.
[Huitu:2014lfa]
[7-833]
Universal Bilinear Form of Quark and Lepton Mass Matrices, Yoshio Koide, Hiroyuki Nishiura, Phys. Rev. D90 (2014) 016009, arXiv:1405.0069.
[Koide:2014nxa]
[7-834]
Right-Handed Neutrinos as the Origin of the Electroweak Scale, Hooman Davoudiasl, Ian M. Lewis, Phys. Rev. D90 (2014) 033003, arXiv:1404.6260.
[Davoudiasl:2014pya]
[7-835]
Neutrino mass and mixing in the 3-3-1 model and S3 flavor symmetry with minimal Higgs content, V. V. Vien, H.N.Long, Sov.Phys.JETP 145 (2014) 991-1009, arXiv:1404.6119.
[Vien:2014vka]
[7-836]
A Class of Three-Loop Models with Neutrino Mass and Dark Matter, Chian-Shu Chen, Kristian L. McDonald, Salah Nasri, Phys.Lett. B734 (2014) 388-393, arXiv:1404.6033.
[Chen:2014ska]
[7-837]
A Model of Radiative Neutrino Mass: with or without Dark Matter, Amine Ahriche, Kristian L. McDonald, Salah Nasri, JHEP 1410 (2014) 167, arXiv:1404.5917.
[Ahriche:2014oda]
[7-838]
Three sterile neutrinos in E6, Jonathan L. Rosner, Phys. Rev. D90 (2014) 035005, arXiv:1404.5198.
[Rosner:2014cha]
[7-839]
Neutrino Masses, Grand Unification, and Baryon Number Violation, Andre de Gouvea, Juan Herrero-Garcia, Andrew Kobach, Phys. Rev. D90 (2014) 016011, arXiv:1404.4057.
[deGouvea:2014lva]
[7-840]
Reactor mixing angle from hybrid neutrino masses, D. Aristizabal Sierra, I. de Medeiros Varzielas, JHEP 1407 (2014) 042, arXiv:1404.2529.
[AristizabalSierra:2014zeq]
[7-841]
Triplet-extended scalar sector and the naturalness problem, Indrani Chakraborty, Anirban Kundu, Phys. Rev. D89 (2014) 095032, arXiv:1404.1723.
[Chakraborty:2014xqa]
[7-842]
Nonzero $\theta_{13}$ in $SO(3) \rightarrow A_4$ lepton models, Yuval Grossman, Wee Hao Ng, Phys. Rev. D91 (2015) 073005, arXiv:1404.1413.
[Grossman:2014oqa]
[7-843]
Precise focusing in the focus point scenario toward the natural Higgs boson in the MSSM, Bumseok Kyae, Chang Sub Shin, Phys. Rev. D90 (2014) 035023, arXiv:1403.6527.
[Kyae:2014aka]
[7-844]
Radiative charged-lepton mass generation in multi-Higgs doublet models, F.R. Joaquim, J.T. Penedo, Phys. Rev. D90 (2014) 033011, arXiv:1403.4925.
[Joaquim:2014gba]
[7-845]
Past, Present, and Future Multi-Regge Theory, Alan R. White, arXiv:1403.4454, 2014.
[White:2014kwa]
[7-846]
Neutrino as topological Majorana zero modes: the origin of three generations of neutrinos and their mass mixing, Zheng-Cheng Gu, arXiv:1403.1869, 2014.
[Gu:2014wwa]
[7-847]
A predictive model of Dirac Neutrinos, Shreyashi Chakdar, Kirtiman Ghosh, S. Nandi, Phys.Lett. B734 (2014) 64-68, arXiv:1403.1544.
[Chakdar:2014ifa]
[7-848]
SU(5)xSU(5)' Twinification and D2 Parity. Model for Composite Leptons, Zurab Tavartkiladze, Phys. Rev. D90 (2014) 015022, arXiv:1403.0025.
[Tavartkiladze:2014lla]
[7-849]
Physical Origin of Elementary Particle Masses, Johan Hansson, Electron.J.Theor.Phys. 11 (2014) 87-100, arXiv:1402.7033.
[Hansson:2014cva]
[7-850]
Parallel Lepton Mass Matrices with Texture/Cofactor Zeros, Weijian Wang, Phys. Rev. D90 (2014) 033014, arXiv:1402.6808.
[Wang:2014vua]
[7-851]
SU(5) $\times$ $S_{4}$ GUT Flavor Model for Fermion masses and Mixing, Large $\theta^{PMNS}_{13}$, Ya Zhao, Peng-Fei Zhang, JHEP 1606 (2016) 032, arXiv:1402.5834.
[Zhao:2014qwa]
[7-852]
Contribution of right-handed neutrinos and standard fermions to W and Z masses, Petr Benes, Mod.Phys.Lett. A30 (2015) 1550094, arXiv:1402.5055.
[Benes:2014kna]
[7-853]
Flavor structure in D-brane models: Majorana neutrino masses, Yuta Hamada, Tatsuo Kobayashi, Shohei Uemura, JHEP 1405 (2014) 116, arXiv:1402.2052.
[Hamada:2014hpa]
[7-854]
The T7 flavor symmetry in 3-3-1 model with neutral leptons, V. V. Vien, H. N. Long, JHEP 1404 (2014) 133, arXiv:1402.1256.
[Vien:2014gza]
[7-855]
On Neutrino Masses in the MSSM with BRpV, Marco A. Diaz, Maximiliano Rivera, Nicolas Rojas, Nucl. Phys. B887 (2014) 338-357, arXiv:1401.7357.
[Diaz:2014jta]
[7-856]
A universal form for quark and neutrino mass matrices, Zheng-Cheng Gu, John Preskill, Phys. Rev. D92 (2015) 113005, arXiv:1401.6616.
[Gu:2014lva]
[7-857]
A massless neutrino and lepton mixing patterns from finite discrete subgroups of U(3), Anjan S. Joshipura, Ketan M. Patel, JHEP 1404 (2014) 009, arXiv:1401.6397.
[Joshipura:2014pqa]
[7-858]
Vanishing Higgs Quadratic Divergence in the Scotogenic Model and Beyond, Ernest Ma, Phys.Lett. B732 (2014) 167-168, arXiv:1401.3284.
[Ma:2014cfa]
[7-859]
An extended standard model and its Higgs geometry from the matrix model, Harold C. Steinacker, Jochen Zahn, PTEP 2014 (2014) 083B03, arXiv:1401.2020.
[Steinacker:2014fja]
[7-860]
Neutrino masses in RPV models with two pairs of Higgs doublets, Yuval Grossman, Clara Peset, JHEP 1404 (2014) 033, arXiv:1401.1818.
[Grossman:2014xia]
[7-861]
$Q_{6}$ As The Flavour Symmetry in a Non-minimal SUSY $SU(5)$ Model, J. C. Gomez-Izquierdo, F. Gonzalez Canales, M Mondragon, Eur.Phys.J. C75 (2015) 221, arXiv:1312.7385.
[Gomez-Izquierdo:2013uaa]
[7-862]
High Scale Mixing Unification for Dirac Neutrinos, Gauhar Abbas, Saurabh Gupta, G. Rajasekaran, Rahul Srivastava, Phys. Rev. D91 (2015) 111301, arXiv:1312.7384.
[Abbas:2013uqh]
[7-863]
On How Neutrino Protects the Axion, Gia Dvali, Sarah Folkerts, Andre Franca, Phys. Rev. D89 (2014) 105025, arXiv:1312.7273.
[Dvali:2013cpa]
[7-864]
The D_4 flavor symmery in 3-3-1 model with neutral leptons, V. V. Vien, H. N. Long, Int.J.Mod.Phys. A28 (2013) 1350159, arXiv:1312.5034.
[Vien:2013zra]
[7-865]
Generalised CP and Trimaximal TM$_1$ Lepton Mixing in $S_4$ Family Symmetry, Cai-Chang Li, Gui-Jun Ding, Nucl. Phys. B881 (2014) 206-232, arXiv:1312.4401.
[Li:2013jya]
[7-866]
Two Loop Neutrino Model and Dark Matter Particles with Global $B-L$ Symmetry, Seungwon Baek, Hirohi Okada, Takashi Toma, arXiv:1312.3761, 2013.
[Okada:2014vla]
[7-867]
Universality of Planck's constant and a constraint from the absence of hbar-induced neutrino mixing, Felipe J. Llanes-Estrada, arXiv:1312.3566, 2013.
[Llanes-Estrada:2013ofa]
[7-868]
Note about lepton masses and mixings in two Ansatze, Renata Jora, Joseph Schechter, M. Naeem Shahid, Mod.Phys.Lett. A29 (2014) 1450016, arXiv:1312.2308.
[Jora:2013yga]
[7-869]
Lower bound on neutrino mass and possible CP violation in neutrino oscillations, Rohit Verma, Phys. Rev. D88 (2013) 111301, arXiv:1311.7524.
[Verma:2013cza]
[7-870]
Neutrino Mass Textures and Partial $\mu$-$\tau$ Symmetry, E. I. Lashin, N. Chamoun, C. Hamzaoui, S. Nasri, Phys. Rev. D89 (2014) 093004, arXiv:1311.5869.
[Lashin:2013xha]
[7-871]
Majorana Physics Through the Cabibbo Haze, Jennifer Kile, M. Jay Perez, Pierre Ramond, Jue Zhang, JHEP 1402 (2014) 036, arXiv:1311.4553.
[Kile:2013gla]
[7-872]
Radiative Generation of the Lepton Mass, Hiroshi Okada, Kei Yagyu, Phys. Rev. D89 (2014) 053008, arXiv:1311.4360.
[Okada:2013iba]
[7-873]
A model of quark and lepton mixing, Stephen F. King, JHEP 1401 (2014) 119, arXiv:1311.3295.
[King:2013hoa]
[7-874]
Matter matters in asymptotically safe quantum gravity, Pietro Dona, Astrid Eichhorn, Roberto Percacci, Phys. Rev. D89 (2014) 084035, arXiv:1311.2898.
[Dona:2013qba]
[7-875]
Split-Family SUSY, $U(2)^5$ Flavour Symmetry and Neutrino Physics, Joel Jones-Perez, Eur.Phys.J. C74 (2014) 2772, arXiv:1311.1837.
[Jones-Perez:2013uma]
[7-876]
Common Radiative Origin of Active and Sterile Neutrino Masses, Debasish Borah, Rathin Adhikari, Phys.Lett. B729 (2014) 143, arXiv:1310.5419.
[Borah:2013waa]
[7-877]
Neutrino mass variability due to nonminimal coupling to spacetime curvature in neutrinophilic two-Higgs-doublet models, Roberto Onofrio, Physical Review D 86, 087501 (2012), arXiv:1310.5165.
[Onofrio:2012dzs]
[7-878]
Radiative Neutrino Mass with Scotogenic Scalar Triplet, Vedran Brdar, Ivica Picek, Branimir Radovcic, Phys.Lett. B728 (2014) 198, arXiv:1310.3183.
[Brdar:2013iea]
[7-879]
Revisiting neutrino masses from Planck scale operators, Abhishek M Iyer, Phys. Rev. D89 (2014) 116008, arXiv:1310.1948.
[Iyer:2013eka]
[7-880]
Predictive Model of Radiative Neutrino Masses, K.S. Babu, J. Julio, Phys. Rev. D89 (2014) 053004, arXiv:1310.0303.
[Babu:2013pma]
[7-881]
Poincare Protection for a Natural Electroweak Scale, Robert Foot, Archil Kobakhidze, Kristian L. McDonald, Raymond R. Volkas, Phys. Rev. D89 (2014) 115018, arXiv:1310.0223.
[Foot:2013hna]
[7-882]
A Light Sterile Neutrino from Friedberg-Lee Symmetry, Xiao-Gang He, Wei Liao, Phys.Lett. B728 (2014) 68-72, arXiv:1309.7581.
[He:2013cea]
[7-883]
SU(5) a la Witten, Carolina Arbelaez Rodriguez, Helena Kolesova, Michal Malinsky, Phys. Rev. D89 (2014) 055003, arXiv:1309.6743.
[ArbelaezRodriguez:2013kxw]
[7-884]
A compact 341 model at TeV scale, A. G. Dias, P. R. D. Pinheiro, C. A. de S. Pires, P. S. Rodrigues da Silva, Annals Phys. 349 (2014) 232-252, arXiv:1309.6644.
[Dias:2013kma]
[7-885]
A discrete anatomy of the neutrino mass matrix, G.K. Leontaris, N.D. Vlachos, Mod.Phys.Lett. A29 (2014) 0179, arXiv:1309.5785.
[Leontaris:2013yqa]
[7-886]
Quasi-fixed point scenarios and the Higgs mass in the E6 inspired SUSY models, R. Nevzorov, Phys. Rev. D89 (2014) 055010, arXiv:1309.4738.
[Nevzorov:2013ixa]
[7-887]
NNMSM Type-II and III, Naoyuki Haba, Kunio Kaneta, Ryo Takahashi, Eur.Phys.J. C74 (2014) 2696, arXiv:1309.3254.
[Haba:2013dva]
[7-888]
Grand Yukawonification, Charanjit S. Aulakh, Charanjit K. Khosa, Phys. Rev. D90 (2014) 045008, arXiv:1308.5665.
[Aulakh:2013kha]
[7-889]
New Scotogenic Model of Neutrino Mass with $U(1)_D$ Gauge Interaction, Ernest Ma, Ivica Picek, Branimir Radovcic, Phys.Lett. B726 (2013) 744-746, arXiv:1308.5313.
[Ma:2013yga]
[7-890]
Sterile neutrinos in U(1)' with R-parity Violation, Mariana Frank, Levent Selbuz, Phys. Rev. D88 (2013) 055003, arXiv:1308.5243.
[Frank:2013wga]
[7-891]
Constraining Super-light Sterile Neutrino Scenario by JUNO and RENO-50, Pouya Bakhti, Yasaman Farzan, JHEP 1310 (2013) 200, arXiv:1308.2823.
[Bakhti:2013ora]
[7-892]
Yukawaon Model with Anomaly Free Set of Quarks and Leptons in a U(3) Family Symmetry, Yoshio Koide, Hiroyuki Nishiura, Phys. Rev. D88 (2013) 116004, arXiv:1308.2129.
[Koide:2013eca]
[7-893]
Neutrino mass textures from F-theory, I. Antoniadis, G. K. Leontaris, Eur.Phys.J. C73 (2013) 2670, arXiv:1308.1581.
[Antoniadis:2013joa]
[7-894]
Constraining a class of B-L extended models from vacuum stability and perturbativity, Joydeep Chakrabortty, Partha Konar, Tanmoy Mondal, Phys. Rev. D89 (2014) 056014, arXiv:1308.1291.
[Chakrabortty:2013zja]
[7-895]
Flavor Violating Lepton Family $\text{U(1)}_lambda$, HoSeong La, arXiv:1308.0088, 2013.
[La:2013gga]
[7-896]
Hierarchical masses and universal mixing in quark-lepton mass matrices, Takeshi Fukuyama, Hiroyuki Nishiura, Mod.Phys.Lett. A28 (2013) 32, arXiv:1307.7866.
[Fukuyama:2013xca]
[7-897]
Unified Framework for Matter and Dark Matter, Ernest Ma, Phys. Rev. D88 (2013) 117702, arXiv:1307.7064.
[Ma:2013nga]
[7-898]
Low Scale Quark-Lepton Unification, Pavel Fileviez Perez, Mark B. Wise, Phys. Rev. D88 (2013) 057703, arXiv:1307.6213.
[FileviezPerez:2013zmv]
[7-899]
Bulk Majorana mass terms and Dirac neutrinos in Randall Sundrum Model, Abhishek M Iyer, Sudhir K Vempati, Phys. Rev. D. 88, 073005 (2013) 073005, arXiv:1307.5773.
[Iyer:2013hca]
[7-900]
Mixing Patterns from the Groups Sigma (n phi), Claudia Hagedorn, Aurora Meroni, Lorenzo Vitale, J. Phys. A47 (2014) 055201, arXiv:1307.5308.
[Hagedorn:2013nra]
[7-901]
Generalised CP and $A_4$ Family Symmetry, Gui-Jun Ding, Stephen F. King, Alexander J. Stuart, JHEP 1312 (2013) 006, arXiv:1307.4212.
[Ding:2013bpa]
[7-902]
Dirac neutrinos from flavor symmetry, Alfredo Aranda, Cesar Bonilla, S. Morisi, E. Peinado, J. W. F. Valle, Phys. Rev. D89 (2014) 033001, arXiv:1307.3553.
[Aranda:2013gga]
[7-903]
Right-handed sneutrinos as asymmetric DM and neutrino masses from neutrinophilic Higgs bosons, Pantelis Mitropoulos, JCAP 1311 (2013) 008, arXiv:1307.2823.
[Mitropoulos:2013fla]
[7-904]
Top Quark as a Dark Portal and Neutrino Mass Generation, John N. Ng, Alejandro de la Puente, Phys.Lett. B727 (2013) 204-210, arXiv:1307.2606.
[Ng:2013xja]
[7-905]
Theory of the mass and charge of the electron, J. Lemmon, arXiv:1307.2201, 2013.
[Lemmon:2013qba]
[7-906]
Neutrino Mixing and Masses from a Minimum Principle, R. Alonso, M. B. Gavela, G. Isidori, L. Maiani, JHEP 1311 (2013) 187, arXiv:1306.5927.
[Alonso:2013nca]
[7-907]
Leptonic Dynamical Yukawa Couplings, R. Alonso, M. B. Gavela, D. Hernandez, L. Merlo, S. Rigolin, JHEP 1308 (2013) 069, arXiv:1306.5922.
[Alonso:2013mca]
[7-908]
Chiral Symmetry Restoration, Naturalness and the Absence of Fine-Tuning I: Global Theories, Bryan W. Lynn, Glenn D. Starkman, arXiv:1306.5647, 2013.
[Lynn:2013uva]
[7-909]
Complex Spinors and Unified Theories, Murray Gell-Mann, Pierre Ramond, Richard Slansky, Conf.Proc. C790927 (1979) 315-321, arXiv:1306.4669.
[Gell-Mann:1979vob]
[7-910]
Quark and Leptonic Mixing Patterns from the Breakdown of a Common Discrete Flavor Symmetry, Martin Holthausen, Kher Sham Lim, Phys. Rev. D88 (2013) 033018, arXiv:1306.4356.
[Holthausen:2013vba]
[7-911]
Inverse neutrino mass hierarchy in a flavour GUT model, Stefan Antusch, Christian Gross, Vinzenz Maurer, Constantin Sluka, Nucl. Phys. B879 (2014) 19-36, arXiv:1306.3984.
[Antusch:2013tta]
[7-912]
Matter inflation with $A_4$ flavour symmetry breaking, Stefan Antusch, David Nolde, JCAP JCAP10 (2013) 028, arXiv:1306.3501.
[Antusch:2013toa]
[7-913]
A Higgs-Saw Mechanism as a Source for Dark Energy, Lawrence M. Krauss, James B. Dent, Phys. Rev. Lett. 111 (2013) 061802, arXiv:1306.3239.
[Krauss:2013oea]
[7-914]
Trimaximal TM1 neutrino mixing in S4 with spontaneous CP violation, Christoph Luhn, Nucl. Phys. B875 (2013) 80-100, arXiv:1306.2358.
[Luhn:2013lkn]
[7-915]
Horizontal symmetries of leptons with a massless neutrino, Anjan S. Joshipura, Ketan M. Patel, Phys. Lett. B727 (2013) 132-139, arXiv:1306.1890.
[Joshipura:2013pga]
[7-916]
Leptons in Composite MFV, Michele Redi, JHEP 1309 (2013) 060, arXiv:1306.1525.
[Redi:2013pga]
[7-917]
A new A4 model for lepton mixing, P.M. Ferreira, L. Lavoura, P.O. Ludl, Phys.Lett. B726 (2013) 767-772, arXiv:1306.1500.
[Ferreira:2013oga]
[7-918]
Self-energies on deformed spacetimes, R. Horvat, A. Ilakovac, J. Trampetic, J. You, JHEP 1311 (2013) 071, arXiv:1306.1239.
[Horvat:2013rga]
[7-919]
Generalized CP symmetries in Delta(27) flavor models, C. C. Nishi, Phys. Rev. D 88, 033010 (2013) 033010, arXiv:1306.0877.
[Nishi:2013jqa]
[7-920]
A Model for Neutrinos, Burra G.Sidharth, Int.J.Theor.Phys. 52 (2013) 4412-4415, arXiv:1305.5243.
[Sidharth:2013yaa]
[7-921]
New mixing pattern for neutrinos, Huilin Qu, Bo-Qiang Ma, Phys. Rev. D 88 (2013) 037301, arXiv:1305.4916.
[Qu:2013aca]
[7-922]
Loop Suppression of Dirac Neutrino Mass in the Neutrinophilic Two Higgs Doublet Model, Shinya Kanemura, Toshinori Matsui, Hiroaki Sugiyama, Phys.Lett. B727 (2013) 151-156, arXiv:1305.4521.
[Kanemura:2013qva]
[7-923]
Neutrino hierarchy and fermion spectrum from a single family in six dimensions: realistic predictions, J.-M. Frere, M. Libanov, S. Mollet, S. Troitsky, JHEP 1308 (2013) 078, arXiv:1305.4320.
[Frere:2013eva]
[7-924]
Lepton Mixing Predictions from $\Delta(6n^2)$ Family Symmetry, Stephen F. King, Thomas Neder, Alexander J. Stuart, Phys.Lett. B726 (2013) 312-315, arXiv:1305.3200.
[King:2013vna]
[7-925]
Natural, R-parity violating supersymmetry and horizontal flavor symmetries, Angelo Monteux, Phys. Rev. D 88, 045029 (2013) 045029, arXiv:1305.2921.
[Monteux:2013mna]
[7-926]
Unification scale vs. electroweak-triplet mass in the SU(5) + 24_F model at three loops, Luca Di Luzio, Luminita Mihaila, Phys. Rev. D87 (2013) 115025, arXiv:1305.2850.
[DiLuzio:2013dda]
[7-927]
Effects of Planck Scale Physics on Neutrino Mixing Parameters in Left-Right Symmetric Models, Debasish Borah, Phys. Rev. D87 (2013) 095009, arXiv:1305.1254.
[Borah:2013mqa]
[7-928]
Doubling of the Algebra and Neutrino Mixing within Noncommutative Spectral Geometry, Maria Vittoria Gargiulo, Mairi Sakellariadou, Giuseppe Vitiello, Eur.Phys.J. C74 (2014) 2695, arXiv:1305.0659.
[Gargiulo:2013bla]
[7-929]
Relating neutrino masses and mixings by discrete symmetries, D. Hernandez, A. Yu. Smirnov, Phys. Rev. D88 (2013) 093007, arXiv:1304.7738.
[Hernandez:2013vya]
[7-930]
Lorentz-Violating Regulator Gauge Fields as the Origin of Dynamical Flavour Oscillations, Jean Alexandre, Julio Leite, Nick E. Mavromatos, Phys. Rev. D87 (2013) 125029, arXiv:1304.7706.
[Alexandre:2013tya]
[7-931]
Parity: from strong CP problem to dark matter, neutrino masses and baryon asymmetry, Pei-Hong Gu, arXiv:1304.7647, 2013.
[Gu:2013vpx]
[7-932]
Radiative generation of the Higgs potential, Eung Jin Chun, Sunghoon Jung, Hyun Min Lee, Phys.Lett. B725 (2013) 158-163, arXiv:1304.5815.
[Chun:2013soa]
[7-933]
A Supersymmetric Grand Unified Model with Noncompact Horizontal Symmetry, Naoki Yamatsu, PTEP 2013 (2013) 123B01, arXiv:1304.5215.
[Yamatsu:2013nya]
[7-934]
An Extended Standard Model, W-Y. Pauchy Hwang, arXiv:1304.4705, 2013.
[Hwang:2013zpa]
[7-935]
Proton Stability, Gauge Coupling Unification and a Light $Z^\prime$ in Heterotic-string Models, Alon E. Faraggi, Viraf M. Mehta, Phys. Rev. D88 (2013) 025006, arXiv:1304.4230.
[Faraggi:2013nia]
[7-936]
Warped Alternatives to Froggatt-Nielsen Models, Abhishek M Iyer, Sudhir K Vempati, Phys. Rev. D88 (2013) 016005, arXiv:1304.3558.
[Iyer:2013axa]
[7-937]
Dirac Neutrinos with $S_4$ Flavor Symmetry in Warped Extra Dimensions, Gui-Jun Ding, Ye-Ling Zhou, Nucl. Phys. B876 (2013) 418-452, arXiv:1304.2645.
[Ding:2013eca]
[7-938]
Neutrino Mixing and Geometric CP Violation with Delta(27) Symmetry, Ernest Ma, Phys.Lett. B723 (2013) 161-163, arXiv:1304.1603.
[Ma:2013xqa]
[7-939]
Universal Democracy Instead of Anarchy, G.C. Branco, N. Raimundo Ribeiro, J.I. Silva-Marcos, arXiv:1304.1360, 2013.
[Branco:2013kka]
[7-940]
SO(10) inspired GMSB, Manuel E. Krauss, Werner Porod, Florian Staub, Phys. Rev. D 88, 015014 (2013) 015014, arXiv:1304.0769.
[Krauss:2013jva]
[7-941]
Generation of non-zero $\theta_{13}$ in broken $A_4$ neutrino mass model, Manikanta Borah, Bikash Sharma, Mrinal Kumar Das, Nucl. Phys. B885 (2014) 76-96, arXiv:1304.0164.
[Borah:2013upa]
[7-942]
A modified naturalness principle and its experimental tests, Marco Farina, Duccio Pappadopulo, Alessandro Strumia, JHEP 1308 (2013) 022, arXiv:1303.7244.
[Farina:2013mla]
[7-943]
The Simplest Models of Radiative Neutrino Mass: Excluding Simplified Zee Models and Beyond, Sandy S. C. Law, Kristian L. McDonald, Int.J.Mod.Phys. A29 (2014) 1450064, arXiv:1303.6384.
[Law:2013dya]
[7-944]
Spontaneous CP violation from vacuum alignment in $S_4$ models of leptons, Gui-Jun Ding, Stephen F. King, Christoph Luhn, Alexander J. Stuart, JHEP 1305 (2013) 084, arXiv:1303.6180.
[Ding:2013hpa]
[7-945]
The minimal adjoint-SU(5)xZ_4 GUT model, D. Emmanuel-Costa, C. Simoes, M. Tortola, JHEP 10 (2013) 054, arXiv:1303.5699.
[Emmanuel-Costa:2013gia]
[7-946]
Note about tribimaximal mixing, Renata Jora, M. Naeem Shahid, Mod.Phys.Lett. A28 (2013) 1350185, arXiv:1303.3689.
[Jora:2013era]
[7-947]
Three Family SU(5) GUT and Inverted Neutrino Mass Hierarchy, Zurab Tavartkiladze, Phys. Rev. D87 (2013) 075026, arXiv:1303.1211.
[Tavartkiladze:2013hsa]
[7-948]
Radiative Scaling Neutrino Mass with $A_4$ Symmetry, Subhaditya Bhattacharya, Ernest Ma, Alexander Natale, Ahmed Rashed, Phys. Rev. D87 (2013) 097301, arXiv:1302.6266.
[Bhattacharya:2013mpa]
[7-949]
Predictivity of models with spontaneously broken non-Abelian discrete flavor symmetries, Mu-Chun Chen, Maximilian Fallbacher, Yuji Omura, Michael Ratz, Christian Staudt, Nucl. Phys. B873 (2013) 343-371, arXiv:1302.5576.
[Chen:2013aya]
[7-950]
Quark-Lepton Mass Relation in a Realistic A4 Extension of the Standard Model, S. F. King, S. Morisi, E. Peinado, J. W. F. Valle, Phys. Lett. B 724 (2013) 68-72, arXiv:1301.7065.
[King:2013hj]
[7-951]
Spontaneous CP violation in A4xSU(5) with Constrained Sequential Dominance 2, Stefan Antusch, Stephen F. King, Martin Spinrath, Phys. Rev. D87 (2013) 096018, arXiv:1301.6764.
[Antusch:2013wn]
[7-952]
Lepton mass hierarchy from the quark mass hierarchy in the light of the quark Technicolor Dynamics, Vladimir Sauli, arXiv:1301.5816, 2013.
[Sauli:2013cc]
[7-953]
Neutrino Mass Matrix Model with a Bilinear Form, Yoshio Koide, Hiroyuki Nishiura, JHEP 1304 (2013) 166, arXiv:1301.4312.
[Koide:2013ie]
[7-954]
Neutrino Mass from a d=7 Effective Operator in an SU(5) SUSY-GUT Framework, Martin B. Krauss, Davide Meloni, Werner Porod, Walter Winter, JHEP 1305 (2013) 121, arXiv:1301.4221.
[Krauss:2013gy]
[7-955]
Leptonic Mixing and Group Structure Constants, C.S. Lam, Phys. Rev. D87 (2013) 053018, arXiv:1301.3121.
[Lam:2013xs]
[7-956]
A(4) Flavor Symmetry Model for Dirac-Neutrinos and Sizable U(e3), Nina Memenga, Werner Rodejohann, He Zhang, Phys. Rev. D87 (2013) 053021, arXiv:1301.2963.
[Memenga:2013vc]
[7-957]
Horizontal Symmetries $\Delta(150)$ and $\Delta(600)$, C. S. Lam, Phys. Rev. D87 (2013) 053012, arXiv:1301.1736.
[Lam:2013ng]
[7-958]
Discrete symmetries, roots of unity, and lepton mixing, Walter Grimus, J. Phys. G40 (2013) 075008, arXiv:1301.0495.
[Grimus:2013rw]
[7-959]
Origin of neutrino masses at the LHC: Delta L = 2 effective operators and their ultraviolet completions, Paul W. Angel, Nicholas L. Rodd, Raymond R. Volkas, Phys. Rev. D87 (2013) 073007, arXiv:1212.6111.
[Angel:2012ug]
[7-960]
Gravitational origin of the weak interaction's chirality, Stephon Alexander, Antonino Marciano, Lee Smolin, Phys. Rev. D89 (2014) 065017, arXiv:1212.5246.
[Alexander:2012ge]
[7-961]
Fine tuning in an A4-based Tri-Bimaximal neutrino-mixing model, Shahar Amitai, arXiv:1212.5165, 2012.
[Amitai:2012em]
[7-962]
The Cocktail Model: Neutrino Masses and Mixings with Dark Matter, Michael Gustafsson, Jose Miguel No, Maximiliano A. Rivera, Phys. Rev. Lett. 110 (2013) 211802, arXiv:1212.4806.
[Gustafsson:2012vj]
[7-963]
Discrete symmetries and model-independent patterns of lepton mixing, D. Hernandez, A. Yu. Smirnov, Phys. Rev. D87 (2013) 053005, arXiv:1212.2149.
[Hernandez:2012sk]
[7-964]
CP and Discrete Flavour Symmetries, Martin Holthausen, Manfred Lindner, Michael A. Schmidt, JHEP 1304 (2013) 122, arXiv:1211.6953.
[Holthausen:2012dk]
[7-965]
Lepton Flavour at the Electroweak Scale: A Complete A4 Model, Martin Holthausen, Manfred Lindner, Michael A. Schmidt, Phys. Rev. D87 (2013) 033006, arXiv:1211.5143.
[Holthausen:2012wz]
[7-966]
A Model for Large $\theta_{13}$ Constructed using the Eigenvectors of the S4 Rotation Matrices, R. Krishnan, J. Phys. Conf. Ser. 447 (2013) 012043, arXiv:1211.3364.
[Krishnan:2012sb]
[7-967]
Quark-lepton complementarity and self-complementarity in different schemes, Yijia Zhang, Xinyi Zhang, Bo-Qiang Ma, Phys. Rev. D86 (2012) 093019, arXiv:1211.3198.
[Zhang:2012pv]
[7-968]
Exotic Charges, Multicomponent Dark Matter and Light Sterile Neutrinos, Julian Heeck, He Zhang, JHEP 1305 (2013) 164, arXiv:1211.0538.
[Heeck:2012bz]
[7-969]
Dependence of $\tan^2 \theta_{12}$ on Dirac CP phase $\delta$ in tri-bimaximal neutrino mixing under charged lepton correction, Chandan Duarah, Abhijeet Das, N. Nimai Singh, arXiv:1210.8265, 2012.
[Duarah:2012bm]
[7-970]
Peccei-Quinn symmetry as the origin of Dirac Neutrino Masses, Chian-Shu Chen, Lu-Hsing Tsai, Phys. Rev. PRD88,055015 (2013) 055015, arXiv:1210.6264.
[Chen:2012baa]
[7-971]
R-symmetric High Scale Supersymmetry, James Unwin, Phys. Rev. D86 (2012) 095002, arXiv:1210.4936.
[Unwin:2012fj]
[7-972]
Dilaton stabilization and composite dark matter in the string frame of heterotic-M-theory, Andrea Zanzi, arXiv:1210.4615, 2012.
[Zanzi:2012bf]
[7-973]
MNS Matrix and Froggatt-Nielsen Mechanism, Chuichiro Hattori, Mamoru Matsunaga, Takeo Matsuoka, Phys. Rev. D87 (2013) 113008, arXiv:1210.3763.
[Hattori:2012ay]
[7-974]
Flavour-mixing gauge field theory of massive Majorana neutrinos, Eckart Marsch, arXiv:1210.2925, 2012.
[Marsch:2012ki]
[7-975]
Large N (=3) Neutrinos and Random Matrix Theory, Yang Bai, Gonzalo Torroba, JHEP 1212 (2012) 026, arXiv:1210.2394.
[Bai:2012zn]
[7-976]
A Minimal Model of Neutrino Flavor, Christoph Luhn, Krishna Mohan Parattu, Akin Wingerter, JHEP 12 (2012) 096, arXiv:1210.1197.
[Luhn:2012bc]
[7-977]
Anomalous Majorana o Masses from Torsionful Quantum Gravity, Nick E. Mavromatos, Apostolos Pilaftsis, Phys. Rev. D86 (2012) 124038, arXiv:1209.6387.
[Mavromatos:2012cc]
[7-978]
An Anatomy of Neutrino Oscillations, W-Y.Pauchy Hwang, Universe 1 (2013) 5-10, arXiv:1209.5488.
[Hwang:2012bm]
[7-979]
Cosmic Dark Energy Emerging from Gravitationally Effective Vacuum Fluctuations, Bruno M. Deiss, arXiv:1209.5386, 2012.
[Deiss:2012ac]
[7-980]
Self-Organizing Neutrino Mixing Matrix, Ernest Ma, Phys. Rev. D86 (2012) 117301, arXiv:1209.3374.
[Ma:2012xp]
[7-981]
Generalized Scaling in Flavor Neutrino Masses, Masaki Yasue, arXiv:1209.1866, 2012.
[Yasue:2012vt]
[7-982]
Hidden Neutrino Gauge Symmetry, HoSeong La, arXiv:1209.1377, 2012.
[La:2012ky]
[7-983]
Large $\theta_{13}^\nu$ and Unified Description of Quark and Lepton Mixing Matrices, Yoshio Koide, Hiroyuki Nishiura, Eur.Phys.J. C73 (2013) 2277, arXiv:1209.1275.
[Koide:2012ji]
[7-984]
The U(1) symmetry of the non-tribimaximal pattern in the degenerate mass spectrum case of the neutrino mass matrix, E.I. Lashin, N. Chamoun, S. Nasri, Phys. Rev. D86 (2012) 113013, arXiv:1209.0707.
[Lashin:2012zq]
[7-985]
A Simple Grand Unified Relation between Neutrino Mixing and Quark Mixing, S. M. Barr, Heng-Yu Chen, JHEP 11 (2012) 092, arXiv:1208.6546.
[Barr:2012ma]
[7-986]
Running of Neutrino Parameters and the Higgs Self-Coupling in a Six-Dimensional UED Model, Tommy Ohlsson, Stella Riad, Phys. Lett. B718 (2013) 1002-1007, arXiv:1208.6297.
[Ohlsson:2012hi]
[7-987]
Axion-Higgs Unification, Michele Redi, Alessandro Strumia, JHEP 1211 (2012) 103, arXiv:1208.6013.
[Redi:2012ad]
[7-988]
On neutrino masses via CPT violating Higgs interaction in the Standard Model, Masud Chaichian, Kazuo Fujikawa, Anca Tureanu, Phys. Lett. B718 (2012) 178-180, arXiv:1208.5508.
[Chaichian:2012fu]
[7-989]
Two-parameter neutrino mass matrices with two texture zeros, W. Grimus, P.O. Ludl, J. Phys. G40 (2013) 055003, arXiv:1208.4515.
[Grimus:2012zm]
[7-990]
Neutrino Anarchy from Wilson Lines, Gero von Gersdorff, Mariano Quiros, Michael Wiechers, JHEP 1302 (2013) 079, arXiv:1208.4300.
[vonGersdorff:2012tt]
[7-991]
A radiative model with a naturally mild neutrino mass hierarchy, Dieter Hehn, Alejandro Ibarra, Phys. Lett. B718 (2013) 988-991, arXiv:1208.3162.
[Hehn:2012kz]
[7-992]
On predictions from spontaneously broken flavor symmetries, Mu-Chun Chen, Maximilian Fallbacher, Michael Ratz, Christian Staudt, Phys. Lett. B718 (2012) 516-521, arXiv:1208.2947.
[Chen:2012ha]
[7-993]
S_4 Flavored CP Symmetry for Neutrinos, R.N. Mohapatra, C.C. Nishi, Phys. Rev. D86 (2012) 073007, arXiv:1208.2875.
[Mohapatra:2012tb]
[7-994]
Recipes and Ingredients for Neutrino Mass at Loop Level, Yasaman Farzan, Silvia Pascoli, Michael A. Schmidt, JHEP JHEP03 (2013) 107, arXiv:1208.2732.
[Farzan:2012ev]
[7-995]
Ansatz of Leptonic Mixing: The Alliance of Bi-Maximal Mixing with a Single-Angle Rotation, Kim Siyeon, J. Korean Phys. Soc. 65 (2014) 1347-1355, arXiv:1208.2645.
[Siyeon:2012bg]
[7-996]
An A4 x Z4 model for neutrino mixing, Yoni BenTov, Xiao-Gang He, A. Zee, JHEP 1212 (2012) 093, arXiv:1208.1062.
[BenTov:2012tg]
[7-997]
Neutrino masses from R-parity violation with a $Z_3$ symmetry, E. Peinado, A. Vicente, Phys. Rev. D86 (2012) 093024, arXiv:1207.6641.
[Peinado:2012tp]
[7-998]
Non-diagonal charged lepton mass matrix and non-zero $theta_{13}$, J. Alberto Acosta, Alfredo Aranda, Manuel A. Buen-Abad, Alma D. Rojas, Phys. Lett. B718 (2013) 1413-1420, arXiv:1207.6093.
[Acosta:2012qf]
[7-999]
B-L Violating Proton Decay Modes and New Baryogenesis Scenario in SO(10), K. S. Babu, R. N. Mohapatra, Phys. Rev. Lett. 109 (2012) 091803, arXiv:1207.5771.
[Babu:2012iv]
[7-1000]
A Grand Delta(96) x SU(5) Flavour Model, Stephen F. King, Christoph Luhn, Alexander J. Stuart, Nucl. Phys. B867 (2013) 203-235, arXiv:1207.5741.
[King:2012in]
[7-1001]
Charged lepton contributions to bimaximal and tri-bimaximal mixings for generating $\sin\theta_{13}\neq 0$ and $\tan^2\theta_{23} < 1$, C. Duarah, A. Das, N. Nimai Singh, Phys. Lett. B718 (2012) 147-152, arXiv:1207.5225.
[Duarah:2012bd]
[7-1002]
Bi-maximal neutrino mixing model revisited with a new ansatz for mass matrices, Zhen-hua Zhao, Phys. Rev. D86 (2012) 096010, arXiv:1207.2545.
[Zhao:2012wq]
[7-1003]
Constraints on TeV scale Majorana neutrino phenomenology from the Vacuum Stability of the Higgs, Joydeep Chakrabortty, Moumita Das, Subhendra Mohanty, Mod.Phys.Lett. A28 (2013) 1350032, arXiv:1207.2027.
[Chakrabortty:2012np]
[7-1004]
$\mu$-$\tau$ Interchange symmetry and lepton mixing, W. Grimus, L. Lavoura, Fortsch.Phys. 61 (2013) 535-545, arXiv:1207.1678.
[Grimus:2012hu]
[7-1005]
Repressing Anarchy in Neutrino Mass Textures, Guido Altarelli, Ferruccio Feruglio, Isabella Masina, Luca Merlo, JHEP 11 (2012) 139, arXiv:1207.0587.
[Altarelli:2012ia]
[7-1006]
Maximal CP violation in lepton mixing from a model with Delta(27) flavour symmetry, P. M. Ferreira, W. Grimus, L. Lavoura, P. O. Ludl, JHEP 09 (2012) 128, arXiv:1206.7072.
[Ferreira:2012ri]
[7-1007]
A new method of parametrisation of neutrino mass matrix through breaking of $\mu-\tau$ symmetry: Normal hierarchy, Subhankar Roy, N. Nimai Singh, arXiv:1206.7016, 2012.
[Roy:2012qm]
[7-1008]
Fourth Generations with an Inert Doublet Higgs, Efunwande Osoba, arXiv:1206.6912, 2012.
[Osoba:2012pc]
[7-1009]
An $S_3$ Model for Lepton Mass Matrices with Nearly Minimal Texture, A. G. Dias, A. C. B. Machado, C. C. Nishi, Phys. Rev. D86 (2012) 093005, arXiv:1206.6362.
[Dias:2012bh]
[7-1010]
What is the discrete gauge symmetry of the R-parity violating MSSM?, Herbi K. Dreiner, Marja Hanussek, Christoph Luhn, Phys. Rev. D86 (2012) 055012, arXiv:1206.6305.
[Dreiner:2012ae]
[7-1011]
Fourth Generation Parity, Hye-Sung Lee, Amarjit Soni, Phys. Rev. Lett. 110 (2013) 021802, arXiv:1206.6110.
[Lee:2012xn]
[7-1012]
Coupling Unification, GUT-Scale Baryogenesis and Neutron-Antineutron Oscillation in SO(10), K. S. Babu, R. N. Mohapatra, Phys. Lett. B715 (2012) 328-334, arXiv:1206.5701.
[Babu:2012vc]
[7-1013]
The mu term and neutrino masses, Mu-Chun Chen, Michael Ratz, Christian Staudt, Patrick K.S. Vaudrevange, Nucl. Phys. B866 (2013) 157-176, arXiv:1206.5375.
[Chen:2012jg]
[7-1014]
A $Z_4$ flavor model in RS1, Carlos Alvarado, Alfredo Aranda, Olindo Corradini, Alma D. Rojas, Eli Santos-Rodriguez, Phys. Rev. D86 (2012) 036010, arXiv:1206.5216.
[Alvarado:2012vn]
[7-1015]
The $(Z_2)^3$ symmetry of the non-tri-bimaximal pattern for the neutrino mass matrix, E. I. Lashin, M. Abbas, N. Chamoun, S. Nasri, Phys. Rev. D86 (2012) 033013, arXiv:1206.4754.
[Lashin:2012gr]
[7-1016]
Lepton Masses and Flavor Violation in Randall Sundrum Model, Abhishek M Iyer, Sudhir K Vempati, Phys. Rev. D86 (2012) 056005, arXiv:1206.4383.
[Iyer:2012db]
[7-1017]
Possible textures of the fermion mass matrices, Manmohan Gupta, Gulsheen Ahuja, Int. J. Mod. Phys. A26 (2011) 2973-2995, arXiv:1206.3844.
[Gupta:2011zzg]
[7-1018]
Particle mass generation from physical vacuum, C. Quimbay, J. Morales, Apeiron 18 (2011) 161, arXiv:1206.3019.
[Quimbay:2011xsb]
[7-1019]
Grand Unification of Flavor Mixings, Naoyuki Haba, Ryo Takahashi, Europhys. Lett. 100 (2012) 31001, arXiv:1206.2793.
[Haba:2012ar]
[7-1020]
Neutrino masses in a 331 model with right-handed neutrinos without doubly charged Higgs, M. E. Catano, R Martinez, F. Ochoa, Phys. Rev. D86 (2012) 073015, arXiv:1206.1966.
[Catano:2012kw]
[7-1021]
Scotogenic $A_4$ Neutrino Model for Nonzero $\theta_{13}$ and Large $\delta_{CP}$, Ernest Ma, Alexander Natale, Ahmed Rashed, Int. J. Mod. Phys. A27 (2012) 1250134, arXiv:1206.1570.
[Ma:2012ez]
[7-1022]
Chiral Extensions of the MSSM, Gabriele Ferretti, Denis Karateev, Mod.Phys.Lett. A28 (2013) 1350025, arXiv:1206.0761.
[Ferretti:2012se]
[7-1023]
A SUSY SU(5)xT' Unified Model of Flavour with large $\theta_{13}$, Aurora Meroni, S. T. Petcov, Martin Spinrath, Phys. Rev. D86 (2012) 113003, arXiv:1205.5241.
[Meroni:2012ty]
[7-1024]
The $S_3$ flavour symmetry: Neutrino masses and mixings, F. Gonzalez Canales, A. Mondragon, M. Mondragon, Fortsch.Phys. 61 (2013) 546-570, arXiv:1205.4755.
[GonzalezCanales:2012blg]
[7-1025]
Towards A Unified Description of Quark and Lepton Mixing, Alexander N. Jourjine, arXiv:1205.4424, 2012.
[Jourjine:2012yu]
[7-1026]
Large lepton mixing angles from a 4+1-dimensional SU(5) x A(4) domain-wall braneworld model, Benjamin D. Callen, Raymond R. Volkas, Phys. Rev. D86 (2012) 056007, arXiv:1205.3617.
[Callen:2012kd]
[7-1027]
SUSY S4 x SU(5) revisited, Claudia Hagedorn, Stephen F. King, Christoph Luhn, Phys. Lett. B717 (2012) 207-213, arXiv:1205.3114.
[Hagedorn:2012ut]
[7-1028]
Scaling ansatz, four zero Yukawa textures and large $\theta_{13}$, Biswajit Adhikary, Mainak Chakraborty, Ambar Ghosal, Phys. Rev. D86 (2012) 013015, arXiv:1205.1355.
[Adhikary:2012kb]
[7-1029]
Dimensional Reduction of N=1, E_8 SYM over SU(3)/U(1) x U(1) x Z_3 and its four-dimensional effective action, Nikos Irges, Georgios Orfanidis, George Zoupanos, PoS CORFU2011 (2011) 105, arXiv:1205.0753.
[Irges:2011sle]
[7-1030]
Tri-bimaximal-Cabibbo Mixing, S. F. King, Phys. Lett. B718 (2012) 136-142, arXiv:1205.0506.
[King:2012vj]
[7-1031]
New Simple $A_4$ Neutrino Model for Nonzero $\theta_{13}$ and Large $\delta_{CP}$, Hajime Ishimori, Ernest Ma, Phys. Rev. D86 (2012) 045030, arXiv:1205.0075.
[Ishimori:2012fg]
[7-1032]
Critique of Fermionic $R\nu MDM$ and its Scalar Variants, Kresimir Kumericki, Ivica Picek, Branimir Radovcic, JHEP 07 (2012) 039, arXiv:1204.6597.
[Kumericki:2012bf]
[7-1033]
Perturbative generation of $\theta_{13}$ from tribimaximal neutrino mixing, Biswajoy Brahmachari, Amitava Raychaudhuri, Phys. Rev. D86 (2012) 051302, arXiv:1204.5619.
[Brahmachari:2012cq]
[7-1034]
An explicit SU(12) family and flavor unification model with natural fermion masses and mixings, Carl H. Albright, Robert P. Feger, Thomas W. Kephart, Phys. Rev. D86 (2012) 015012, arXiv:1204.5471.
[Albright:2012zt]
[7-1035]
Quantified naturalness from Bayesian statistics, Sylvain Fichet, Phys. Rev. D86 (2012) 125029, arXiv:1204.4940.
[Fichet:2012sn]
[7-1036]
Scotogenic Dirac Neutrino Mass, Yasaman Farzan, Ernest Ma, Phys. Rev. D86 (2012) 033007, arXiv:1204.4890.
[Farzan:2012sa]
[7-1037]
Charged lepton contributions to bipair neutrino mixing, Teruyuki Kitabayashi, Masaki Yasue, Phys. Lett. B713 (2012) 206-210, arXiv:1204.4523.
[Kitabayashi:2012gn]
[7-1038]
Fine-tuning and naturalness issues in the two-zero neutrino mass textures, D. Meloni, G. Blankenburg, Nucl. Phys. B867 (2013) 749-762, arXiv:1204.2706.
[Meloni:2012sx]
[7-1039]
CP Phases of Neutrino Mixing in a Supersymmetric B-L Gauge Model with $T_7$ Lepton Flavor Symmetry, Hajime Ishimori, Shaaban Khalil, Ernest Ma, Phys. Rev. D86 (2012) 013008, arXiv:1204.2705.
[Ishimori:2012sw]
[7-1040]
Origin of family symmetries, Hans Peter Nilles, Michael Ratz, Patrick K.S. Vaudrevange, Fortsch.Phys. 61 (2013) 493-506, arXiv:1204.2206.
[Nilles:2012cy]
[7-1041]
Higgs Mass Spectrum in non-SUSY SU(5), Karsten Schnitter, JHEP 1305 (2013) 151, arXiv:1204.2111.
[Schnitter:2012bz]
[7-1042]
On the nature of the fourth generation neutrino and its implications, Alberto Aparici, Juan Herrero-Garcia, Nuria Rius, Arcadi Santamaria, JHEP 07 (2012) 030, arXiv:1204.1021.
[Aparici:2012vx]
[7-1043]
Left-right symmetry at LHC and precise 1-loop low energy data, J. Chakrabortty, J. Gluza, R. Sevillano, R. Szafron, JHEP 07 (2012) 038, arXiv:1204.0736.
[Chakrabortty:2012pp]
[7-1044]
D14 - A Common Origin of the Cabibbo Angle and the Lepton Mixing Angle $\theta^l_{13}$, C. Hagedorn, D. Meloni, Nucl. Phys. B862 (2012) 691-709, arXiv:1204.0715.
[Hagedorn:2012pg]
[7-1045]
Lepton mixing and discrete symmetries, D. Hernandez, A. Yu. Smirnov, Phys. Rev. D86 (2012) 053014, arXiv:1204.0445.
[Hernandez:2012ra]
[7-1046]
Strictly Anomaly Mediated Supersymmetry Breaking, Mark Hindmarsh, D.R. Timothy Jones, Phys. Rev. D87 (2013) 075022, arXiv:1203.6838.
[Hindmarsh:2012wh]
[7-1047]
Discrete family symmetry, Higgs mediators and $\theta_{13}$, Ivo de Medeiros Varzielas, Graham G. Ross, JHEP 12 (2012) 041, arXiv:1203.6636.
[deMedeirosVarzielas:2012esq]
[7-1048]
The flavor symmetry in the standard model and the triality symmetry -Do we need right-handed leptons?, Sadataka Furui, Int. J. Mod. Phys. A27 (2012) 1250158, arXiv:1203.5213.
[Furui:2012pr]
[7-1049]
Vanishing Minors in the Neutrino Mass Matrix from Abelian Gauge Symmetries, Takeshi Araki, Julian Heeck, Jisuke Kubo, JHEP 07 (2012) 083, arXiv:1203.4951.
[Araki:2012ip]
[7-1050]
Lepton Mixing and the Neutrino Mixing Angle $\theta_{13}$, Harald Fritzsch, Mod. Phys. Lett. A27 (2012) 1250079, arXiv:1203.4460.
[Fritzsch:2012zp]
[7-1051]
Non-zero $\theta_{13}$ and CP violation in a model with $A_4$ flavor symmetry, Y. H. Ahn, Sin Kyu Kang, Phys. Rev. D86 (2012) 093003, arXiv:1203.4185.
[Ahn:2012tv]
[7-1052]
Neutrino Mixing and the Axion-Gluon Vertex, Adam Latosinski, Krzysztof A. Meissner, Hermann Nicolai, Nucl. Phys. B868 (2013) 596-626, arXiv:1203.3886.
[Latosinski:2012qj]
[7-1053]
S3 as a flavour symmetry for quarks and leptons after the Daya Bay result on $\theta_{13}$, Davide Meloni, JHEP 05 (2012) 124, arXiv:1203.3126.
[Meloni:2012ci]
[7-1054]
Neutrino Hierarchies from a Gauge Symmetry, Julian Heeck, Werner Rodejohann, Phys. Rev. D85 (2012) 113017, arXiv:1203.3117.
[Heeck:2012cd]
[7-1055]
Octahedral Symmetry with Geometrical Breaking: New Prediction for Neutrino Mixing Angle $\theta_{13}$ and CP Violation, Hong-Jian He, Xun-Jie Xu, Phys. Rev. D86 (2012) 111301, arXiv:1203.2908.
[He:2012yt]
[7-1056]
A prediction of neutrino mixing matrix with CP violating phase, Xinyi Zhang, Bo-Qiang Ma, Phys. Lett. B713 (2012) 202-205, arXiv:1203.2906.
[Zhang:2012ys]
[7-1057]
The neutrino mixing matrix could (almost) be diagonal with entries ±1, Yoni BenTov, A. Zee, Phys. Lett. B714 (2012) 80-84, arXiv:1203.2671.
[BenTov:2012wa]
[7-1058]
Spontaneous leptonic CP violation and nonzero $\theta_{13}$, G. C. Branco, R. Gonzalez Felipe, F. R. Joaquim, H. Serodio, Phys. Rev. D86 (2012) 076008, arXiv:1203.2646.
[Branco:2012vs]
[7-1059]
Predicting leptonic CP violation in the light of Daya Bay result, D. Meloni, S. Morisi, E. Peinado, Eur. Phys. J. C72 (2012) 2160, arXiv:1203.2535.
[Meloni:2012sy]
[7-1060]
SU(3) Gauge Family Symmetry and Prediction for the Lepton-Flavor Mixing and Neutrino Masses with Maximal Spontaneous CP Violation, Yue-Liang Wu, Phys. Lett. B714 (2012) 286-294, arXiv:1203.2382.
[Wu:2012ria]
[7-1061]
Non-vanishing $U_{e3}$ under $S_3$ symmetry, Kim Siyeon, Eur. Phys. J. 72 (2012) 2081, arXiv:1203.1593.
[Siyeon:2012zu]
[7-1062]
Theory of Electroweak Gauge Interactions, J. W. Moffat, arXiv:1203.1573, 2012.
[Moffat:2012zk]
[7-1063]
Four Zero Texture Fermion Mass Matrices in SO(10) GUT, S. Dev, Sanjeev Kumar, Surender Verma, Shivani Gupta, R. R. Gautam, Eur. Phys. J. C72 (2012) 1940, arXiv:1203.1403.
[Dev:2012xn]
[7-1064]
Wilson Lines and a Canonical Basis of SU(4) Heterotic Standard Models, Burt Ovrut, Austin Purves, Sogee Spinner, JHEP 11 (2012) 026, arXiv:1203.1325.
[Ovrut:2012wg]
[7-1065]
A4xSU(5) SUSY GUT of Flavour with Trimaximal Neutrino Mixing, Iain K. Cooper, Stephen F. King, Christoph Luhn, JHEP 06 (2012) 130, arXiv:1203.1324.
[Cooper:2012wf]
[7-1066]
A Confinement Potential for Leptons and Their Tunneling Effects into Extra-Dimensions, Akira Kokado, Takesi Saito, arXiv:1203.0733, 2012.
[Kokado:2012iy]
[7-1067]
Flavor Mixing Democracy and Minimal CP Violation, Jean-Marc Gerard, Zhi-zhong Xing, Phys. Lett. B713 (2012) 29-34, arXiv:1203.0496.
[Gerard:2012ft]
[7-1068]
Matter-Dark-Matter Correspondence in Left-Right Symmetry, Ernest Ma, Phys. Rev. D85 (2012) 091701, arXiv:1202.5828.
[Ma:2012gb]
[7-1069]
Neutrino properties in E6 x SU(2)F SUSY GUT with spontaneous CP violation, Nobuhiro Maekawa, Kenichi Takayama, Phys. Rev. D85 (2012) 095015, arXiv:1202.5816.
[Maekawa:2012fx]
[7-1070]
Vacuum stability, neutrinos, and dark matter, Chian-Shu Chen, Yong Tang, JHEP 04 (2012) 019, arXiv:1202.5717.
[Chen:2012faa]
[7-1071]
Dark matter and a suppression mechanism for neutrino masses in the Higgs triplet model, Shinya Kanemura, Hiroaki Sugiyama, Phys. Rev. D86 (2012) 073006, arXiv:1202.5231.
[Kanemura:2012rj]
[7-1072]
On self-complementarity relations of neutrino mixing, Xinyi Zhang, Bo-Qiang Ma, Phys. Lett. B710 (2012) 630-635, arXiv:1202.4258.
[Zhang:2012xu]
[7-1073]
Lepton Private Higgs and the discrete group $\Sigma(81)$, Yoni BenTov, A. Zee, Nucl. Phys. B871 (2013) 452-484, arXiv:1202.4234.
[BenTov:2012xp]
[7-1074]
Properties, Generations and Masses, Robert Delbourgo, arXiv:1202.4216, 2012.
[Delbourgo:2012xd]
[7-1075]
Texture-zero model for the lepton mass matrices, P.M. Ferreira, L. Lavoura, Mod. Phys. Lett. A27 (2012) 1250159, arXiv:1202.4024.
[Ferreira:2012uu]
[7-1076]
Vector-Boson-Induced Neutrino Mass, Ernest Ma, Jose Wudka, Phys. Lett. B712 (2012) 391-395, arXiv:1202.3098.
[Ma:2012xj]
[7-1077]
Bimaximal mixing from lopsided neutrinos, M. Paraskevas, K. Tamvakis, Phys. Rev. D85 (2012) 073014, arXiv:1202.2812.
[Paraskevas:2012rx]
[7-1078]
Open string axions and the flavor problem, David Berenstein, Erik Perkins, Phys. Rev. D86 (2012) 026005, arXiv:1202.2073.
[Berenstein:2012eg]
[7-1079]
Flavored bilinear R-parity violation, F. Bazzocchi, S. Morisi, E. Peinado, J. W. F. Valle, A. Vicente, JHEP 01 (2013) 033, arXiv:1202.1529.
[Bazzocchi:2012ve]
[7-1080]
Broken S3 Symmetry in the Neutrino Mass Matrix and Non-Zero $\theta_{13}$, S. Dev, Radha Raman Gautam, Lal Singh, Phys. Lett. B708 (2012) 284-289, arXiv:1201.3755.
[Dev:2012ns]
[7-1081]
Gauge Kinetic Mixing in the $E_6$SSM, Thomas G. Rizzo, Phys. Rev. D85 (2012) 055010, arXiv:1201.2898.
[Rizzo:2012rf]
[7-1082]
The Mass Difference of $F-\bar{F}$ with SO(3) Family Gauge Symmetry, Shou-Shan Bao, Zong-Guo Si, Int. J. Mod. Phys. A27 (2012) 1250107, arXiv:1201.0054.
[Li:2012uji]
[7-1083]
Non-diagonal Charged Lepton Yukawa Matrix: Effects on Neutrino Mixing in Supersymmetry, Giovanna Cottin, Marco Aurelio Diaz, Benjamin Koch, Phys. Rev. D85 (2012) 095019, arXiv:1112.6351.
[Cottin:2011fy]
[7-1084]
Gluino, wino and Higgsino-like particles without supersymmetry, Tirtha Sankar Ray, Hiroshi de Sandes, Carlos Savoy, Phys. Lett. B712 (2012) 401-406, arXiv:1112.6180.
[Ray:2011dm]
[7-1085]
Minimal extension of tri-bimaximal mixing and generalized Z_2 X Z_2 symmetries, Shivani Gupta, Anjan S. Joshipura, Ketan M. Patel, Phys. Rev. D85 (2012) 031903, arXiv:1112.6113.
[Gupta:2011ct]
[7-1086]
Neutrino Masses from the Top Down, Paul Langacker, Ann. Rev. Nucl. Part. Sci. 62 (2012) 215-235, arXiv:1112.5992.
[Langacker:2011bi]
[7-1087]
A Q_6 flavor symmetry model for the nuMSM, Takeshi Araki, Y. F. Li, Phys. Rev. D85 (2012) 065016, arXiv:1112.5819.
[Araki:2011zg]
[7-1088]
Radiative Neutrino Mass Generation through Vector-like Quarks, K. S. Babu, J. Julio, Phys. Rev. D85 (2012) 073005, arXiv:1112.5452.
[Babu:2011vb]
[7-1089]
Variety of SO(10) GUTs with Natural Doublet-Triplet Splitting via the Missing Partner Mechanism, K. S. Babu, Ilia Gogoladze, Pran Nath, Raza M. Syed, Phys. Rev. D85 (2012) 075002, arXiv:1112.5387.
[Babu:2011tw]
[7-1090]
Dirac equation in a de Sitter expansion for massive neutrinos from modern Kaluza-Klein theory, Pablo Alejandro Sanchez, Mariano Anabitarte, Mauricio Bellini, Phys. Lett. B709 (2012) 404-407, arXiv:1112.5183.
[Sanchez:2011qb]
[7-1091]
Masses and Mixing Matrices of Families of Quarks and Leptons Within the Spin-Charge-Family theory, predictions beyond the tree level, A. Hernandez-Galeana, N. S. Mankoc Borstnik, Bled Workshops in Physics 12 (2011) 55-93, arXiv:1112.4368.
[Hernandez-Galeana:2011dhr]
[7-1092]
Hidden O(2) and SO(2) Symmetry in Lepton Mixing, Julian Heeck, Werner Rodejohann, JHEP 02 (2012) 094, arXiv:1112.3628.
[Heeck:2011aa]
[7-1093]
Neutrino mass and the Standard Model, F. R. Klinkhamer, Mod. Phys. Lett. A28 (2013) 1350010, arXiv:1112.2669.
[Klinkhamer:2011aa]
[7-1094]
A4 models of tri-bimaximal-reactor mixing, Stephen F. King, Christoph Luhn, JHEP 03 (2012) 036, arXiv:1112.1959.
[King:2011ab]
[7-1095]
Supersymmetric Axion-Neutrino Model with a Higgs Hybrid, Ernest Ma, Int. J. Mod. Phys. A27 (2012) 1250059, arXiv:1112.1367.
[Ma:2011rp]
[7-1096]
Finite Modular Groups and Lepton Mixing, Reinier de Adelhart Toorop, Ferruccio Feruglio, Claudia Hagedorn, Nucl. Phys. B858 (2012) 437-467, arXiv:1112.1340.
[deAdelhartToorop:2011re]
[7-1097]
Electroweak scale invariant models with small cosmological constant, Robert Foot, Archil Kobakhidze, Int.J.Mod.Phys. A30 (2015) 1550126, arXiv:1112.0607.
[Foot:2011et]
[7-1098]
The S_3 flavor symmetry in 3-3-1 models, P. V. Dong, H. N. Long, C. H. Nam, V. V. Vien, Phys. Rev. D85 (2012) 053001, arXiv:1111.6360.
[Dong:2011vb]
[7-1099]
Dimension-five effective operators in electro-weak SU(4)xU(1) gauge models, Adrian Palcu, Phys. Rev. D85 (2012) 113010, arXiv:1111.6262.
[Palcu:2011tw]
[7-1100]
Exotic fermion multiplets as a solution to baryon asymmetry, dark matter and neutrino masses, Chuan-Hung Chen, Sandy S. C. Law, Phys. Rev. D85 (2012) 055012, arXiv:1111.5462.
[Chen:2011bc]
[7-1101]
Non-Abelian family symmetries in Pati-Salam unification, Ivo de Medeiros Varzielas, JHEP 01 (2012) 097, arXiv:1111.3952.
[deMedeirosVarzielas:2011wx]
[7-1102]
Minimal Flavour Violation and Neutrino Masses without R-parity, Giorgio Arcadi, Luca Di Luzio, Marco Nardecchia, JHEP 05 (2012) 048, arXiv:1111.3941.
[Arcadi:2011ug]
[7-1103]
Predicting $\theta_{13}$ and the Neutrino Mass Scale from Quark Lepton Mass Hierarchies, Wilfried Buchmuller, Valerie Domcke, Kai Schmitz, JHEP 03 (2012) 008, arXiv:1111.3872.
[Buchmuller:2011tm]
[7-1104]
An Alternative Yukawa Unified SUSY Scenario, James S. Gainer, Ran Huo, Carlos E. M. Wagner, JHEP 03 (2012) 097, arXiv:1111.3639.
[Gainer:2011pt]
[7-1105]
Focus Point Assisted by Right-Handed Neutrinos, Masaki Asano, Takeo Moroi, Ryosuke Sato, Tsutomu T. Yanagida, Phys. Lett. B708 (2012) 107-111, arXiv:1111.3506.
[Asano:2011kj]
[7-1106]
The $\mu\nu$SSM with an extra U(1), Javier Fidalgo, Carlos Munoz, JHEP 04 (2012) 090, arXiv:1111.2836.
[Fidalgo:2011tm]
[7-1107]
Restoration of Parity Symmetry through Presymmetry, Ernesto A. Matute, Mod. Phys. Lett. A26 (2011) 2579-2585, arXiv:1111.2765.
[Matute:2011sg]
[7-1108]
Small neutrino masses due to R-symmetry breaking for a small cosmological constant, Rhys Davies, Matthew McCullough, Phys. Rev. D86 (2012) 025014, arXiv:1111.2361.
[Davies:2011js]
[7-1109]
A proposal for the origin of the neutrino magnetic moment, M. Novello, E. Bittencourt, Int.J.Mod.Phys. 29 (2014) 1450075, arXiv:1111.2347.
[Novello:2011jxk]
[7-1110]
Supersymmetric minimal B-L model at the TeV scale with right-handed Majorana neutrino dark matter, Zachary M. Burell, Nobuchika Okada, Phys. Rev. D85 (2012) 055011, arXiv:1111.1789.
[Burell:2011wh]
[7-1111]
The Minimal Dimensionless Standard Model (MDSM) and its Cosmology, Latham Boyle, Shane Farnsworth, Joseph Fitzgerald, Maitagorri Schade, arXiv:1111.0273, 2011.
[Boyle:2011fq]
[7-1112]
Sterile Neutrinos for Warm Dark Matter and the Reactor Anomaly in Flavor Symmetry Models, James Barry, Werner Rodejohann, He Zhang, JCAP 1201 (2012) 052, arXiv:1110.6382.
[Barry:2011fp]
[7-1113]
Gauged $B-x_i L$ origin of $R$ Parity and its implications, Hye-Sung Lee, Ernest Ma, Phys. Lett. B 688 (2010) 319-322, arXiv:1001.0768.
[Lee:2010hf]
[7-1114]
Gauge Trimming of Neutrino Masses, Mu-Chun Chen, Andre de Gouvea, Bogdan A. Dobrescu, Phys. Rev. D 75 (2007) 055009, arXiv:hep-ph/0612017.
[Chen:2006hn]
[7-1115]
A theoretical pattern for neutrino and sterile-neutrino oscillations, Jiang Liu, Mod. Phys. Lett. A4 (1989) 535.
[Liu:1989at]
[7-1116]
Massless Neutrinos in Left-Right Symmetric Models, D. Wyler, L. Wolfenstein, Nucl. Phys. B 218 (1983) 205-214.
[Wyler:1982dd]
[7-1117]
Neutrino decay and spontaneous violation of lepton number, J. Schechter, J. W. F. Valle, Phys. Rev. D25 (1982) 774.
[Schechter:1981cv]
[7-1118]
Neutrino masses, mixings and oscillations in SU(2) x U(1) models of electroweak interactions, T. P. Cheng, Ling-Fong Li, Phys. Rev. D22 (1980) 2860.
[Cheng:1980qt]
[7-1119]
Neutrino masses in SU(2) x U(1) theories, J. Schechter, J. W. F. Valle, Phys. Rev. D22 (1980) 2227.
[Schechter:1980gr]
[7-1120]
Parity violation and the masslessness of the neutrino, Philip D. Mannheim, Phys. Lett. B85 (1979) 253.
[Mannheim:1978dq]
[7-1121]
Horizontal Interaction and Weak Mixing Angles, Frank Wilczek, A. Zee, Phys. Rev. Lett. 42 (1978) 421.
[Wilczek:1978xi]
[7-1122]
Teoria simmetrica dell'elettrone e del positrone, Ettore Majorana, Nuovo Cim. 14 (1937) 171-184. In Italian. http://people.na.infn.it/~sesposit/MajoranaSite/documents/EMP9.pdf.
[Majorana:1937vz]

8 - Theory - Talks

[8-1]
Connecting Inflation and Low Energy Phenomenology in an Extended Two-Higgs-Doublet-Model, Juhi Dutta, PoS EPS-HEP2023 (2024) 099, arXiv:2312.13959. EPS-HEP 2023.
[Dutta:2023fik]
[8-2]
Challenges for the 3-3-1 models, V. Pleitez, arXiv:2112.10888, 2021. 5th Colombian Meeting on High Energy Physics (ComHep), 30/11-04/12/2020.
[Pleitez:2021abk]
[8-3]
The Masses of Gauge Bosons and Scalars at $SU(3)_{C}\otimes SU(2)_{L}\otimes U(1)_{Y^{\prime}}\otimes U(1)_{B-L}$ gauge model with non-identical right-handed neutrinos, M. C. Rodriguez, arXiv:2111.13893, 2021. 6th ComHEP: Colombian Meeting on High Energy Physics.
[Rodriguez:2021qec]
[8-4]
From Neutrino Masses to the Full Size of the Universe, Bodo Lampe, arXiv:2110.05958, 2021. Sixteenth Marcel Grossmann Meeting (MG16), Rome, July 5-10, 2021.
[Lampe:2021ygf]
[8-5]
Flavour non-universal Pati-Salam unification and neutrino masses, Julie Pages, Nuovo Cim.C 44 (2021) 184, arXiv:2109.13150. La Thuile 2021, Les Rencontres de Physique de la Vallee d'Aoste, 9-11 March 2021.
[Pages:2021mon]
[8-6]
The Data Driven Flavour Model, Luca Merlo, PoS ICHEP2020 (2021) 401, arXiv:2009.10040. ICHEP2020.
[Merlo:2020ahx]
[8-7]
New Insights on Lepton Number and Dark Matter, Ernest Ma, arXiv:2004.12949, 2020. NDM2020, Egypt.
[Ma:2020sca]
[8-8]
The Neutrino Option, Ilaria Brivio, arXiv:1904.07029, 2019. NuPhys2018 (London, 19-21 December 2018).
[Brivio:2019qny]
[8-9]
Neutrino mass via linear seesaw, 331-model and Froggatt-Nielsen mechanism, Katri Huitu, Niko Koivunen, Timo J. Karkkainen, arXiv:1903.12126, 2019. NuPhys2018 (London, 19-21 December 2018).
[Huitu:2019bvo]
[8-10]
BSM Matter providing Neutrino Masses and Gauge Unification, Ivica Picek, arXiv:1903.11889, 2019. Hvar, Croatia, 11-14 September 2018.
[Picek:2019yga]
[8-11]
Spinor-vector duality and sterile neutrinos in string derived models, Alon E. Faraggi, J.Phys.Conf.Ser. 1586 (2020) 012026, arXiv:1812.10562. DISCRETE 2018, Vienna, 26-30 November 2018.
[Faraggi:2018svq]
[8-12]
See-Saw Mechanism in the 2HDM through the simultaneous introduction of a singlet and triplet of Majorana, Julian Steven Gutierrez, Carlos Jose Quimbay, arXiv:1812.00244, 2018. PIC2018: XXXVIII International Symposium on Physics in Collision, Bogota, Colombia, 2018.
[StevenGutierrez:2018oof]
[8-13]
Five Non-Fritzsch Texture Zeros for Quarks Mass Matrices in the Standard Model, Yithsbey Giraldo, Eduardo Rojas, arXiv:1811.05068, 2018. XXXVIII International Symposium on Physics in Collision.
[Giraldo:2018mqi]
[8-14]
E6 inspired SUSY models with Custodial Symmetry, R. Nevzorov, Int.J.Mod.Phys. A33 (2018) 1844007, arXiv:1805.08260. Conference on Particles and Cosmology, Singapore, 5-9 March 2018.
[Nevzorov:2018leq]
[8-15]
Mass problem in the Standard Model, R. Martinez, S. F. Mantilla, EPJ Web Conf. 182 (2018) 02084, arXiv:1802.06320. 6th International Conference on New Frontiers in Physics (ICNFP 2017) from August 17th to 29th of 2017 at the Conference Center of the Orthodox Academy of Creta (OAC) in Kolymbari (Crete), Greece.
[Martinez:2018idc]
[8-16]
Advantages of Unity With SU(4)-Color: Reflections Through Neutrino Oscillations, Baryogenesis and Proton Decay, Jogesh C. Pati, Int.J.Mod.Phys. A32 (2017) 1741013, arXiv:1706.09531. Abdus Salam 90th birthday Memorial Meeting, IAS, Singapore, January 25-28, 2016.
[Pati:2017ysg]
[8-17]
Standard Model - Axion - Seesaw - H portal inflation, C. Tamarit, arXiv:1705.06951, 2017. 52nd Rencontres de Moriond conference, Electroweak session, La Thuile (Italy) 2017.
[Tamarit:2017aec]
[8-18]
Gauging Lepton Flavour, P. Quilez, arXiv:1705.06094, 2017. 51st Rencontres de Moriond, Electroweak Session.
[QuilezLasanta:2017irw]
[8-19]
Modified TBM and role of a hidden $\mathbb{Z}_2$, Rome Samanta, Mainak Chakraborty, Springer Proc.Phys. 203 (2018) 193-196, arXiv:1703.09579. XXII DAE-BRNS HEP Symposium.
[Samanta:2017nom]
[8-20]
Light neutrino masses from a non-Hermitian Yukawa theory, Jean Alexandre, Carl M. Bender, Peter Millington, J.Phys.Conf.Ser. 873 (2017) 012047, arXiv:1703.05251. DISCRETE2016: the Fifth Symposium on Prospects in the Physics of Discrete Symmetries, 28 November-3 December 2016, University of Warsaw, Poland.
[Alexandre:2017fpq]
[8-21]
Why PeV scale left-right symmetry is a good thing, Urjit A. Yajnik, Pramana 89 (2017) 59, arXiv:1702.03420. Pheno1, First Workshop on Beyond Standard Model Physics, IISER Mohali April 2016.
[Yajnik:2017yhd]
[8-22]
Quark and lepton masses and mixing from a gauged SU(3)_F family symmetry with a light O(eV) sterile Dirac neutrino, Albino Hernandez-Galeana, Physics 17 (2016) 36, arXiv:1612.07388. 19th Workshop 'What Comes Beyond the Standard Models', July 11-19, Bled, Slovenia.
[Hernandez-Galeana:2016fdh]
[8-23]
Is Left-Right Symmetry the Key?, Goran Senjanovic, Mod.Phys.Lett. A32 (2017) 1730004, arXiv:1610.04209. Abdus Salam Memorial meeting, Singapore, January 2016.
[Senjanovic:2016bya]
[8-24]
Gauge Unification from Split Supersymmetric String Models, Christos Kokorelis, PoS CORFU2015 (2016) 070, arXiv:1610.01742. Corfu Summer Institute 2015.
[Kokorelis:2016ckp]
[8-25]
Radiatively induced Fermi scale and unification, Tommi Alanne, arXiv:1609.08491, 2016. 28th Rencontres de Blois on Particle Physics and Cosmology, May 29 - June 03, 2016.
[Alanne:2016wbw]
[8-26]
The Breaking $\mu \leftrightarrow \tau$ Symmetry through the ${\bf Q}_{6}$ Flavour Group, J. C. Gomez-Izquierdo, F. Gonzalez-Canales, M. Mondragon, PoS DSU2015 (2016) 062, arXiv:1609.07836. 11th International Workshop Dark Side of the Universe 2015.
[Gomez-Izquierdo:2016gdc]
[8-27]
Neutrino Mass Sum Rules, Martin Spinrath, J.Phys.Conf.Ser. 888 (2017) 012176, arXiv:1609.07708. Neutrino 2016.
[Spinrath:2016ldz]
[8-28]
Symmetries of Massive and Massless Neutrinos, Y.S. Kim, arXiv:1609.07095, 2016. International Conference on Hadron Structure and QCD: from Low to High Energies (Gatchina, Russia, 2016).
[Kim:2016zus]
[8-29]
The remnant CP transformation and its implications, Felix Gonzalez-Canales, J. Phys. Conf. Ser. 761 (2016) 012046, arXiv:1609.01346. XV Mexican Workshop on Particles and Fields and the XXX Annual Meeting of the Division of Particles and Fields of the Mexican Physical Society.
[Gonzalez-Canales:2016xia]
[8-30]
The flavour problem and family symmetry beyond the Standard Model, Bartosz Dziewit, Jacek Holeczek, Monika Richter, Sebastian Zajac, Marek Zralek, Acta Phys.Polon. B46 (2015) 2399, arXiv:1605.06550. XXXIX International Conference of Theoretical Physics 'Matter to the deepest' (Ustron, Poland, September 2015).
[Dziewit:2015bxi]
[8-31]
Texture zeros in neutrino mass matrix, Bartosz Dziewit, Jacek Holeczek, Monika Richter, Sebastian Zajac, Marek Zralek, Phys.Atom.Nucl. 80 (2017) 353-357, arXiv:1605.06547. IX International Symposium :' Quantum Theory and Symmetries' in Yerevan, Armenia (July 2015).
[Dziewit:2016qri]
[8-32]
Sum Rules for Leptons, Martin Spinrath, Int.J.Mod.Phys. A31 (2016) 1630021, arXiv:1604.02658. International Conference on New Physics at the Large Hadron Collider, Singapore, 29 February - 4 March 2016.
[Spinrath:2016cwn]
[8-33]
Charged Fermion Masses and Mixing from a SU(3) Family Symmetry Model, Albino Hernandez-Galeana, Bled Workshops Phys. 16 (2015) 47-62, arXiv:1602.08212. 18th Bled workshop What comes beyond the standard models, 11-19 July, 2015, Bled, Slovenia.
[Hernandez-Galeana:2015zap]
[8-34]
Two-loop-induced neutrino masses: A model-independent perspective, D. Aristizabal Sierra, PoS PLANCK2015 (2015) 008, arXiv:1510.04958. 18th International Conference From the Planck Scale to the Electroweak Scale, May 25-29, 2015, Ioannina, Greece.
[AristizabalSierra:2015kfv]
[8-35]
Radiative origin of neutrino masses, D. Aristizabal Sierra, Acta Phys. Polon. B46 (2015) 2311, arXiv:1510.03762. XXXIX International Conference of Theoretical Physics 'Matter to the Deepest', Ustron, Poland, September 13-18, 2015.
[AristizabalSierra:2015zrr]
[8-36]
Low-mass right-handed gauge bosons from minimal grand unified theories, Biswonath Sahoo. M. K. Parida, Nucl.Part.Phys.Proc. 273-275 (2016) 2642-2644, arXiv:1510.01096. ICHEP-2014, Valencia, Spain.
[Sahoo:2015hql]
[8-37]
Mixing angle and phase predictions from A5 with generalised CP, Jessica Turner, arXiv:1506.06898, 2015. Prospects in Neutrino Physics Conference, 15 - 17 December, 2014 (NuPhys 2014).
[Turner:2015mwa]
[8-38]
Completing the Standard Model with right-handed neutrinos and Z', J.W. van Holten, arXiv:1506.03240, 2015.
[vanHolten:2015aua]
[8-39]
Some Novel Ways for Neutrino Mass Generation, Nick E. Mavromatos, PoS NEUTEL2015 (2015) 039, arXiv:1506.01482. XVI International Workshop on Neutrino Telescopes, 2-6 March 2015, Palazzo Franchetti, Istituto Veneto, Venice, Italy.
[Mavromatos:2015jma]
[8-40]
Beyond the SM phenomena and the extended Higgs sector based on the SUSY gauge theory with confinement, Tetsuo Shindou, arXiv:1504.07970, 2015. 2nd Toyama International Workshop on Higgs as a Probe of New Physics 2015, 11-15 February 2015, Toyama, Japan.
[Shindou:2015fsa]
[8-41]
Higgs Inflation and Scalar Dark Matter with Right-handed Neutrinos, Hiroyuki Ishida, arXiv:1504.06931, 2015. HPNP2015.
[Ishida:2015hca]
[8-42]
Models for neutrino mass and physics beyond standard model, Amine Ahriche, Kristian L. McDonald, Salah Nasri, arXiv:1504.06759, 2015. HPNP2015, Toyama, February 2015.
[Ahriche:2015lba]
[8-43]
Radiative charged-lepton masses with more than one Higgs doublet, F. R. Joaquim, J. T. Penedo, PoS CORFU2014 (2015) 049, arXiv:1504.06536. Corfu Summer Institute 2014 (Corfu, Greece, 3-21 September 2014).
[Joaquim:2015zva]
[8-44]
On Bimaximal Neutrino Mixing and GUT's, Guido Altarelli, Pedro A. N. Machado, Davide Meloni, PoS CORFU2014 (2015) 012, arXiv:1504.05514. Corfu Summer Institute 2014 'School and Workshops on Elementary Particle Physics and Gravity', 3-21 September 2014 Corfu, Greece.
[Altarelli:2015foa]
[8-45]
The One Higgs and its Connections, Ernest Ma, arXiv:1504.05503, 2015. HPNP2015, Toyama, February 2015.
[Ma:2015eoa]
[8-46]
Neutrino Mixing from SUSY breaking, Wolfgang G. Hollik, PoS CORFU2014 (2015) 077, arXiv:1504.03270. Summer School and Workshop on the Standard Model and Beyond 2013.
[Hollik:2015jva]
[8-47]
From the Fourth Color to Spin-charge Separation - Neutrinos and Spinons, Chi Xiong, Mod. Phys. Lett. A30 (2015) 1530021, arXiv:1503.09158. International Conference on Massive Neutrinos, Singapore.
[Xiong:2015dta]
[8-48]
Lepton Mixing Predictions from (Generalised) CP and Discrete Flavour Symmetry, Thomas Neder, J. Phys. Conf. Ser. 631 (2015) 012019, arXiv:1503.09041. DISCRETE 2014: Fourth Symposium on Prospects in the Physics of Discrete Symmetries, London, UK, Dec 2-6 2014.
[Neder:2015wsa]
[8-49]
Texture Zero Mass Matrices and Flavor Mixing of Quarks and Leptons, Harald Fritzsch, Subnucl.Ser. 53 (2017) 201-207, arXiv:1503.07927.
[Fritzsch:2015haa]
[8-50]
Sterile Neutrinos in $E_{\rm 6}$, Jonathan L. Rosner, Mod. Phys. Lett. A30 (2015) 1530013, arXiv:1503.03854. International Conference on Massive Neutrinos, Singapore, February 9-13, 2015.
[Rosner:2015xwa]
[8-51]
Neutrino Masses and Flavor Mixing, Harald Fritzsch, Mod. Phys. Lett. A30 (2015) 1530012, arXiv:1503.01857. International Conference on Massive Neutrinos, Singapore, 9 - 13 February 2015.
[Fritzsch:2015gxa]
[8-52]
General Majorana Neutrino Mass Matrix from a Low Energy SU(3) Family Symmetry with Sterile Neutrinos, Albino Hernandez-Galeana, Bled Workshops Phys. 15 (2014) 93-114, arXiv:1412.6708. 17th Bled Workshop 'What Comes Beyond the Standard Models', 20-28 July, Bled, Slovenia.
[Hernandez-Galeana:2014gha]
[8-53]
Realization of the Lepton Flavor Structure from Point Interactions, Yukihiro Fujimoto, Kenji Nishiwaki, Makoto Sakamoto, Ryo Takahashi, EPJ Web Conf. 95 (2015) 04022, arXiv:1412.2519. 3rd International Conference on New Frontiers in Physics.
[Fujimoto:2014uga]
[8-54]
Stability constraints of the scalar potential in extensions of the Standard Model with TeV scale right handed neutrinos, Claudio Coriano, Luigi Delle Rose, Carlo Marzo, Nucl. Part. Phys. Proc. 265-266 (2015) 311-313, arXiv:1411.7168. NOW 2014, 7-14 September 2014, Conca Specchiulla (Otranto-Italy).
[Coriano:2014wxa]
[8-55]
Natural Limits of Electroweak Model as Contraction of its Gauge Group, Nikolay A. Gromov, J. Phys. Conf. Ser. 597 (2015) 012040, arXiv:1411.4965. International Workshop on 'Symmetries, Special Functions and Superintegrability (S3)', Valladolid, Spain, July 10 - 11, 2014.
[Gromov:2014ena]
[8-56]
(Quasi-)Degeneration, Quantum Corrections and Neutrino Mixing, W. G. Hollik, arXiv:1411.2946, 2014. 42th ITEP winter school, Feb 2014, Moscow, Russia.
[Hollik:2014lka]
[8-57]
Non-diagonal charged lepton mass matrix, the TBM and non-zero $\theta_{13}$, Alma D. Rojas, Nucl.Part.Phys.Proc. 273-275 (2016) 2684-2686, arXiv:1410.6107. ICHEP 2014, 2-9 July 2014, Valencia, Spain.
[Rojas:2014coa]
[8-58]
Classification of lepton mixing patterns from finite flavour symmetries, Renato M. Fonseca, Walter Grimus, Nucl.Part.Phys.Proc. 273-275 (2016) 2618-2620, arXiv:1410.4133. ICHEP 2014, Valencia, Spain, July 2014.
[Fonseca:2014lfa]
[8-59]
Fermion Masses from Six Dimensions and Implications for Majorana Neutrinos, J-M Frere, M Libanov, S Mollet, S Troitsky, J. Phys. Conf. Ser. 627 (2015) 012001, arXiv:1409.8032. 2nd International Workshop on Theoretical and Computational Physics (IWTCP-2): Buon Ma Thuot, 28-31 July 2014.
[Frere:2014rra]
[8-60]
Triality selection rules of Octonion and Quantum Mechanics, Sadataka Furui, arXiv:1409.3761, 2014. RIKEN Workshop 4th Sept. 2014.
[Furui:2014uga]
[8-61]
Towards an axiomatic model of fundamental interactions at Planck scale, Arthemy V. Kiselev, arXiv:1406.3273, 2014. Int. conference 'Symmetries of discrete systems and processes' (15-19 July 2013, CVUT Decin, Czech Republic) and V Conference of young scientists 'Problems of Theoretical Physics' (24-27 December 2013, Bogolyubov ITP NAS, Kiev, Ukraine).
[Kiselev:2014gra]
[8-62]
Pseudoscalar Fields in Torsionful Geometries of the Early Universe, the Baryon Asymmetry and Majorana Neutrino Mass Generation, Nick E. Mavromatos, J. Phys. Conf. Ser. 651 (2015) 012015, arXiv:1403.7684. XIV Mexican Workshop on Particles and Fields, November 25-29 2013, Oaxaca (Mexico).
[Mavromatos:2014vea]
[8-63]
Multi-Higgs doublet models with local $U(1)_H$ gauge symmetry and neutrino physics therein, P. Ko, Yuji Omura, Chaehyun Yu, arXiv:1401.3572, 2014. 2013 CETUP' Workshop on Neutrino and Astrophysics.
[Ko:2014tca]
[8-64]
Sterile neutrinos in the grand unified group E6, Jonathan L. Rosner, arXiv:1401.2402, 2014. Snowmass.
[Rosner:2013oqa]
[8-65]
Neutrinos in the Early Universe, Kalb-Ramond Torsion and Matter-Antimatter Asymmetry, Nick E. Mavromatos, Sarben Sarkar, EPJ Web Conf. 71 (2014) 00085, arXiv:1312.5230. 2nd International Conference on New Frontiers in Physics 2013, Kolymbari Greece.
[Mavromatos:2013osa]
[8-66]
A framework for dynamical generation of flavor mixing, M.Blasone, P.Jizba, G.Lambiase, N.E.Mavromatos, J. Phys. Conf. Ser. 538 (2014) 012003, arXiv:1312.4924. Symmetries in Science XVI, Bregenz 2013.
[Blasone:2013qia]
[8-67]
Right-handed neutrino magnetic moments, Alberto Aparici, Kyungwook Kim, Arcadi Santamaria, Jose Wudka, J. Phys. G37 (2010) 075012, arXiv:1311.7337. 16th International Symposium on particles, strings and cosmology, PASCOS 2010 (Valencia, Spain).
[Aparici:2010zz]
[8-68]
Residual symmetries in the lepton mass matrices, Walter Grimus, Acta Phys.Polon. B44 (2013) 2331-2337, arXiv:1310.6263. XXXVII International Conference of Theoretical Physics, 'Matter to the Deepest,' Ustron, September 1-6, 2013.
[Grimus:2013okm]
[8-69]
An alternative to the standard model, Seungwon Baek, Pyungwon Ko, Wan-Il Park, AIP Conf.Proc. 1604 (2014) 73-82, arXiv:1310.6229. VII International Conference on Interconnections between Particle Physics and Cosmology (PPC2013).
[Baek:2013dxe]
[8-70]
A realistic renormalizable supersymmetric E6 model, Borut Bajc, Vasja Susic, arXiv:1310.4422, 2013. Neutrino Physics and Astrophysics, CETUP' 2013 program, July 15 - July 26, 2013, Lead, South Dakota.
[Bajc:2013nta]
[8-71]
Witten's loop in the flipped SU(5) unification, Michal Malinsky, Carolina Arbelaez Rodriguez, Helena Kolesova, AIP Conf.Proc. 1604 (2014) 237-244, arXiv:1310.0914. CETUP' 2013 program (Neutrino Physics and Astrophysics session: July 15 - July 26, 2013), Lead, South Dakota.
[Malinsky:2013bxa]
[8-72]
Correlations and textures in the neutrino mass matrix, Walter Grimus, Patrick Otto Ludl, PoS EPS-HEP2013 (2014) 075, arXiv:1309.7883. European Physical Society Conference on High Energy Physics - EPS-HEP2013, 18-24 July 2013, Stockholm, Sweden.
[Grimus:2013qea]
[8-73]
On the problem of quark-lepton families, Maxim Yu. Khlopov, Bled Workshops in Physics 12 (2011) 223, arXiv:1306.4702. 14th Workshop 'What Comes Beyond the Standard Models', 11. - 21. July 2011 Bled, DMFA-Zaloznistvo, Ljubljana, December 2011.
[Khlopov:2011zpc]
[8-74]
The cost of gauge coupling unification in the SU(5) model at three loops, L. Mihaila, arXiv:1305.3111, 2013. Rencontres de Moriond 2013 EW session.
[Mihaila:2013tna]
[8-75]
Vacuum stability of supersymmetric extended Higgs sectors with a discrete symmetry, Naoki Machida, arXiv:1305.2374, 2013. Toyama International Workshop on 'Higgs as a Probe of New Physics 2013 (HPNP2013)', 13-16, February, 2013.
[Machida:2013zxa]
[8-76]
A new approach to Naturalness in SUSY models, D. M. Ghilencea, PoS Corfu2012 (2013) 034, arXiv:1304.1193. Corfu Summer Institute 2012.
[Ghilencea:2013fka]
[8-77]
Correlations in Minimal $U(2)^3$ models and an SO(10) SUSY GUT model facing new data, Jennifer Girrbach, arXiv:1208.5630, 2012. FLASY12 Workshop on Flavor Symmetries Dortmund, 30 June 2012 - 4 July 2012.
[Girrbach:2012gz]
[8-78]
Theoretical Models for Neutrino Masses, Luca Merlo, Frascati Phys.Ser. 57 (2013) 67-74, arXiv:1205.5698. La Thuile 2012.
[Merlo:2012cb]
[8-79]
Flavor Mixing in the Gauge-Higgs Unification, Y. Adachi, N. Kurahashi, C. S. Lim, N. Maru, K. Tanabe, AIP Conf. Proc. 1467 (2012) 258-261, arXiv:1204.4971. GUT2012, March 15-17 2012, Kyoto, Japan.
[Adachi:2012st]
[8-80]
Majorana neutrino mass matrix with CP symmetry breaking, Bartosz Dziewit, Sebastian Zajac, Marek Zralek, Acta Phys. Polon. B42 (2011) 2509-2516, arXiv:1204.3665. XXXV International Conference of Theoretical Physics 'Matter to the Deepest 2011', Ustron, Poland, September 12-18, 2011.
[Dziewit:2011pd]
[8-81]
Heavy Majorana neutrino effects on MSSM-Mh, M. J. Herrero, S. Heinemeyer, S. Penaranda, A. M. Rodriguez-Sanchez, PoS RADCOR2011 (2011) 029, arXiv:1201.4770. 10th International Symposium on Radiative Corrections - RADCOR2011, September 26-30, 2011, Mamallapuram, India.
[Herrero:2011yyb]
[8-82]
Fermion-boson loops with bilinear R-parity violation leading to Majorana neutrino mass and magnetic moments, M. Gozdz, W. A. Kaminski, Int. J. Mod. Phys. E17 (2008) 276, arXiv:1201.1235. Nuclear Physics Workshop in Kazimierz Dolny, Poland, 2007.
[Gozdz:2008mhp]
[8-83]
Neutrino masses from R-parity non-conserving loops, Marek Gozdz, Wieslaw A. Kaminski, Fedor Simkovic, Acta Phys. Polon. B37 (2006) 2203, arXiv:1201.1231. Cracow Epiphany Conference on Neutrinos and Dark Matter, 5-8.1.2006, Cracow, Poland.
[Gozdz:2006jq]
[8-84]
A Scan for Models of Neutrino Mixing from Non-Abelian Discrete Symmetries, Akin Wingerter, Krishna Mohan Parattu, PoS EPS-HEP2011 (2011) 092, arXiv:1110.6762. 2011 Europhysics Conference on High Energy Physics-HEP 2011, July 21-27, 2011, Grenoble, France.
[Wingerter:2011uh]
[8-85]
Masses of Fundamental Particles, Hidezumi Terazawa, J.Mod.Phys. 5 (2014) 205, arXiv:1109.3705. International School and Conference, 'New Trends in High-Energy Physics', Alushta, Crimea, Ukraine, September 3-10, 2011.
[Terazawa:2014dla]
[8-86]
Flavour Physics in an SO(10) Grand Unified Model, Jennifer Girrbach, PoS EPS-HEP2011 (2011) 183, arXiv:1108.4852. International Europhysics Conference on High Energy Physics - HEP 2011, July 21-27 2011, Grenoble, France.
[Girrbach:2011wt]
[8-87]
Neutrino masses beyond the tree level, D. Aristizabal Sierra, Few Body Syst. 53 (2012) 151-156, arXiv:1108.1120. Workshop '30 years of strong interactions', Spa, Belgium, 6-8 April 2011.
[AristizabalSierra:2011tc]
[8-88]
Can New Generations Explain Neutrino Masses?, A. Aparici, J. Herrero-Garcia, N. Rius, A. Santamaria, arXiv:1106.0415, 2011. Les Rencontres de Moriond EW 2011.
[Aparici:2011qu]
[8-89]
Flavour puzzle or Why neutrinos are different?, M. Libanov, F.-S. Ling, arXiv:1105.6035, 2011. 46th Rencontres de Moriond, EW Interactions and Unified Theories, La Thuile, March 13-20, 2011.
[Libanov:2011st]
[8-90]
Horizontal Symmetry: Bottom Up and Top Down, C.S. Lam, arXiv:1105.5166, 2011. WIN 11, Jan 31 to Feb 5, 2011, Capetown, South Africa.
[Lam:2011zm]
[8-91]
Suppression of flavor violation in an A4 warped extra dimensional model, Avihay Kadosh, J. Phys. Conf. Ser. 335 (2011) 012019, arXiv:1102.4105. DISCRETE'10 - Symposium on Prospects in the Physics of Discrete Symmetries.
[Kadosh:2011rm]
[8-92]
Bimaximal Neutrino Mixing with Discrete Flavour Symmetries, Luca Merlo, J. Phys. Conf. Ser. 335 (2011) 012049, arXiv:1101.3867. DISCRETE'10 - Symposium on Prospects in the Physics of Discrete Symmetries.
[Merlo:2011vc]
[8-93]
Moduli fixing in semirealistic string compactifications, Saul Ramos-Sanchez, J. Phys. Conf. Ser. 287 (2011) 012021, arXiv:1101.3803. XIV Mexican School on Particles and Fields, Morelia, Mexico, Nov. 4-12, 2010.
[Ramos-Sanchez:2011bkb]
[8-94]
Models for neutrino mass with discrete symmetries, S.Morisi, Nucl. Phys. Proc. Suppl. 217 (2011) 331-333, arXiv:1012.1971. NOW2010, September 4-11, Otranto, Italy.
[Morisi:2010iy]
[8-95]
Non-universal, Non-anomalous U(1)' in a Model with Anomaly Mediated SUSY Breaking, Mu-Chun Chen, Jinrui Huang, PoS ICHEP2010 (2010) 386, arXiv:1011.6368. 35th International Conference of High Energy Physics - ICHEP2010, July 22-28, 2010, Paris France.
[Chen:2010fg]
[8-96]
Geometrical Origin of CP Violation and CKM and MNS Matrices in SU(5) x T', Mu-Chun Chen, K.T. Mahanthappa, PoS ICHEP2010 (2010) 407, arXiv:1011.6364. 35th International Conference of High Energy Physics - ICHEP2010, July 22-28, 2010, Paris France.
[Chen:2010fe]
[8-97]
The interplay between grand unified and flavour symmetries in a Pati-Salam x S4 model, Reinier de Adelhart Toorop, J. Phys. Conf. Ser. 259 (2010) 012099, arXiv:1010.3406. PASCOS 2010, Valencia, Spain.
[deAdelhartToorop:2010tqc]
[8-98]
An A4 model for neutrinos, E. Peinado, J. Phys. Conf. Ser. 259 (2010) 012093, arXiv:1010.2614. PASCOS 2010, the 16th International Symposium on Particles, Strings and Cosmology, Valencia, Spain.
[Peinado:2010iu]
[8-99]
Neutrino masses and mixing in $\mu\nu$SSM, Pradipta Ghosh, J. Phys. Conf. Ser. 259 (2010) 012063, arXiv:1010.2578. PASCOS 2010, 16th International Symposium on Particles Strings and Cosmology, Valencia, Spain, 19-23 July 2010.
[Ghosh:2010ig]
[8-100]
A common source for neutrino and sparticle masses, Andrea Brignole, Filipe R. Joaquim, Anna Rossi, J. Phys. Conf. Ser. 259 (2010) 012068, arXiv:1010.1001. PASCOS 2010, the 16th International Symposium on Particles, Strings and Cosmology (Valencia, Spain) and SUSY 2010, the 18th International Conference on Supersymmetry and Unification of Fundamental Interactions (Bonn, Germany).
[Brignole:2010bj]
[8-101]
Could a Weak Coupling Massless SU(5) Theory Underly the Standard Model S-Matrix?, Alan. R. White, arXiv:1009.4850, 2010. Gribov-80 Memorial Workshop.
[White:2010ay]
[8-102]
Noncommutative Geometry Spectral Action as a framework for unification: Introduction and phenomenological/cosmological consequences, Mairi Sakellariadou, Int.J.Mod.Phys. D20 (2011) 785-804, arXiv:1008.5348. Mario Castagnino's Festschrift.
[Sakellariadou:2010nr]
[8-103]
Natural Dirac Neutrinos from Warped Extra Dimension, Jackson M. S. Wu, Frascati Phys.Ser. 51 (2010) 61-66, arXiv:1006.5565. 2nd Young Researchers Workshop 'Physics Challenges in the LHC Era', Frascati, May 2010.
[Wu:2010hc]
[8-104]
Neutrino Mass Matrix Subject to $\mu-\tau$ Symmetry and Invariant under a Cyclic Permutation, Asan Damanik, arXiv:1004.1457, 2010. CTP BUE International Conference on Neutrino Physics in the LHE Era, Luxor, Egypt, 15-19 November 2009.
[Damanik:2010rv]
[8-105]
Quark Mass Matrix Model for Neutrino Mixing, Yoshio Koide, arXiv:1003.5723, 2010. Neutrino Physics in the LHC Era, Nov. 2009, Luxor, Egypt.
[Koide:2010yb]
[8-106]
Horizontal Symmetry from the Bottom Up, C.S. Lam, arXiv:1003.0498, 2010. Luxor09.
[Lam:2010su]
[8-107]
Dark Matter and Dark Energy from Gravitational Symmetry Breaking, A. Fuzfa, J.-M. Alimi, AIP Conf. Proc. 1241 (2010) 854-865, arXiv:1002.4715. Invisible Universe International Conference, UNESCO-Paris, June 29-July 3, 2009.
[Fuzfa:2010we]
[8-108]
Left-Handed Neutrinos and Right-Handed Scotinos, Ernest Ma, arXiv:1002.0564, 2010. Luxor09.
[Ma:2010se]
[8-109]
The Electroweak Model based on the Nonlinearly realized Gauge Group. Theoretical Foundations and Phenomenological Prospects, Daniele Bettinelli, Ruggero Ferrari, Andrea Quadri, PoS RADCOR2009 (2010) 064, arXiv:1001.2423. RADCOR2009.
[Bettinelli:2010un]
[8-110]
Naive solution of the little hierarchy problem and its physical consequences, Bohdan Grzadkowski, Jose Wudka, Acta Phys. Polon. B40 (2009) 3007-3014, arXiv:0910.4829. XXXIII International Conference of Theoretical Physics, 'Matter to the Deepest: Recent Developments in Physics of Fundamental Interactions', Ustron 2009.
[Grzadkowski:2009bp]
[8-111]
Weak complementarity from discrete symmetries, Luca Merlo, Acta Phys. Polon. B40 (2009) 3179-3184, arXiv:0910.2810. XXXIII International Conference of Theoretical Physics: 'USTRON09 - Matter to the Deepest: Recent Developments in Physics of Fundamental Interactions'.
[Merlo:2009cu]
[8-112]
A Viable Flavor Model for Quarks and Leptons in RS with T' Family Symmetry, Mu-Chun Chen, K.T. Mahanthappa, Felix Yu, AIP Conf. Proc. 1200 (2010) 623-626, arXiv:0909.5472. 17th International Conference on Supersymmetry and the Unification of Fundamental Interactions (SUSY09), Boston, MA, June 5-10, 2009.
[Chen:2009hr]
[8-113]
The Pati-Salam Supersymmetric SM (PSSSM), Felix Braam, Juergen Reuter, Daniel Wiesler, AIP Conf. Proc. 1200 (2010) 458-461, arXiv:0909.3081. SUSY 09, Northeastern University, Boston.
[Braam:2009fi]
[8-114]
Bimaximal neutrino mixing and weak complementarity with S4 discrete symmetry, Luca Merlo, AIP Conf. Proc. 1200 (2010) 948-951, arXiv:0909.2760. SUSY 2009 - 17th International Conference on Supersymmetry and the Unification of Fundamental Interactions, June 2-4, Boston.
[Merlo:2009zi]
[8-115]
The Origin of Neutrino Masses and Physics Beyond the Standard Model, Pavel Fileviez Perez, AIP Conf. Proc. 1222 (2010) 3-9, arXiv:0909.2698. NuFact09, Fermilab and IIT, Chicago, July 20-25, 2009.
[FileviezPerez:2009ym]
[8-116]
Grand Unified Flavour Physics, Susanne Westhoff, AIP Conf. Proc. 1200 (2010) 572-575, arXiv:0909.2568. SUSY'09, june 5-10, Northeastern University, Boston MA.
[Westhoff:2009rd]
[8-117]
Intermediate scales in non-supersymmetric SO(10) grand unified theories, Michal Malinsky, PoS EPS-HEP2009 (2009) 384, arXiv:0909.2543. 2009 Europhysics Conference on High Energy Physics, July 16 - 22, 2009, Krakow, Poland.
[Malinsky:2009qn]
[8-118]
Neutrino Theory: Some Recent Developments, Ernest Ma, arXiv:0908.1770, 2009. DPF-2000, Detroit, MI, July 2009.
[Ma:2009wt]
[8-119]
GUT predictions for quark and lepton mass ratios, Stefan Antusch, Martin Spinrath, AIP Conf. Proc. 1200 (2010) 928-931, arXiv:0908.1520. SUSY 09.
[Antusch:2009rx]
[8-120]
Tri-bimaximal and bimaximal neutrino mixing from discrete symmetries, Luca Merlo, Nuovo Cim. 032C (2009) 333-337, arXiv:0907.1781. IFAE 2009: Incontri di Fisica delle Alte Energie, Bari, Italy, 15-17 April 2009.
[Merlo:2009zu]
[8-121]
A Flavour-Symmetric Perspective on Neutrino Mixing, P. F. Harrison, W. G. Scott, arXiv:0906.2732, 2009. Neutrino Telescopes, Venice, Italy, 10-13 March 2009.
[Harrison:2009pw]
[8-122]
The Naturalness of the Fourth SM Family, S. Sultansoy, Balk. Phys. Lett. 17 (2009) 353-358, arXiv:0905.2874. International Conference on Particle Physics: In memoriam Engin Arik and her colleagues, Istanbul, Turkey, 27-31 Oct 2009. To appear in Proceedings.
[Sultansoy:2009db]
[8-123]
Theoretical Models of Neutrino Mixing: Recent Developments, Guido Altarelli, arXiv:0905.2350, 2009. 13th International Workshop on Neutrino Telescopes, Venice, March 10-13, 2009.
[Altarelli:2009km]
[8-124]
SU(5) and A4, Alfredo Urbano, arXiv:0905.0863, 2009. XLIVth Rencontres de Moriond - Electroweak Interactions and Unified Theories, March 7-14, 2009, La Thuile (Aosta), Italy.
[Urbano:2009sj]
[8-125]
S4 Flavor Model of Quarks and Leptons, Hajime Ishimori, Yusuke Shimizu, Morimitsu Tanimoto, Prog. Theor. Phys. Suppl. 180 (2010) 61-71, arXiv:0904.2450. 16th Yukawa International Seminar, Particle Physics beyond the Standard Model.
[Ishimori:2009ns]
[8-126]
T' and the Cabibbo Angle, Paul H. Frampton, Int. J. Mod. Phys. A24 (2009) 3359-3365, arXiv:0903.5228. 75 Years Since Solvay. Singapore. November 2008.
[Frampton:2009ut]
[8-127]
Spontaneous R-parity violation and the origin of neutrino mass, A. Vicente, J. Phys. Conf. Ser. 171 (2009) 012073, arXiv:0903.1512. DISCRETE'08.
[Vicente:2009wk]
[8-128]
An extended Higgs sector for neutrino mass, dark matter and baryon asymmetry, Mayumi Aoki, Shinya Kanemura, Osamu Seto, arXiv:0902.3155, 2009. International Linear Collider Workshop 2008 (LCWS08 and ILC08), November 16-20, 2008, University of Illinois, Chicago.
[Aoki:2009mb]
[8-129]
Quasi-degenerate neutrinos and tri-bi-maximal mixing, Ivo de Medeiros Varzielas, J. Phys. Conf. Ser. 171 (2009) 012070, arXiv:0901.4122. DISCRETE'08.
[deMedeirosVarzielas:2009sih]
[8-130]
A TeV-scale model for neutrino mass, DM and baryon asymmetry, Mayumi Aoki, Shinya Kanemura, Osamu Seto, PoS CHARGED2008 (2008) 009, arXiv:0901.0849. Prospects for Charged Higgs Discovery at Colliders (Charged 2008), 16-19 Sep. 2008, Uppsala University, Sweden.
[Aoki:2008dvc]
[8-131]
Deviations from tri-bimaximal mixing, Werner Rodejohann, Nucl. Phys. Proc. Suppl. 188 (2009) 336-338, arXiv:0901.0248. NOW2008, Conca Specchiulla, Otranto, Italy, September 6-13, 2008.
[Rodejohann:2009na]
[8-132]
Neutrino Mass Matrix Related to Up-Quark Masses and Nearly Tribimaximal Mixing - Based on a Yukawaon model -, Yoshio Koide, Int. J. Mod. Phys. A24 (2009) 3469-3475, arXiv:0812.3203. PAQFT08.
[Koide:2008kw]
[8-133]
Electroweak scale neutrinos and Higgses, Alfredo Aranda, AIP Conf. Proc. 1116 (2009) 227-234, arXiv:0812.2958. XIII Mexican School of Particles and Fields, 2-11 October, 2008, Sonora, Mexico.
[Aranda:2008ed]
[8-134]
Supersymmetry, General Relativity and Unity of Nature, Kazunari Shima, Motomu Tsuda, arXiv:0810.4797, 2008. 4th EU RTN Workshop: Constituents, Fundamental Forces and Symmetries of the Universe: FU-4, Varna, Bulgaria, 11-17 Sep 2008.
[Shima:2008sn]
[8-135]
Universal Extra Dimension models with right-handed neutrinos, Shigeki Matsumoto, Joe Sato, Masato Senami, Masato Yamanaka, AIP Conf. Proc. 1006 (2008) 122-125, arXiv:0810.0700. UAE - CERN Workshop On High Energy Physics And Applications, 26-28 Nov 2007, Al Ain, Abu Dhabi, United Arab Emirates.
[Matsumoto:2008zzb]
[8-136]
B-L mediated SUSY breaking with radiative B-L symmetry breaking, Tatsuru Kikuchi, Takayuki Kubo, AIP Conf. Proc. 1078 (2009) 402-404, arXiv:0809.2011. 16th International Conference on Supersymmetry and Unification of Fundamental Interactions (SUSY08), Seoul, Korea, June 16-21 2008.
[Kikuchi:2008qt]
[8-137]
Neutrino masses in lepton number violating mSUGRA, C. H. Kom, AIP Conf. Proc. 1078 (2009) 309-311, arXiv:0809.0452. SUSY08.
[Kom:2008ad]
[8-138]
Mass hierarchy and flavour mixing from discrete symmetries, Yin Lin, Nuovo Cim. 123B (2008) 883-885, arXiv:0809.0370. IFAE 2008, Bologna, Italy, 26-28 March 2008.
[Lin:2008yp]
[8-139]
Neutrino Physics and A4 matter assignments, S.Morisi, Nuovo Cim. 123B (2008) 886-888, arXiv:0807.4013. IFAE 2008, Bologna, Italy, 26-28 March 2008.
[Morisi:2008nk]
[8-140]
SO(3) Gauge Symmetry and Nearly Tri-bimaximal Neutrino Mixing, Yue-Liang Wu, Int. J. Mod. Phys. A23 (2008) 3376-3383, arXiv:0807.3847. 4th International Conference on Flavor Physics (ICFP2007).
[Wu:2008ep]
[8-141]
A Model for Neutrino Masses, C. Jarlskog, arXiv:0806.2206, 2008. IV International Workshop on Neutrino Oscillations, April 15-18 (2008) Venice, Italy.
[Jarlskog:2008zf]
[8-142]
CP asymmetries from non-unitarity leptonic mixing, J. Lopez-Pavon, arXiv:0805.2127, 2008. XLIIIrd Rencontres de MORIOND Electroweak Session, La Thuile, March 1-8, 2008.
[Lopez-Pavon:2008xwi]
[8-143]
The Hierarchy Problem and the Safety in Colliders Physics, Francesco Caravaglios, arXiv:0805.2057, 2008. Les Rencontres de Physique de la Vallee d' Aoste, La Thuile, March (2008).
[Caravaglios:2008ze]
[8-144]
Model Bulding for the Neutrino Sector and Cold Dark Matter, Hiroshi Okada, Soryushiron Kenkyu Electron. 116 (2008) A158-160, arXiv:0804.0926. SI2007, Fuji-Yoshida, Japan (August2007).
[Okada:2008cc]
[8-145]
Sterile Neutrinos in a 6x6 Matrix Approach, T. Goldman, Int. J. Mod. Phys. A22 (2007) 4967-4978, arXiv:0804.0454. Festschrift for B.H.J. McKellar and G. Joshi, U of Melbourne, 29-30 Nov. 2006.
[Goldman:2007zz]
[8-146]
Nonlinear Supersymmetric General Relativity and Unity of Nature, Kazunari Shima, Motomu Tsuda, arXiv:0802.2785, 2008. Conference in Honor of C.N. Yang's 85th Birthday, October 30 - November 2, 2007, Singapore.
[Shima:2008tp]
[8-147]
Supersymmetric Models for Neutrino Mass, Jorge C. Romao, arXiv:0710.5730, 2007. 6th International Workshop on New Worlds in Astroparticle Physics, 6-8 September 2007, Faro, Portugal.
[Romao:2007ny]
[8-148]
A(4) Symmetry and Neutrinos, Ernest Ma, Int. J. Mod. Phys. A23 (2008) 3366-3370, arXiv:0710.3851. ICFP2007.
[Ma:2007hg]
[8-149]
Neutrino Masses and Mixings from Quark Mass Hierarchies, Soren Wiesenfeldt, arXiv:0710.2186, 2007. SUSY07.
[Wiesenfeldt:2007hz]
[8-150]
Tri-bimaximal Neutrino Mixing and CKM Matrix in a SU(5)x(d)T Model, Mu-Chun Chen, K.T. Mahanthappa, arXiv:0710.2118, 2007. SUSY07.
[Chen:2007gp]
[8-151]
Unification with and without Supersymmetry: Adjoint SU(5), Pavel Fileviez Perez, arXiv:0710.1321, 2007. SUSY07.
[FileviezPerez:2007nh]
[8-152]
SUSY Multi-Step Unification without Doublet-Triplet Splitting, Jurgen Reuter, arXiv:0709.4202, 2007. SUSY07.
[Reuter:2007eh]
[8-153]
Constructing Textures in Extended Quark-Lepton Complementarity, Florian Plentinger, arXiv:0709.1949, 2007. SUSY07.
[Plentinger:2007tp]
[8-154]
The LHC Pomeron and Unification of the Standard Model - a Bound-State S-Matrix Within a Fixed-Point Field Theory ?, Alan R. White, arXiv:0708.1306, 2007. Small-x and Diffraction Workshop, Fermilab, March 2007.
[White:2007rq]
[8-155]
Broken SU(3) Flavor Symmetry and Tribimaximal Neutrino Mixing, Yoshio Koide, arXiv:0707.0899, 2007. Lepton-Photon 2007.
[Koide:2007qh]
[8-156]
Charged Lepton Mass Formula - Development and Prospect -, Yoshio Koide, Int. J. Mod. Phys. E16 (2007) 1417-1426, arXiv:0706.2534. Internationa Workshop on Neutrino Masses and Mixing, at Shizuoka, Japan, December, 17-19, 2006.
[Koide:2007eu]
[8-157]
Neutrino symmetries from high to low scales, Probir Roy, AIP Conf. Proc. 939 (2007) 286-293, arXiv:0706.2532. International Workshop on Theoretical and Experimental Physics, IIT (Roorkee), March 2007.
[Roy:2007es]
[8-158]
Predictions from non trivial Quark-Lepton complementarity, Marco Picariello, Bhag C. Chauhan, Joao Pulido, Emilio Torrente-Lujan, Int. J. Mod. Phys. A22 (2007) 5860-5874, arXiv:0706.2332. CTP Symposium on Sypersymmetry at LHC.
[Picariello:2007ss]
[8-159]
Grand Unification with and without Supersymmetry, Alejandra Melfo, AIP Conf. Proc. 917 (2007) 252-259, arXiv:0705.4059. VI SILAFAE, Puerto Vallarta, Mexico, November 2006.
[Melfo:2007sr]
[8-160]
SUSY: New Perspectives and Variants, C. Munoz, arXiv:0705.2007, 2007. Moriond 2006.
[Munoz:2007fa]
[8-161]
New Approach to Texture-zeros with S_3 symmetry - Flavor Symmetry and Vacuum Aligned Mass Textures -, Satoru Kaneko et al., arXiv:hep-ph/0703250, 2007. International Workshop on Neutrino Masses and Mixings - Toward Unified Understanding of Quark and Lepton Mass Matrices -, University of Shizuoka, Shizuoka, Japan, December 17-19 2006.
[Kaneko:2007ea]
[8-162]
Quark and lepton mass matrices with A_4 family symmetry, H. Sawanaka, Int. J. Mod. Phys. E16 (2007) 1383-1394, arXiv:hep-ph/0703234. International Workshop on Neutrino Masses and Mixings, Shizuoka, Japan, 17-19 December 2006.
[Sawanaka:2007ab]
[8-163]
Neutrino Mixing: from the Broken \mu-\tau Symmetry to the Broken Friedberg-Lee Symmetry, Zhi-zhong Xing, Int. J. Mod. Phys. E16 (2007) 1361-1372, arXiv:hep-ph/0703007. International Workshop on Neutrino Masses and Mixings, December 17 - 19, 2006, Shizuoka, Japan.
[Xing:2007vj]
[8-164]
The current problems of the minimal SO(10) GUT and their solutions, Takeshi Fukuyama, Tatsuru Kikuchi, Nobuchika Okada, Int. J. Mod. Phys. E16 (2007) 1489-1503, arXiv:hep-ph/0702233. International Workshop on Neutrino Masses and Mixings Toward Unified Understanding of Quarks and Lepton Mass Matrices, University of Shizuoka, December 17-19, 2006.
[Fukuyama:2007nd]
[8-165]
Flavour Physics in the Littlest Higgs Model with T-Parity, Cecilia Tarantino, eConf C0610161 (2006) 017, arXiv:hep-ph/0702152. HQL06, Munich, October 16th-20th 2006.
[Tarantino:2006afb]
[8-166]
A Scenario for Spontaneous CP Violation in SUSY SO(10), Yoav Achiman, arXiv:hep-ph/0612138, 2006.
[Achiman:2006xf]
[8-167]
Application of Finite Groups to Neutrino Mass Matrices, Ernest Ma, AIP Conf. Proc. 917 (2007) 50-57, arXiv:hep-ph/0612013. VI-Silafae, Puerto Vallarta, Nov 06.
[Ma:2006ay]
[8-168]
Shortcuts in extra dimensions and neutrino physics, Heinrich Pas, Sandip Pakvasa, Thomas J. Weiler, AIP Conf. Proc. 903 (2007) 315-318, arXiv:hep-ph/0611263. SUSY06, UC Irvine, CA.
[Pas:2006tk]
[8-169]
Neutrino Masses and Interactions in a Model with Nambu-Goldstone Bosons, E.A. Paschos, AIP Conf. Proc. 881 (2007) 108-117, arXiv:hep-ph/0611059. Second International Conference on High Energy Physics (CICHEP II), January 14-17, 2006, Cairo, Egypt.
[Paschos:2006np]
[8-170]
Neutrino tri-bi-maximal mixing from Delta(27), I. de Medeiros Varzielas, AIP Conf. Proc. 903 (2007) 397-400, arXiv:hep-ph/0610351. SUSY06, UC Irvine, California, 12-17 June 2006.
[deMedeirosVarzielas:2006bi]
[8-171]
Dark Energy and Neutrino Model in SUSY, Ryo Takahashi, Morimitsu Tanimoto, AIP Conf. Proc. 903 (2007) 656-659, arXiv:hep-ph/0610347. SUSY06, UC Irvine, California, 12-17 June 2006.
[Takahashi:2006be]
[8-172]
Fermion Masses at intermediate Tan(beta): Unification of Yukawa Determinants, F. Nesti, arXiv:hep-ph/0610307, 2006. QUARKS-2006.
[Nesti:2006kv]
[8-173]
Flavor Democracy in Particle Physics, Saleh Sultansoy, AIP Conf. Proc. 899 (2007) 49-52, arXiv:hep-ph/0610279. Sixth International Conference of the Balkan Physical Union (BPU-6), August 22-26, 2006, Istanbul, Turkey.
[Sultansoy:2006dg]
[8-174]
Unification without low-energy supersymmetry, Soren Wiesenfeldt, AIP Conf. Proc. 903 (2007) 495-498, arXiv:hep-ph/0610273. SUSY06, the 14th International Conference on Supersymmetry and the Unification of Fundamental Interactions, UC Irvine, California, 12-17 June 2006.
[Wiesenfeldt:2006ut]
[8-175]
Neutrino masses and mixings in a Minimal S_3-invariant Extension of the Standard Model, O. Felix, A. Mondragon, M. Mondragon, E. Peinado, AIP Conf. Proc. 917 (2007) 383-389, arXiv:hep-ph/0610061. XXIX Symposium on Nuclear Physics, Cocoyoc, Mexico.
[Felix:2006pn]
[8-176]
E_6SSM, S.F. King, S. Moretti, R. Nevzorov, AIP Conf. Proc. 881 (2007) 138-143, arXiv:hep-ph/0610002. XXXIII International Conference on High Energy Physics (ICHEP'06), Moscow, Russia, 26 July - 2 August and Cairo International Conference on High Energy Physics (CICHEP II), Cairo, Egypt, 14-17 January 2006.
[King:2006rh]
[8-177]
Relating seesaw neutrino masses, lepton flavor violation and SUSY breaking, Filipe R. Joaquim, Anna Rossi, AIP Conf. Proc. 903 (2007) 381-384, arXiv:hep-ph/0610001. SUSY06, the 14th International Conference on Supersymmetry and the Unification of Fundamental Interactions, UC Irvine, California, 12-17 June 2006.
[Joaquim:2006rg]
[8-178]
About Mass, CP and Extra Dimensions, J.-M. Frere, AIP Conf. Proc. 881 (2007) 128-137, arXiv:hep-ph/0609039. CICHEP, Cairo.
[Frere:2006cx]
[8-179]
Geometry of Majorana neutrino and new symmetries, G.G. Volkov, Annales Fond.Broglie 31 (2006) 227, arXiv:hep-ph/0607334. 2-nd Simposium on Neutrinos and Dark Matter in Nuclear Physics, Paris, September 3-9, 2006.
[Volkov:2006bi]
[8-180]
Reconstructing the Right-Handed Neutrino Masses in Left-Right Symmetric Theories, Pierre Hosteins, arXiv:hep-ph/0606250, 2006. XLIst Rencontres de Moriond, Electroweak Interactions and Unified Theories, La Thuile, Italy, March 11-18, 2006.
[Hosteins:2006wk]
[8-181]
On quark-lepton complementarity, F. Gonzalez-Canales, A. Mondragon, AIP Conf. Proc. 857 (2006) 287-292, arXiv:hep-ph/0606175. 'Particles and fields: Xth Mexican Workshop on Particles and Fields' (Morelia, Mich. Mexico, November 6-12, 2005).
[GonzalezCanales:2006gd]
[8-182]
Lepton family symmetries for neutrino masses and mixing, Ernest Ma, Pramana 67 (2006) 803-812, arXiv:hep-ph/0606039. WHEPP-9.
[Ma:2006yp]
[8-183]
Lepton Family Symmetry and the Neutrino Mixing Matrix, Ernest Ma, J. Phys. Conf. Ser. 53 (2006) 451-457, arXiv:hep-ph/0606024. Corfu2005.
[Ma:2006uca]
[8-184]
Unification and fermion mass relations in low string scale D-brane models, D. V. Gioutsos, J. Phys. Conf. Ser. 53 (2006) 695-704, arXiv:hep-ph/0605278. Corfu Summer Institute, Corfu-Greece, September 4-14, 2005.
[Gioutsos:2006dx]
[8-185]
Renormalization effects on neutrino masses and mixing in a string-inspired SU(4) x SU(2)^2 x U(1)_X model, A. Psallidas, arXiv:hep-ph/0605163, 2006. Corfu Summer Institute, Corfu-Greece, September 4-14, 2005.
[Psallidas:2006ts]
[8-186]
Protected Baryon Number in Models with Majorana Neutrino, K. Hasegawa, arXiv:hep-ph/0605141, 2006. Rencontres De Moriond, Electroweak Interactions and Unified Theories, La Thuile, Italy, 11-18 March 2006.
[Hasegawa:2006ns]
[8-187]
A Possible quantum-gravitational origin of the neutrino mass difference?, Nick E. Mavromatos, Sarben Sarkar, arXiv:hep-ph/0604081, 2006.
[Mavromatos:2006ux]
[8-188]
Geometry of Majorana Neutrino, G. Volkov, 2006. The 2nd Symposium On Neutrinos and Dark Matter in Nuclear Physics, September 3-9, 2006, Paris, France. http://indico2.lal.in2p3.fr/indico/materialDisplay.py?contribId=s3t3&sessionId=s3&materialId=0&confId=a05162.
[VOLKOV-2006]
[8-189]
Quark-Lepton Complementarity with Renormalization Effects through Threshold Corrections, Sin Kyu Kang, C. S. Kim, Jake Lee, PoS HEP2005 (2006) 189, arXiv:hep-ph/0512023. Int. Europhysics Conf. on High Energy Physics (HEP2005) July 21th-27th 2005, Lisboa, Portugal.
[Kang:2005ck]
[8-190]
Maximal Neutrino Mixing from Discrete Symmetry in Extra Dimensions, Ferruccio Feruglio, PoS HEP2005 (2006) 185, arXiv:hep-ph/0512009. Int. Europhysics Conf. on High Energy Physics (HEP2005) July 21th-27th 2005, Lisboa, Portugal.
[Feruglio:2005up]
[8-191]
Hybrid Textures of Neutrino Mass Matrix, Satoru Kaneko, Hideyuki Sawanaka, Morimitsu Tanimoto, PoS HEP2005 (2006) 187, arXiv:hep-ph/0511251. HEP2005, July 21 - 27, 2005, Lisbon, Portugal.
[Kaneko:2005mt]
[8-192]
Neutrino mass matrices, texture zeros, and family symmetries, Walter Grimus, PoS HEP2005 (2006) 186, arXiv:hep-ph/0511078. HEP2005, July 21 - 27, 2005, Lisbon, Portugal.
[Grimus:2005sm]
[8-193]
Fermion Mixing and Soft Leptogenesis in a SUSY SO(10) x SU(2)_F Model, Mu-Chun Chen, K.T. Mahanthappa, PoS HEP2005 (2006) 356, arXiv:hep-ph/0510296. EPS International Europhysics Conference on High Energy Physics (EPS-HEP2005), Lisbon, Portugal, 21-27 Jul 2005.
[Mahanthappa:2005fe]
[8-194]
A New Type of Complex Neutrino Mass Texture and mu-tau Symmetry, Ichiro Aizawa, Masaki Yasue, Phys. Rev. D73 (2006) 015002, arXiv:hep-ph/0510132.
[Aizawa:2005yy]
[8-195]
Dark Energy and Its Interactions with Neutrinos, Xinmin Zhang, Aip Conf. Proc. 805 (2006) 3, arXiv:hep-ph/0510072. PASCOS 2005, May 30 - June 4, Gyeongju, Korea.
[Zhang:2005ywa]
[8-196]
Normal and Special Models of Neutrino Masses and Mixings, Guido Altarelli, Frascati Phys.Ser. 39 (2005) 149-166, arXiv:hep-ph/0508053. Rencontres de Physique de la Vallee d'Aoste, La Thuile, Italy.
[Altarelli:2005tj]
[8-197]
A Unified Picture with Neutrino As a Central Feature, Jogesh C. Pati, arXiv:hep-ph/0507307, 2005.
[Pati:2005yp]
[8-198]
Flavor Symmetry L_mu - L_tau and quasi-degenerate Neutrinos, W. Rodejohann, M. A. Schmidt, Phys. Atom. Nucl. 69 (2006) 1833-1841, arXiv:hep-ph/0507300. 5th International Conference on Nonaccelerator New Physics (NANP 05), Dubna, Russia, 20-25 June 2005.
[Rodejohann:2005ru]
[8-199]
Neutrino mass and lepton number violation in the Little Higgs model, Ashok Goyal, Aip Conf. Proc. 805 (2006) 302, arXiv:hep-ph/0506131. PASCOS-05, Gyeongju, Korea, 30 May - 4 June 2005.
[Goyal:2005it]
[8-200]
Majorana Neutrino Masses from Flavor Symmetries, A. Psallidas, arXiv:hep-ph/0505093, 2005. Workshop on Recent Advances in Particle Physics and Cosmology, Thessaloniki 2005.
[Psallidas:2005tr]
[8-201]
Prediction of Ue3 and \cos 2\theta_23 from discrete symmetry, Morimitsu Tanimoto, arXiv:hep-ph/0505031, 2005. Rencontres de Moriond 2005 (EW Interactions and Unified Theories).
[Tanimoto:2005cm]
[8-202]
On Effects of Large Neutrino B-Term on Low Energy Physics, Yasaman Farzan, arXiv:hep-ph/0505004, 2005. XXXXth Moriond conference on electroweak interactions and unified theories.
[Farzan:2005pd]
[8-203]
A Sinister Extension of the Standard Model to SU(3)XSU(2)XSU(2)XU(1), Sheldon L. Glashow, arXiv:hep-ph/0504287, 2005. XI Workshop on Neutrino Telescopes, Venice.
[Glashow:2005jy]
[8-204]
Comments related to reading 'Static quantities of the W boson in the SU_L(3)\times U_X(1) model with right-handed neutrinos', Nguyen Anh Ky, arXiv:hep-ph/0504147, 2005.
[Ky:2005mn]
[8-205]
Scale of Mass Generation for Majorana Neutrinos, Duane A. Dicus, Hong-Jian He, Int. J. Mod. Phys. A20 (2005) 3082, arXiv:hep-ph/0411024. Conference of the Division of Particles and Fields, American Physical Society (DPF-2004),University of California, Riverside, CA, USA, August 26-31, 2004.
[He:2004xv]
[8-206]
Neutrino Masses Without Seesaw Mechanism in a SUSY SU(5) Model With Additional $\bar{5}'_L+5'_L$, Yoshio Koide, arXiv:hep-ph/0411017, 2004. ICHEP2004.
[Koide:2004xn]
[8-207]
Seesaw and the Riddle of Mass, P. Ramond, arXiv:hep-ph/0411010, 2004. Seesaw 25, Institut Henri Poincare, June 10-11, 2004, PAris, France.
[Ramond:2004xf]
[8-208]
Lepton Masses and Mixings in Next-to-minimal Supersymmetric SO(10) GUT, Michal Malinsky, arXiv:hep-ph/0410363, 2004. 'Particles, Strings and Cosmology 2004' (PASCOS'04) in Boston, August 16-22, 2004.
[Malinsky:2004hm]
[8-209]
Alternatives to Seesaw, Hitoshi Murayama, Nucl. Phys. Proc. Suppl. 137 (2004) 206, arXiv:hep-ph/0410140. Fujihara Seminar On Neutrino Mass And Seesaw Mechanism (SEESAW 1979-2004), 23-25 Feb 2004, KEK.
[Murayama:2004me]
[8-210]
Neutrino masses in SU(5) grand unified model, Noriyuki Oshimo, arXiv:hep-ph/0410037, 2004. 2nd International Symposium on New Developments of Integrated Sciences, Tokyo, Japan, 16,17,18 March, 2004.
[Oshimo:2004jk]
[8-211]
Grand Unification and Physics Beyond the Standard Model, Ernest Ma, arXiv:hep-ph/0410023, 2004. V-SILAFAE, Lima, Peru (July 2004).
[Ma:2004ex]
[8-212]
Electrophobic Lorentz invariance violation for neutrinos and the see-saw mechanism, S.F. King, arXiv:hep-ph/0409323, 2004. Third Meeting on CPT and Lorentz Symmetry, August 4-7, Indiana University, Bloomington, U.S.A.
[King:2004sa]
[8-213]
Flavor and CP violation in the SUSY SU(5) GUT with the right-handed neutrinos, Junji Hisano, arXiv:hep-ph/0409239, 2004. 12th International Conference on Supersymmetry and Unification of Fundamental Interactions (SUSY 2004), June 17-23, 2004, Tsukuba, Japan.
[Hisano:2004cw]
[8-214]
Implications of Running Neutrino Parameters for Leptogenesis and for Testing Model Predictions, Stefan Antusch, arXiv:hep-ph/0409229, 2004. 10th International Symposium on Particles, Strings and Cosmology (Pascos04), Northeastern University, Boston, August 16-22, 2004.
[Antusch:2004yf]
[8-215]
(Pseudo) Dirac neutrino masses in Supergravity, Athanasios Dedes, arXiv:hep-ph/0409086, 2004. SUSY 2004, June 17-23, 2004, Tsukuba, Japan.
[Dedes:2004xn]
[8-216]
Neutrino Masses: Shedding Light on Unification and Our Origin, Jogesh C. Pati, Nucl. Phys. Proc. Suppl. 137 (2004) 127, arXiv:hep-ph/0407220. Fujihara seminar on 'Neutrino Mass and Seesaw Mechanism,' KEK Laboratory, Tsukuba, Japan (Feb. 23-25, 2004).
[Pati:2004fu]
[8-217]
Texture Zeros and CP-violating Phases in the Neutrino Mass Matrix, Zhi-zhong Xing, arXiv:hep-ph/0406049, 2004. NOON2004 conference, February 2004, Tokyo.
[Xing:2004ik]
[8-218]
A natural framework for bi-large neutrino mixing, Stuart Raby, Nucl. Phys. Proc. Suppl. 137 (2004) 120, arXiv:hep-ph/0406022. Coral Gables Conference, Lago Mar Resort, December 16-22, 2003, and Fujihara Seminar, 'Neutrino Mass and SeeSaw Mechanism,' KEK, Japan, February 23-25, 2004.
[Raby:2004xi]
[8-219]
Models of maximal atmospheric neutrino mixing and leptogenesis, W. Grimus, L. Lavoura, arXiv:hep-ph/0405261, 2004. NOON2004, February 11-15, 2004, Tokyo, Japan.
[Grimus:2004cv]
[8-220]
M-Theory Phenomenology and See-Saw Mechanisms, Hirotaka Sugawara, Nucl. Phys. Proc. Suppl. 137 (2004) 247, arXiv:hep-ph/0405224. Neutrino Mass and See-Saw Mechanism, Fujihara Seminar.
[Sugawara:2004ty]
[8-221]
Progress on Models of Neutrino Masses and Mixings, Guido Altarelli, Nucl. Phys. Proc. Suppl. 137 (2004) 105, arXiv:hep-ph/0405182. Fujihara Seminar on Neutrino Mass and Seesaw Mechanism, KEK (Japan), 23-25 February 2004.
[Altarelli:2004hx]
[8-222]
Chasing CHOOZ, P. Ramond, Int. J. Mod. Phys. A20 (2005) 1234, arXiv:hep-ph/0405176. Coral Gables Conference, Dec 2003.
[Ramond:2004en]
[8-223]
The Universality of Seesaws, R. D. Peccei, Nucl. Phys. Proc. Suppl. 137 (2004) 277, arXiv:hep-ph/0404277. Fujihara Seminar 'Neutrino Mass and Seesaw Mechanism', KEK 23-25 February', 2004.
[Peccei:2004ch]
[8-224]
Degenerate neutrinos from a supersymmetric A_4 model, M. Hirsch et al., PoS AHEP2003 (2003) AHEP2003/010, arXiv:hep-ph/0312244. International Workshop on Astroparticle and High Energy Physics (AHEP), Valencia, Spain, 14-18 Oct. 2003.
[Hirsch:2003xx]
[8-225]
Neutrino Physics and the flavour problem, Steve F. King, Iain N.R. Peddie, J. Korean Phys. Soc. 45 (2004) S443, arXiv:hep-ph/0312235. 2nd International Conference On Flavor Physics (ICFP 2003).
[King:2003xn]
[8-226]
Dimensional Deconstruction and Neutrino Physics, K.R.S. Balaji, Nucl. Phys. Proc. Suppl. 138 (2005) 350, arXiv:hep-ph/0312215. TAUP03, INT, Univ. of Washington, Seattle.
[Balaji:2003sf]
[8-227]
Neutrinos with Z_3 symmetry and new charged-lepton interactions, Ernest Ma, arXiv:hep-ph/0312192, 2003. Neutrino Oscillations in Venice, December 2003.
[Ma:2003md]
[8-228]
Single and double seesaw for quark-lepton and neutrino masses, Biswajoy Brahmachari, J. Korean Phys. Soc. 45 (2004) S230, arXiv:hep-ph/0312098. ICFP-2003, Seoul, Korea, Oct 6-11, 2003.
[Brahmachari:2003iz]
[8-229]
Neutrino Mass Models in Extra Dimensions, John N. Ng, J. Korean Phys. Soc. 45 (2004) S341, arXiv:hep-ph/0311352. International Conference on Flavor Phyiscs 2003, KIAS, S. Korea.
[Ng:2003rv]
[8-230]
The Neutrino Mass Matrix - From A_4 to Z_3, Ernest Ma, Springer Proc. Phys. 98 (2005) 3-13, arXiv:hep-ph/0311215. 9th Adriatic Meeting, Dubrovnik (September 2003).
[Ma:2003hu]
[8-231]
An Overview of Neutrino Masses and Mixing in SO(10) Models, M.-C. Chen, K. T. Mahanthappa, Aip Conf. Proc. 721 (2004) 269, arXiv:hep-ph/0311034. 5th International Workshop on Neutrino Factories and Superbeams (NuFact'03), Columbia University, New York, June 5-11, 2003.
[Chen:2003fpa]
[8-232]
Neutrino Mixing and Lepton Flavor Violation in SUSY-GUT Models, J. I. Illana, M. Masip, Acta Phys. Polon. B34 (2003) 5413, arXiv:hep-ph/0310257. XXVII International Conference of Theoretical Physics, Ustron, Poland, September 15-21, 2003.
[Illana:2003vf]
[8-233]
Models of maximal atmospheric neutrino mixing, W. Grimus, L. Lavoura, Acta Phys. Polon. B34 (2003) 5393, arXiv:hep-ph/0310050. XXVII International Conference of Theoretical Physics, Ustron, Poland, 15-21 September 2003.
[Grimus:2003wq]
[8-234]
Gauge Coupling Unification and Neutrino Masses in 5D SUSY SO(10), S. Raby, arXiv:hep-ph/0308052, 2003. SUGRA20, Northeastern University, March, 2003.
[Raby:2003ai]
[8-235]
Neutrino Bi-Large Mixings and Family, M. Bando, M. Obara, arXiv:hep-ph/0307360, 2003. 4th Workshop on Neutrino Oscillations and their Origin (NOON2003), Kanazawa, Japan, 10-14 Feb 2003.
[Bando:2003fa]
[8-236]
Neutrino masses and beyond from supersymmetry, O. C. W. Kong, arXiv:hep-ph/0307173, 2003. NOON 2003.
[Kong:2003ii]
[8-237]
Some remarks on neutrino oscillation and masses, A. Zee, Aip Conf. Proc. 689 (2003) 74, arXiv:hep-ph/0307155. Palm Cove, Australia, June 2003.
[Zee:2003mr]
[8-238]
The Neutrino Mass Matrix - New Developments, E. Ma, arXiv:hep-ph/0307016, 2003. BEYOND 2003.
[Ma:2003im]
[8-239]
Fact and Fancy in Neutrino Physics II, Sheldon Lee Glashow, arXiv:hep-ph/0306100, 2003. Tenth International Workshop on Neutrino Telescopes, Venice, March 2003.
[Glashow:2003nk]
[8-240]
Impact of $U_{e3}$ on Neutrino Models, Morimitsu Tanimoto, arXiv:hep-ph/0305274, 2003. NOON2003.
[Tanimoto:2003kq]
[8-241]
Masses and mixing of neutrinos in grand unified SO(10) model, Noriyuki Oshimo, arXiv:hep-ph/0305200, 2003. 1st International Symposium on New Developments of Integrated Sciences, Tokyo, Japan, 11,13,14 March, 2003.
[Oshimo:2003jk]
[8-242]
Neutrino Mass Matrix in Terms of Up-Quark Masses, Masako Bando, Midori Obara, arXiv:hep-ph/0305016, 2003. 2002 International Workshop On 'Strong Coupling Gauge Theories and Effective Field Theories' (SCGT 02), Nagoya, Japan, 10-13 December 2002.
[Bando:2003da]
[8-243]
Neutrino Mixings and Unified Theories, Fu-Sin Ling, arXiv:hep-ph/0304135, 2003. 38th Rencontres of Moriond (Electroweak Interactions and Unified Theories) - 2003.
[Ling:2003ir]
[8-244]
Grand Unification with Anomalous U(1) Symmetry and Non-abelian Horizontal Symmetry, Nobuhiro Maekawa, arXiv:hep-ph/0304076, 2003. Strong Coupling Gauge Theories and Effective Field Theories (SCGT02), Japan, December 10-13, 2002.
[Maekawa:2003iq]
[8-245]
Alternatives to the Seesaw: Extra Z's and Constraints on Large Extra Dimensions, Paul Langacker, Int. J. Mod. Phys. A18 (2003) 4015, arXiv:hep-ph/0304053. Neutrinos and Implications for Physics Beyond the Standard Model, Stony Brook, October 2002.
[Langacker:2003bc]
[8-246]
Proton decay and fermion masses in supersymmetric grand unified theories, Borut Bajc, Alejandra Melfo, Goran Senjanovic, arXiv:hep-ph/0304051, 2003. '20 years of SUGRA', Boston, March 2003.
[Bajc:2003ba]
[8-247]
Realistic split fermion models, Yuval Grossman, Gilad Perez, Pramana 62 (2004) 733, arXiv:hep-ph/0303243. PASCOS '03, 9th International Symposium on Particles, Strings and Cosmology, January 2003, Mumbai, India.
[Grossman:2003sr]
[8-248]
Fermion mass and mixing patterns from a rotating mass matrix, ST Tsou, arXiv:hep-ph/0301242, 2003. International Symposium on Frontiers of Science - In Celebration of the 80th Birthday of C N Yang, June 2002, Beijing.
[Tsou:2003wj]
[8-249]
Fermion Masses and Mixing in Thick Branes, M. N. Rebelo, arXiv:hep-ph/0301119, 2003. 14th Rencontres de Blois: Matter - Anti-matter Asymmetry, Chateau de Blois, France, 17-22 June 2002.
[Rebelo:2003cj]
[8-250]
Prediction of |V_{13}| and the Dirac phase in the Neutrino Mixing Matrix, Takahiro Miura, Tetsuo Shindou, Eiichi Takasugi, Nucl. Phys. A721 (2003) 537, arXiv:hep-ph/0212239. PANIC02, Osaka, September, 2002.
[Miura:2002tr]
[8-251]
Models of Flavor with Discrete Symmetries, Alfredo Aranda, AIP Conf. Proc. 623 (2002) 333-336, arXiv:hep-ph/0211323. 8th Mexican Workshop on Particles and Fields, Zacatecas, Mexico; 14-20 November, 2001.
[Aranda:2002wc]
[8-252]
Lepton Flavor Violating Processes in Bi-maximal Texture of Neutrino Mixings, A. Kageyama, S. Kaneko, N. Shimoyama, M. Tanimoto, arXiv:hep-ph/0211097, 2002. SUSY2002 held at DESY, Humburg(Germany), June. 17-23 2002.
[Kageyama:2002fw]
[8-253]
Neutrinos in the Family Replicated Gauge Group Model, Colin D. Froggatt, arXiv:hep-ph/0210384, 2002. International Workshop on What comes beyond the Standard Model, Bled, Slovenia, July 2002.
[Froggatt:2002ps]
[8-254]
On the hierarchy of neutrino masses, P. Urban M. Jezabek, Acta Phys. Polon. B33 (2002) 2571, arXiv:hep-ph/0207018. Supersymmetry and Brane Worlds, Fifth European Meeting Planck 02, Kazimierz, Poland, May 25-29, 2002.
[Jezabek:2002zp]
[8-255]
Charged Higgs in Models with Singlet Neutrino in Large Extra Dimensions, Aldo Deandrea, arXiv:hep-ph/0206283, 2002. XXXVIIth Rencontres de Moriond, ElectroWeak Interactions and Unified Theories, March 9th - 16th 2002, Les Arcs, France.
[Deandrea:2002yc]
[8-256]
Four Puzzles of Neutrino Mixing, S.M. Barr, arXiv:hep-ph/0206085, 2002. NOON2001 conference, Univ. of Tokyo, Dec. 5-8, 2001.
[Barr:2002qz]
[8-257]
The GUT? Neutrino bi-large mixing and proton decay, Nobuhiro Maekawa, arXiv:hep-ph/0206048, 2002. NOON2001 held at ICRR, Kashiwa(Japan), Dec. 5-8 2001.
[Maekawa:2002vz]
[8-258]
Structure of neutrino mass matrix, Michele Frigerio, arXiv:hep-ph/0204220, 2002. XXXVIIth Rencontres de Moriond on Electroweak Interactions and Unified Theories, Les Arcs, France, 9-16 Mar 2002.
[Frigerio:2002cc]
[8-259]
Neutrino Masses and Mixings in SUSY with Broken R-Parity, J.W.F. Valle M. Hirsch, W. Porod, M. A. Diaz, J.C. Romao, arXiv:hep-ph/0202149, 2002. JCR at the Corfu Summer Institute, September 2001, Corfu.
[Hirsch:2002ne]
[8-260]
Implications of the measurements of U(e3) to theory, Morimitsu Tanimoto, Nucl. Instrum. Meth. A503 (2001) 157, arXiv:hep-ph/0106064. 3rd International Workshop on Neutrino Factory based on Muon Storage Rings (NuFACT'01), Tsukuba, Japan, 24-30 May 2001.
[Tanimoto:2001aq]
[8-261]
Phenomenology of neutrino mass matrix, N. Haba, J. Sato, M. Tanimoto, K. Yoshioka, arXiv:hep-ph/0102060, 2001.
[Haba:2000gt]
[8-262]
Impact of large mixing angle MSW solution on neutrino mass matrix, M. Tanimoto, Nucl. Phys. Proc. Suppl. 100 (2001) 287-289.
[Tanimoto:2001ax]
[8-263]
Neutrino oscillations from strings and other funny things, A. Halprin, Nucl. Phys. Proc. Suppl. 66 (1998) 408-410, arXiv:hep-ph/9710315.
[Halprin:1997ur]

9 - Theory - See-Saw

[9-1]
Chiral perturbative solution for the type-I seesaw mechanism in next-to-leading order, Masaki J. S. Yang, arXiv:2402.02767, 2024.
[Yang:2024xgi]
[9-2]
General Approach to Neutrino Mass Mechanisms with Sterile Neutrinos, Phys.Rev.D 109 (2024) 073003.
[Fan:2023cml]
[9-3]
Neutrino masses from new seesaw models: Low-scale variants and phenomenological implications, Alessio Giarnetti, Juan Herrero-Garcia, Simone Marciano, Davide Meloni, Drona Vatsyayan, arXiv:2312.14119, 2023.
[Giarnetti:2023osf]
[9-4]
Three-Loop Inverse Scotogenic Seesaw Models, Asmaa Abada, Nicolas Bernal, Antonio E. Carcamo Hernandez, Sergey Kovalenko, Tessio B. de Melo, arXiv:2312.14105, 2023.
[Abada:2023zbb]
[9-5]
Predictive Dirac Neutrino Spectrum with Strong CP Solution in $\pmb{SU(5)_L \times SU(5)_R}$ Unification, K. S. Babu, Rabindra N. Mohapatra, Anil Thapa, JHEP 04 (2024) 049, arXiv:2312.14096.
[Babu:2023dzz]
[9-6]
Chiral perturbative evaluation for the (second) lightest mass $M_{1,2}$ of right-handed neutrino $\nu_{R 1,2}$ in unified theories with sequential dominance, Masaki J. S. Yang, arXiv:2312.01693, 2023.
[Yang:2023cso]
[9-7]
Dynamical origin of Type-I Seesaw with large mixing, Yi Chung, arXiv:2311.17183, 2023.
[Chung:2023rie]
[9-8]
$\boldsymbol{\Delta(54)}$ Flavor model for Majorana neutrinos with Inverse Seesaw Mechanism, Hrishi Bora, Ng. K. Francis, Animesh Barman, Bikash Thapa, arXiv:2311.11611, 2023.
[Bora:2023wsh]
[9-9]
Scotoseesaw model implied by dark right-handed neutrinos, Phung Van Dong, Duong Van Loi, arXiv:2311.09795, 2023.
[VanDong:2023xbd]
[9-10]
Electroweak phase transition with radiative symmetry breaking in Type-II seesaw with inert doublet, Shilpa Jangid, Hiroshi Okada, Phys.Rev.D 109 (2024) 015001, arXiv:2310.12591.
[Jangid:2023lny]
[9-11]
One-loop Matching of the Type-III Seesaw Model onto the Standard Model Effective Field Theory, Xu Li, Shun Zhou, arXiv:2309.14702, 2023.
[Li:2023ohq]
[9-12]
The framework of the auxiliary group: two birds with one stone, R. Krishnan, arXiv:2309.11542, 2023.
[Krishnan:2023pwh]
[9-13]
Probing chiral and flavored $Z^\prime$ from cosmic bursts through neutrino interactions, ShivaSankar K. A., Arindam Das, Gaetano Lambiase, Takaaki Nomura, Yuta Orikasa, arXiv:2308.14483, 2023.
[KA:2023dyz]
[9-14]
Chiral perturbative reconstruction of the complex orthogonal matrix $R$ in Casas-Ibarra parameterization, Masaki J. S. Yang, arXiv:2308.12718, 2023.
[Yang:2023aqh]
[9-15]
A Hybrid Type I + III Inverse Seesaw Mechanism in $U(1)_{R-L}$-symmetric MSSM, Cem Murat Ayber, Seyda Ipek, JHEP 11 (2023) 085, arXiv:2308.09686.
[Ayber:2023diw]
[9-16]
Neutrino Mass Sum Rules from Modular $\mathcal{A}_4$ Symmetry, Salvador Centelles Chulia, Ranjeet Kumar, Oleg Popov, Rahul Srivastava, arXiv:2308.08981, 2023.
[CentellesChulia:2023zhu]
[9-17]
Finite Naturalness and Quark-Lepton Unification, Pavel Fileviez Perez, Clara Murgui, Samuel Patrone, Adriano Testa, Mark B. Wise, arXiv:2308.07367, 2023.
[FileviezPerez:2023umx]
[9-18]
Investigation of CP-even Higgs bosons decays $H ightarrow \mu \tau$ within constraints of $l_a ightarrow l_b \gamma$ in a 3-3-1 model with inverse seesaw neutrinos, H. V. Quyet, T. T. Hieu, N. T. Tham, N. T. T. Hang, H. T. Hung, arXiv:2308.05227, 2023.
[Quyet:2023dlo]
[9-19]
Dynamical scoto-seesaw mechanism with gauged $B-L$, Julio Leite, Soumya Sadhukhan, Jose W. F. Valle, Phys.Rev.D 109 (2024) 035023, arXiv:2307.04840.
[Leite:2023gzl]
[9-20]
Sphaleron in the Higgs Triplet Model, Jiahang Hu, Bingrong Yu, Shun Zhou, JHEP 10 (2023) 004, arXiv:2307.04713.
[Hu:2023gbp]
[9-21]
Low Scale Seesaw with Local Lepton Number, Hridoy Debnath, Pavel Fileviez Perez, Phys.Rev.D 108 (2023) 075009, arXiv:2307.03646.
[Debnath:2023akj]
[9-22]
The split majoron model confronts the NANOGrav signal, Pasquale Di Bari, Moinul Hossain Rahat, arXiv:2307.03184, 2023.
[DiBari:2023upq]
[9-23]
Heavy neutral lepton corrections to SM boson decays: lepton flavour universality violation in low-scale seesaw realisations, A. Abada, J. Kriewald, E. Pinsard, S. Rosauro-Alcaraz, A. M. Teixeira, Eur.Phys.J.C 84 (2024) 149, arXiv:2307.02558.
[Abada:2023raf]
[9-24]
HNL see-saw: lower mixing limit and pseudodegenerate state, Igor Krasnov, arXiv:2307.01190, 2023.
[Krasnov:2023jlt]
[9-25]
Spontaneous CP violation and $\mu-\tau$ symmetry in two-Higgs-doublet models with flavour conservation, Joao M. Alves, Francisco J. Botella, Carlos Miro, Miguel Nebot, Eur.Phys.J.C 83 (2023) 940, arXiv:2306.14952.
[Alves:2023vuu]
[9-26]
Simple Modular invariant model for Quark, Lepton, and flavored-QCD axion, Y. H. Ahn, Sin Kyu Kang, Phys.Rev.D 108 (2023) 095034, arXiv:2306.14467.
[Ahn:2023iqa]
[9-27]
Sterile Neutrino Portal Dark Matter with $Z_3$ Symmetry, An Liu, Zhi-Long Han, Yi Jin, Honglei Li, Phys.Rev.D 108 (2023) 075021, arXiv:2306.14091.
[Liu:2023kil]
[9-28]
Neutrino Mixing Phenomenology: \textbackslashboldsymbol{$A_4$} Discrete Flavor Symmetry with Type-I Seesaw Mechanism, Animesh Barman, Ng. K. Francis, Hrishi Bora, arXiv:2306.11461, 2023.
[Barman:2023idm]
[9-29]
Type-II seesaw in doublet-triplet scalar dark matter, R. Gaitan, J. M. Lamprea, Sheryl Melara-Duron, arXiv:2306.09617, 2023.
[Melara:2023zqr]
[9-30]
Dark Matter from a Radiative Inverse Seesaw Majoron Model, Cesar Bonilla, A. E. Carcamo Hernandez, Bastian Diaz Saez, Sergey Kovalenko, Juan Marchant Gonzalez, Phys.Lett.B 847 (2023) 138282, arXiv:2306.08453.
[Bonilla:2023egs]
[9-31]
Cosmic string gravitational waves from global $U(1)_{B-L}$ symmetry breaking as a probe of the type I seesaw scale, Bowen Fu, Anish Ghoshal, Steve King, JHEP 11 (2023) 071, arXiv:2306.07334.
[Fu:2023nrn]
[9-32]
CP violation in light neutrino oscillations and heavy neutrino decays: a general and explicit seesaw-bridged correlation, Zhi-zhong Xing, Phys.Lett.B 844 (2023) 138065, arXiv:2306.02362.
[Xing:2023kdj]
[9-33]
Dynamical Inflation Stimulated Cogenesis, Debasish Borah, Arnab Dasgupta, Daniel Stolarski, JHEP 02 (2024) 081, arXiv:2306.00368.
[Borah:2023csr]
[9-34]
Gravitational Wave Signatures of Gauged Baryon and Lepton Number, Jessica Bosch, Zoraida Delgado, Bartosz Fornal, Alejandra Leon, Phys.Rev.D 108 (2023) 095014, arXiv:2306.00332.
[Bosch:2023spa]
[9-35]
Cogenesis of matter and dark matter from triplet fermion seesaw, Satyabrata Mahapatra, Partha Kumar Paul, Narendra Sahu, Prashant Shukla, arXiv:2305.11138, 2023.
[Mahapatra:2023dbr]
[9-36]
A minimal inverse seesaw model with $S_4$ flavour symmetry, Bikash Thapa, Sunita Barman, Sompriti Bora, Ng. K. Francis, JHEP 11 (2023) 154, arXiv:2305.09306.
[Thapa:2023fxu]
[9-37]
Leptonic CP violation from the seesaw, C. C. Nishi, J. I. Silva-Marcos, Phys.Rev.D 108 (2023) 095031, arXiv:2305.08980.
[Nishi:2023ebi]
[9-38]
Neutrino Mass Model in the Context of $\boldsymbol{\Delta(54) \otimes Z_2\otimes Z_3 \otimes Z_4}$ Flavor Symmetries with Inverse Seesaw Mechanism, Hrishi Bora, Ng. K. Francis, Animesh Barman, Bikash Thapa, Phys.Lett.B 848 (2024) 138329, arXiv:2305.08963.
[Bora:2023teg]
[9-39]
Vacuum stability and Q-ball formation in the Type II Seesaw model, Naoyuki Haba, Yasuhiro Shimizu, Toshifumi Yamada, arXiv:2305.06592, 2023.
[Haba:2023qlp]
[9-40]
Dark linear seesaw mechanism, A. Batra, H. B. Camara, F. R. Joaquim, Phys.Lett.B 843 (2023) 138012, arXiv:2305.01687.
[Batra:2023bqj]
[9-41]
Gravity-improved metastability bounds for the Type-I Seesaw Mechanism, Garv Chauhan, Thomas Steingasser, JHEP 09 (2023) 151, arXiv:2304.08542.
[Chauhan:2023pur]
[9-42]
Does Quark Mixing play a role in the Lepton Sector?, Francisco Albergaria, G. C. Branco, Jose Filipe Bastos, J. I. Silva-Marcos, arXiv:2304.06747, 2023.
[Albergaria:2023vck]
[9-43]
Chiral perturbative relation for neutrino masses in the type-I seesaw mechanism, Masaki J. S. Yang, Phys.Lett.B 843 (2023) 138061, arXiv:2304.04513.
[Yang:2023ixv]
[9-44]
Vacuum Stability and Radiative Symmetry Breaking of the Scale-Invariant Singlet Extension of Type II Seesaw Model, Bayu Dirgantara, Kristjan Kannike, Warintorn Sreethawong, Eur.Phys.J.C 83 (2023) 253, arXiv:2301.00487.
[Dirgantara:2023vsi]
[9-45]
Majorana neutrinos in the triple gauge boson coupling $ZZZ^*$, Phys.Rev.D 108 (2023) 075032.
[Novales-Sanchez:2023ztg]
[9-46]
Neutrino flavor mixing with approximate $\mu$-$\tau$ symmetry within the low-scale minimal linear seesaw model, Ernesto A. Matute, Mod. Phys. Lett. A 37 (2022) 2250196, arXiv:2212.13479.
[Matute:2022kay]
[9-47]
Exploring dynamics of $A_4$ flavour symmetry using low scale seesaw mechanisms, Kalpana Bora, Maibam Ricky Devi, Phys.Part.Nucl.Lett. 19 (2022) 642-645, arXiv:2212.11492.
[Bora:2022jdp]
[9-48]
On the Higgs spectra of the 3-3-1 model with the sextet of scalars engendering the type II seesaw mechanism, Joao Paulo Pinheiro, C. A. de S. Pires, Nucl.Phys.B 994 (2023) 116293, arXiv:2212.10546.
[Pinheiro:2022obu]
[9-49]
Restrictions on Dirac mass matrix by approximate chiral (Z2Z_{2}) symmetry associated with the lightest neutrino in the type-I seesaw mechanism, Masaki J. S. Yang, Nucl.Phys.B 994 (2023) 116318, arXiv:2211.15101.
[Yang:2022bex]
[9-50]
Littlest Modular Seesaw, Ivo de Medeiros Varzielas, Steve F. King, Miguel Levy, JHEP 02 (2023) 143, arXiv:2211.00654.
[deMedeirosVarzielas:2022fbw]
[9-51]
Undemocratic Dirac seesaw, Su-Ping Chen, Pei-Hong Gu, Nucl.Phys.B 985 (2022) 116028, arXiv:2210.05307.
[Chen:2022bjb]
[9-52]
The Type II Dirac Seesaw Portal to the mirror sector: Connecting neutrino masses and a solution to the strong CP problem, Maximilian Berbig, Phys.Rev.D 106 (2022) 115018, arXiv:2209.14246.
[Berbig:2022hsm]
[9-53]
Quasi-minimal type-I seesaw model by $1/(M_{R})_{33}$ expansion and partial $Z_{2}$ symmetry for TM$_{1,2}$ mixing, Masaki J. S. Yang, arXiv:2208.10000, 2022.
[Yang:2022lyu]
[9-54]
Complete One-loop Structure of the Type-(I+II) Seesaw Effective Field Theory, Di Zhang, JHEP 03 (2023) 217, arXiv:2208.07869.
[Zhang:2022osj]
[9-55]
Lepton mass matrix from double covering of $A_4$ modular flavor symmetry, Hiroshi Okada, Yuta Orikasa, Chin.Phys.C 46 (2022) 123108, arXiv:2206.12629.
[Okada:2022kee]
[9-56]
An $A_5$ inverse seesaw model with perturbed golden ratio mixing, A. E. Carcamo Hernandez, Ivo de Medeiros Varzielas, Nucl.Phys.B 985 (2022) 116031, arXiv:2206.06389.
[CarcamoHernandez:2022bka]
[9-57]
On Minimal realization of Topological Lorentz Structures with one-loop Seesaw extensions in A$_4$ Modular Symmetry, Monal Kashav, Surender Verma, JCAP 03 (2023) 010, arXiv:2205.06545.
[Kashav:2022kpk]
[9-58]
Conditions of general $Z_{2}$ symmetry in an arbitrary basis and TM$_{1,2}$ mixing for the minimal type-I seesaw mechanism, Masaki J. S. Yang, Nucl.Phys.B 982 (2022) 115893, arXiv:2204.08607.
[Yang:2022yqw]
[9-59]
Active-Sterile neutrino masses and mixings in $A_4$ minimal extended seesaw mechanism, M. Kishan Singh, S. Robertson Singh, N. Nimai Singh, arXiv:2204.03370, 2022.
[Singh:2022tge]
[9-60]
Identifying a minimal flavor symmetry of the seesaw mechanism behind neutrino oscillations, Zhi-zhong Xing, JHEP 06 (2022) 034, arXiv:2203.14185.
[Xing:2022oob]
[9-61]
CP violation and flavor invariants in the seesaw effective field theory, Bingrong Yu, Shun Zhou, JHEP 08 (2022) 017, arXiv:2203.10121.
[Yu:2022ttm]
[9-62]
Leptoquarks with Exactly Stable Protons, Joe Davighi, Admir Greljo, Anders Eller Thomsen, Phys.Lett.B 833 (2022) 137310, arXiv:2202.05275.
[Davighi:2022qgb]
[9-63]
Emergent neutrinos from heavy messengers, Pascal Anastasopoulos, Elias Kiritsis, JHEP 06 (2022) 128, arXiv:2201.11641.
[Anastasopoulos:2022sji]
[9-64]
One-Loop Matching Conditions in Neutrino Effective Theory, Tommy Ohlsson, Marcus Pernow, Nucl.Phys.B 978 (2022) 115729, arXiv:2201.00840.
[Ohlsson:2022hfl]
[9-65]
A general formula for the type-I seesaw mechanism, Masaki J. S. Yang, PTEP 2022 (2022) 051B01, arXiv:2112.14402.
[Yang:2021arl]
[9-66]
Seesaw mechanism in the R-parity violating supersymmetric standard model with the gauged flavor $\mathrm{U}(1)_X$ symmetry, A. Hinata, PTEP 2022 (2022) 073B03, arXiv:2112.10337.
[Hinata:2021wqy]
[9-67]
A combination of the trimaximal mixing and mu-tau reflection symmetry in the minimal seesaw model, Zhen-hua Zhao, Eur.Phys.J.C 82 (2022) 436, arXiv:2111.12639.
[Zhao:2021dwc]
[9-68]
Conditions for avoiding large cancellation in type-I seesaw mechanism with four-zero texture, Masaki J. S. Yang, PTEP 2022 (2022) 043B05, arXiv:2110.10907.
[Yang:2021byq]
[9-69]
Universal Inverse seesaw mechanism as a source of the SM fermion mass hierarchy, A. E. Carcamo Hernandez, D. T. Huong, Ivan Schmidt, Eur.Phys.J.C 82 (2022) 63, arXiv:2109.12118.
[Hernandez:2021xet]
[9-70]
Anomaly-free Abelian gauge symmetries with Dirac seesaws, Nicolas Bernal, Diego Restrepo, Eur.Phys.J.C 81 (2021) 1104, arXiv:2108.05907.
[Bernal:2021ppq]
[9-71]
Inverse seesaw in $A_5^\prime$ modular symmetry, Mitesh Kumar Behera, Rukmani Mohanta, J.Phys.G 49 (2022) 045001, arXiv:2108.01059.
[Behera:2021eut]
[9-72]
Low-scale minimal linear seesaw model for neutrino mass and flavor mixing, Ernesto A. Matute, arXiv:2107.14726, 2021.
[2107.14726]
[9-73]
Complete One-loop Matching of the Type-I Seesaw Model onto the Standard Model Effective Field Theory, Di Zhang, Shun Zhou, JHEP 09 (2021) 163, arXiv:2107.12133.
[Zhang:2021jdf]
[9-74]
No-scale gauge non-singlet inflation inducing TeV scale inverse seesaw mechanism, Ahmad Moursy, JHEP 10 (2021) 208, arXiv:2107.06670.
[Moursy:2021kst]
[9-75]
Type-3/2 Seesaw Mechanism, Durmus Demir, Canan Karahan, Ozan Sargin, Phys.Rev.D 104 (2021) 075038, arXiv:2105.06539.
[Demir:2021cuo]
[9-76]
The Minimal Supersymmetric Universal Seesaw Mechanism (MSUSM), M. C. Rodriguez, arXiv:2105.06175, 2021.
[Rodriguez:2021rul]
[9-77]
One-loop corrections to light neutrino masses in gauged U(1) extensions of the standard model, Sho Iwamoto, Timo J. Karkkainen, Zoltan Peli, Zoltan Trocsanyi, Phys.Rev.D 104 (2021) 055042, arXiv:2104.14571.
[Iwamoto:2021wko]
[9-78]
The Smallest Neutrino Mass Revisited, Shun Zhou, JHEP 11 (2021) 101, arXiv:2104.09050.
[Zhou:2021bqs]
[9-79]
Simiplified textures of $M^{}_{\rm D}$ in the seesaw model for the trimaximal neutrino mixing, Hui-Chao Bao, Xin-Yu Zhao, Zhen-hua Zhao, Phys.Rev.D 105 (2022) 035011, arXiv:2104.05394.
[Zhao:2021efc]
[9-80]
Particular textures of the minimal seesaw model, Zhen-Hua Zhao, Yan-Bin Sun, Shan-Shan Jiang, Nucl.Phys. B967 (2021) 115405, arXiv:2103.08867.
[Zhao:2021tgi]
[9-81]
A renormalizable left-right symmetric model with low scale seesaw mechanisms, A. E. Carcamo Hernandez, Ivan Schmidt, Nucl.Phys.B 976 (2022) 115696, arXiv:2101.02718.
[Hernandez:2021uxx]
[9-82]
Unified Emergence of Energy Scales and Cosmic Inflation, Jisuke Kubo, Jeffrey Kuntz, Manfred Lindner, Jonas Rezacek, Philipp Saake, Andreas Trautner, JHEP 08 (2021) 016, arXiv:2012.09706.
[Kubo:2020fdd]
[9-83]
Lowering the scale of Pati-Salam breaking through seesaw mixing, Matthew J. Dolan, Tomasz P. Dutka, Raymond R. Volkas, JHEP 2021 (2020) 299, arXiv:2012.05976.
[Dolan:2020doe]
[9-84]
Minimal scoto-seesaw mechanism with spontaneous CP violation, D. M. Barreiros, F. R. Joaquim, R. Srivastava, J. W. F. Valle, JHEP 2104 (2021) 249, arXiv:2012.05189.
[Barreiros:2020gxu]
[9-85]
The Inverse Seesaw Family: Dirac And Majorana, Salvador Centelles Chulia, Rahul Srivastava, Avelino Vicente, JHEP 2103 (2021) 248, arXiv:2011.06609.
[CentellesChulia:2020dfh]
[9-86]
No-go limitations on UV completions of the Neutrino Option, Ilaria Brivio, Jim Talbert, Michael Trott, Phys.Rev. D103 (2021) 015012, arXiv:2010.15428.
[Brivio:2020aut]
[9-87]
Double Covering of the Modular $A^{}_5$ Group and Lepton Flavor Mixing in the Minimal Seesaw Model, Xin Wang, Bingrong Yu, Shun Zhou, Phys.Rev. D103 (2021) 076005, arXiv:2010.10159.
[Wang:2020lxk]
[9-88]
Sufficient and Necessary Conditions for CP Conservation in the Case of Degenerate Majorana Neutrino Masses, Bingrong Yu, Shun Zhou, Phys.Rev. D103 (2021) 035017, arXiv:2009.12347.
[Yu:2020gre]
[9-89]
Electroweak symmetry breaking in the inverse seesaw mechanism, Sanjoy Mandal, Rahul Srivastava, Jose W. F. Valle, JHEP 2103 (2021) 212, arXiv:2009.10116.
[Mandal:2020lhl]
[9-90]
A hybrid seesaw model and hierarchical neutrino flavor structures based on $A_{4}$ symmetry, Mayumi Aoki, Daiki Kaneko, PTEP 2021 (2021) 023B06, arXiv:2009.06025.
[Aoki:2020eqf]
[9-91]
Scrutinizing Vacuum Stability in IDM with Type-III Inverse seesaw, Priyotosh Bandyopadhyay, Shilpa Jangid, Manimala Mitra, JHEP 2102 (2021) 075, arXiv:2008.11956.
[Bandyopadhyay:2020djh]
[9-92]
Modular $A_4$ symmetric inverse seesaw model with $SU(2)_L$ multiplet fields, Takaaki Nomura, Hiroshi Okada, arXiv:2007.15459, 2020.
[Nomura:2020cog]
[9-93]
A linear seesaw model with $A_4$-modular flavor and local $U(1)_{B-L}$ symmetries, Takaaki Nomura, Hiroshi Okada, arXiv:2007.04801, 2020.
[Nomura:2020opk]
[9-94]
Texture zeros flavor neutrino mass matrix and triplet Higgs models, Teruyuki Kitabayashi, Phys.Rev. D102 (2020) 075027, arXiv:2007.01492.
[Kitabayashi:2020ajn]
[9-95]
Natural axion model from flavour, Salvador Centelles Chulia, Christian Doring, Werner Rodejohann, Ulises J. Saldana-Salazar, JHEP 2009 (2020) 137, arXiv:2005.13541.
[CentellesChulia:2020bnf]
[9-96]
Fat brane and seesaw mechanism in extra dimensions, Bjorn Garbrecht, Ricardo G. Landim, Phys.Rev. D102 (2020) 095004, arXiv:2005.10593.
[Garbrecht:2020tng]
[9-97]
Flipping principle for neutrino mass and dark matter, Phung Van Dong, Phys.Rev. D102 (2020) 011701, arXiv:2003.13276.
[VanDong:2020cjf]
[9-98]
A radiative seesaw model in modular $A_4$ symmetry, Hiroshi Okada, Yutaro Shoji, Nucl.Phys. B961 (2020) 115216, arXiv:2003.13219.
[Okada:2020dmb]
[9-99]
Unification Predictions With or Without Supersymmetry, Mina Ketan Parida, Riyanka Samantaray, Eur.Phys.J.ST 229 (2020) 3243-3262, arXiv:2002.06869.
[Parida:2020yib]
[9-100]
$A_4$ realization of left-right symmetric linear seesaw, Purushottam Sahu, Sudhanwa Patra, Prativa Pritimita, arXiv:2002.06846, 2020.
[Sahu:2020tqe]
[9-101]
Type II neutrino seesaw mechanism extension of NMSSM from SUSY breaking mechanisms, Zhuang Li, Fei Wang, Eur.Phys.J. C80 (2020) 798, arXiv:2001.04155.
[Li:2020ufo]
[9-102]
Tribimaximal Mixing in the $SU(5) \times \mathcal{T}_{13}$ Texture, M. Jay Perez, Moinul Hossain Rahat, Pierre Ramond, Alexander J. Stuart, Bin Xu, Phys.Rev. D101 (2020) 075018, arXiv:2001.04019.
[Perez:2020nqq]
[9-103]
Lepton Flavor Mixing and CP Violation in the Minimal Type-(I+II) Seesaw Model with a Modular $A_4$ Symmetry, Xin Wang, Nucl.Phys.B 957 (2020) 115105, arXiv:1912.13284.
[Wang:2019xbo]
[9-104]
Type II seesaw models with modular $A_4$ symmetry, Tatsuo Kobayashi, Takaaki Nomura, Takashi Shimomura, Phys.Rev. D102 (2020) 035019, arXiv:1912.00637.
[Kobayashi:2019gtp]
[9-105]
An Inverse Seesaw model with $A_4$-modular symmetry, Takaaki Nomura, Hiroshi Okada, Sudhanwa Patra, Nucl.Phys. B967 (2021) 115395, arXiv:1912.00379.
[Nomura:2019xsb]
[9-106]
Neutrino masses and mixing in Type I+II Seesaw with $\Delta(27)$ Symmetry, Itishree Sethi, Biswaranjan Behera, Mitesh Kumar Behera, arXiv:1911.10784, 2019.
[Sethi:2019mii]
[9-107]
Influence of multi-Higgs doublet in scalar and fermionic sector within minimal extended seesaw framework, Pritam Das, Mrinal K. Das, Najimuddin Khan, JHEP 2003 (2020) 018, arXiv:1911.07243.
[Das:2019ntw]
[9-108]
The Minimal Seesaw Model with a Modular $S_4$ Symmetry, Xin Wang, Shun Zhou, JHEP 2005 (2020) 017, arXiv:1910.09473.
[Wang:2019ovr]
[9-109]
Comment on the article by D. Borah and B. Karmakar 'Linear seesaw for Dirac neutrinos with A4 flavour symmetry', Phys. Lett. B789 (2019) 59-70, arXiv: 1806.10685, V. V. Vien, H. N. Long, A. E. Carcamo Hernandez, Phys.Lett. B798 (2019) 134979, arXiv:1909.11047.
[Vien:2019bel]
[9-110]
Fermion Mass and Mixing in a Low-Scale Seesaw Model based on the S4 Flavor Symmetry, V. V. Vien, H. N. Long, A. E. Carcamo Hernandez, PTEP 11 (2019) 113, arXiv:1909.09532.
[Vien:2019zhs]
[9-111]
Low scale seesaw models for low scale $U(1)_{L_\mu-L_\tau}$ symmetry, Takeshi Araki, Kento Asai, Joe Sato, Takashi Shimomura, Phys.Rev. D100 (2019) 095012, arXiv:1909.08827.
[Araki:2019rmw]
[9-112]
Seesaw neutrinos with one right-handed singlet field and a second Higgs doublet, D. Jurciukonis, T. Gajdosik, A. Juodagalvis, JHEP 1911 (2019) 146, arXiv:1909.00752.
[Jurciukonis:2019jkr]
[9-113]
A radiative seesaw model in modular $A_4$ symmetry, Hiroshi Okada, Yuta Orikasa, arXiv:1907.13520, 2019.
[Okada:2019mjf]
[9-114]
Double type-II seesaw accompanied by Dirac fermionic dark matter, Pei-Hong Gu, Phys.Rev. D101 (2020) 015006, arXiv:1907.10019.
[Gu:2019ogb]
[9-115]
Dirac seesaw accompanied by Dirac fermionic dark matter, Pei-Hong Gu, arXiv:1907.10018, 2019.
[Gu:2019ohx]
[9-116]
A modular $S_3$ symmetric radiative seesaw model, Hiroshi Okada, Yuta Orikasa, Phys.Rev. D100 (2019) 115037, arXiv:1907.04716.
[Okada:2019xqk]
[9-117]
A New Littlest Seesaw Model, Ping-Tao Chen, Gui-Jun Ding, Stephen F. King, Cai-Chang Li, J.Phys. G47 (2020) 065001, arXiv:1906.11414.
[Chen:2019oey]
[9-118]
A low scale type I seesaw model for lepton masses and mixings, A. E. Carcamo Hernandez, Marcela Gonzalez, Nicolas A. Neill, Phys.Rev. D101 (2020) 035005, arXiv:1906.00978.
[CarcamoHernandez:2019kjy]
[9-119]
A 3-3-1 model with low scale seesaw mechanisms, A. E. Carcamo Hernandez, Yocelyne Hidalgo Velasquez, Nicolas A. Perez-Julve, Eur.Phys.J. C79 (2019) 828, arXiv:1905.02323.
[CarcamoHernandez:2019vih]
[9-120]
Neutrino Mixing via the Neutrino Portal, Alexei Y Smirnov, arXiv:1905.00838, 2019.
[Smirnov:2019msn]
[9-121]
Type I + II Seesaw in a Two Higgs Doublet Model, D. Cogollo, Ricardo D. Matheus, Tessio B. de Melo, Farinaldo S. Queiroz, Phys.Lett. B797 (2019) 134813, arXiv:1904.07883.
[Cogollo:2019mbd]
[9-122]
Low-scale seesaw from neutrino condensation, Claudio Dib, Sergey Kovalenko, Ivan Schmidt, Adam Smetana, Nucl.Phys. B952 (2020) 114910, arXiv:1904.06280.
[Dib:2019jod]
[9-123]
A $\pmb\nu$ Solution to the Strong CP Problem, Marcela Carena, Da Liu, Jia Liu, Nausheen R. Shah, Carlos E. M. Wagner, Xiao-Ping Wang, Phys.Rev. D100 (2019) 094018, arXiv:1904.05360.
[Carena:2019nnd]
[9-124]
Littlest Inverse Seesaw Model, A. E. Carcamo Hernandez, S. F. King, Nucl.Phys. B953 (2020) 114950, arXiv:1903.02565.
[CarcamoHernandez:2019eme]
[9-125]
New Weinberg operator for neutrino mass and its seesaw origin, Josu Hernandez-Garcia, Stephen F. King, JHEP 1905 (2019) 169, arXiv:1903.01474.
[Hernandez-Garcia:2019uof]
[9-126]
An inverse seesaw model with global $U(1)_H$ symmetry, Ujjal Kumar Dey, Takaaki Nomura, Hiroshi Okada, Phys.Rev. D100 (2019) 075013, arXiv:1902.06205.
[Dey:2019cts]
[9-127]
Seesaw mirroring between light and heavy Majorana neutrinos with the help of the $S^{}_3$ reflection symmetry, Zhi-zhong Xing, Di Zhang, JHEP 1903 (2019) 184, arXiv:1901.07912.
[Xing:2019edp]
[9-128]
Littlest mu-tau seesaw, Stephen F. King, Ye-Ling Zhou, JHEP 1905 (2019) 217, arXiv:1901.06877.
[King:2019tbt]
[9-129]
Implementing the inverse type-II seesaw mechanism into the 3-3-1 model, Carlos Antonio de Sousa Pires, Felipe Ferreira de Freitas, Jing Shu, Li Huang, Pablo Wagner Vasconcelos Olegario, Phys.Lett. B797 (2019) 134827, arXiv:1812.10570.
[deSousaPires:2018fnl]
[9-130]
Linear seesaw model with hidden $SU(2)_H \times U(1)_X$ gauge symmetry, Takaaki Nomura, Hiroshi Okada, Phys.Rev. D100 (2019) 115011, arXiv:1812.08473.
[Nomura:2018kdi]
[9-131]
Lepton masses and mixings in a $T'$ flavoured 3-3-1 model with type I and II seesaw mechanisms, V. V. Vien, H. N. Long, A. E. Carcamo Hernandez, Mod.Phys.Lett. A34 (2019) 1950005, arXiv:1812.07263.
[Vien:2018otl]
[9-132]
Neutrino masses and lepton mixing from $A_5\times{\rm CP}$, Andrea Di Iura, M.L. Lopez-Ibanez, Davide Meloni, Nucl.Phys. B949 (2019) 114794, arXiv:1811.09662.
[DiIura:2018fnk]
[9-133]
$U(1)_\chi$ and Seesaw Dirac Neutrinos, Ernest Ma, LHEP 2 (2019), arXiv:1811.09645.
[Ma:2018bow]
[9-134]
Seesaw mechanism and pseudo C-symmetry, Kazuo Fujikawa, Anca Tureanu, Eur.Phys.J. C79 (2019) 752, arXiv:1811.01509.
[Fujikawa:2018jdj]
[9-135]
Electroweak Vacuum metastability in a natural minimal Type-III Seesaw Model, Srubabati Goswami, Vishnudath K. N., Najimuddin Khan, Phys.Rev. D99 (2019) 075012, arXiv:1810.11687.
[Goswami:2018jar]
[9-136]
See saw mechanism with Yukawa alignment for neutrinos, R. Martinez, F. Ochoa, M. Ospina, arXiv:1810.05074, 2018.
[Martinez:2018tcp]
[9-137]
$\Delta\left( 27\right)$ flavor singlet-triplet Higgs model for fermion masses and mixings, A. E. Carcamo Hernandez, Juan Carlos Gomez-Izquierdo, Sergey Kovalenko, M. Mondragon, Nucl.Phys. B (2019) 114688, arXiv:1810.01764.
[CarcamoHernandez:2018djj]
[9-138]
Inverse seesaw model with large $SU(2)_L$ multiplets and natural mass hierarchy, Takaaki Nomura, Hiroshi Okada, Phys.Lett. B792 (2019) 424-429, arXiv:1809.06039.
[Nomura:2018ktz]
[9-139]
Inverse seesaw mechanism with compact supersymmetry: enhanced naturalness and light super-partners, Valentina De Romeri, Ketan M. Patel, Jose W. F. Valle, Phys.Rev. D98 (2018) 075014, arXiv:1808.01453.
[DeRomeri:2018pgm]
[9-140]
An inverse seesaw model with natural hierarchy at TeV scale, Takaaki Nomura, Hiroshi Okada, Phys.Rev. D99 (2019) 055027, arXiv:1807.04555.
[Nomura:2018cfu]
[9-141]
One-loop effective LFV $Zl_kl_m$ vertex from heavy neutrinos within the Mass Insertion Approximation, M.J. Herrero, X. Marcano, R. Morales, A. Szynkman, Eur.Phys.J. C78 (2018) 815, arXiv:1807.01698.
[Herrero:2018luu]
[9-142]
Mu-tau symmetry and the Littlest Seesaw, Stephen F. King, Celso C. Nishi, Phys.Lett. B785 (2018) 391-398, arXiv:1807.00023.
[King:2018kka]
[9-143]
Linear Seesaw for Dirac Neutrinos with $A_4$ Flavour Symmetry, Debasish Borah, Biswajit Karmakar, Phys.Lett. B789 (2019) 59-70, arXiv:1806.10685.
[Borah:2018nvu]
[9-144]
Hybrid seesaw neutrino model in SUSY $SU(5)\times \mathbb{A}_{4}$, R. Ahl Laamara, M. A. Loualidi, M. Miskaoui, E. H. Saidi, Phys.Rev. D98 (2018) 015004, arXiv:1806.08573.
[Laamara:2018zpo]
[9-145]
A Linear seesaw model with hidden gauge symmetry, Takaaki Nomura, Hiroshi Okada, Phys.Rev. D99 (2019) 055033, arXiv:1806.07182.
[Nomura:2018ibs]
[9-146]
Neutrino mass observables and non-Hermitian version of Type-I seesaw model, Sasmita Mishra, JCAP 07 (2021) 056, arXiv:1806.06229.
[Mishra:2018aej]
[9-147]
Gauge dependence of tadpole and mass renormalization for a seesaw extended 2HDM, Vytautas Dudenas, Thomas Gajdosik, Phys.Rev. D98 (2018) 035034, arXiv:1806.04675.
[Dudenas:2018wlr]
[9-148]
An inverse seesaw model with $U(1)_R$ gauge symmetry, Takaaki Nomura, Hiroshi Okada, LHEP 1 (2018) 10-13, arXiv:1806.01714.
[Nomura:2018mwr]
[9-149]
Seesaw Dirac neutrino mass through dimension-6 operators, Salvador Centelles Chulia, Rahul Srivastava, Jose W. F. Valle, Phys.Rev. D98 (2018) 035009, arXiv:1804.03181.
[CentellesChulia:2018bkz]
[9-150]
Natural Alignment of Quark Flavors and Radiatively Induced Quark Mixings, Abhish Dev, Rabindra N. Mohapatra, Phys.Rev. D98 (2018) 073002, arXiv:1804.01598.
[Dev:2018pjn]
[9-151]
Fermion masses and mixings in a 3-3-1 model with $\Delta\left(27\right)$ family symmetry and inverse seesaw mechanism, A. E. Carcamo Hernandez, H. N. Long, V. V. Vien, Eur.Phys.J. C78 (2018) 804, arXiv:1803.01636.
[CarcamoHernandez:2018iel]
[9-152]
Seesaw mechanism in magnetic compactifications, Makoto Ishida, Kenji Nishiwaki, Yoshiyuki Tatsuta, JHEP 1807 (2018) 125, arXiv:1802.06646.
[Ishida:2018bbl]
[9-153]
Seesaw roadmap to neutrino mass and dark matter, Salvador Centelles Chulia, Rahul Srivastava, Jose W. F. Valle, Phys.Lett. B781 (2018) 122-128, arXiv:1802.05722.
[CentellesChulia:2018gwr]
[9-154]
The minimal type-I seesaw model with maximally-restricted texture zeros, D. M. Barreiros, R. G. Felipe, F. R. Joaquim, Phys.Rev. D97 (2018) 115016, arXiv:1802.04563.
[Barreiros:2018ndn]
[9-155]
$ \mu-\tau$ Reflection Symmetry Embedded in Minimal Seesaw, Newton Nath, Zhi-zhong Xing, Jue Zhang, Eur.Phys.J. C78 (2018) 289, arXiv:1801.09931.
[Nath:2018hjx]
[9-156]
Consequences of minimal seesaw with complex $\mu\tau$ antisymmetry of neutrinos, Rome Samanta, Probir Roy, Ambar Ghosal, JHEP 1806 (2018) 085, arXiv:1712.06555.
[Samanta:2017kce]
[9-157]
$A_4$ Flavour Model for Dirac Neutrinos: Type I and Inverse Seesaw, Debasish Borah, Biswajit Karmakar, Phys.Lett. B780 (2018) 461-470, arXiv:1712.06407.
[Borah:2017dmk]
[9-158]
Radiative neutrino masses without seesaw mechanism in a nonuniversal anomaly-free $\mathrm{U(1)}_{X}$ model, Carlos E. Diaz, S. F. Mantilla, R. Martinez, arXiv:1712.05433, 2017.
[Diaz:2017edh]
[9-159]
A radiative seesaw model with higher order terms under an alternative $U(1)_{B-L}$, Takaaki Nomura, Hiroshi Okada, Phys.Lett. B781 (2018) 561-567, arXiv:1711.05115.
[Nomura:2017kih]
[9-160]
No-scale SUGRA Inflation and Type-I seesaw, Ila Garg, Subhendra Mohanty, Int.J.Mod.Phys. A33 (2018) 1850127, arXiv:1711.01979.
[Garg:2017tds]
[9-161]
A Lepton-specific Universal Seesaw Model with Left-Right Symmetry, Ayon Patra, Santosh Kumar Rai, Phys.Rev. D98 (2018) 015033, arXiv:1711.00627.
[Patra:2017gak]
[9-162]
Flavour-symmetric type-II Dirac neutrino seesaw mechanism, Cesar Bonilla, J. M. Lamprea, Eduardo Peinado, Jose W. F. Valle, Phys.Lett. B779 (2018) 257-261, arXiv:1710.06498.
[Bonilla:2017ekt]
[9-163]
A Comprehensive Renormalisation Group Analysis of the Littlest Seesaw Model, Tanja Geib, Stephen F. King, Phys.Rev. D97 (2018) 075010, arXiv:1709.07425.
[Geib:2017bsw]
[9-164]
Majorana neutrino in seesaw mechanism and Bogoliubov quasiparticle, Kazuo Fujikawa, Anca Tureanu, Phys.Rev. D97 (2018) 055042, arXiv:1709.04706.
[Fujikawa:2017gid]
[9-165]
Ma-xion: Majoron as QCD axion in a radiative seesaw model, Ernest Ma, Takahiro Ohata, Koji Tsumura, Phys.Rev. D96 (2017) 075039, arXiv:1708.03076.
[Ma:2017vdv]
[9-166]
Clockwork seesaw mechanisms, Seong Chan Park, Chang Sub Shin, Phys.Lett. B776 (2018) 222-226, arXiv:1707.07364.
[Park:2017yrn]
[9-167]
Neutrino mu-tau reflection symmetry and its breaking in the minimal seesaw, Zhi-Cheng Liu, Chong-Xing Yue, Zhen-hua Zhao, JHEP 1710 (2017) 102, arXiv:1707.05535.
[Liu:2017frs]
[9-168]
A supersymmetric electroweak scale seesaw model, Jung Chang et al., JHEP 1710 (2017) 039, arXiv:1707.04374.
[Chang:2017qgi]
[9-169]
Leptonic Flavor Structure in the Brane Shifted Extra Dimensional Seesaw Mechanism, Mathias Becker, Heinrich Pas, Eur.Phys.J. C78 (2018) 273, arXiv:1707.02882.
[Becker:2017ssz]
[9-170]
Inflation scenario driven by an inflaton belonging to low energy physics, J. G. Ferreira Jr, C. A. de S. Pires, J. G. Rodrigues, P. S. Rodrigues da Silva, Phys.Rev. D96 (2017) 103504, arXiv:1707.01049.
[Ferreira:2017ynu]
[9-171]
A Neutrinophilic 2HDM as a UV Completion for the Inverse Seesaw Mechanism, Enrico Bertuzzo, Pedro A. N. Machado, Zahra Tabrizi, Renata Zukanovich Funchal, JHEP 11 (2017) 004, arXiv:1706.10000.
[Bertuzzo:2017sbj]
[9-172]
Electroweak vacuum stability in presence of singlet scalar dark matter in TeV scale seesaw models, Ila Garg, Srubabati Goswami, Vishnudath K. N., Najimuddin Khan, Phys.Rev. D96 (2017) 055020, arXiv:1706.08851.
[Garg:2017iva]
[9-173]
Gauge-Higgs Seesaw Mechanism in Six-Dimensional Grand Unification, Yutaka Hosotani, Naoki Yamatsu, PTEP 2017 (2017) 091B01, arXiv:1706.03503.
[Hosotani:2017hmu]
[9-174]
Dynamical Origin of Seesaw, Jiri Hosek, arXiv:1704.07172, 2017.
[Hosek:2017ouz]
[9-175]
A scale at 10 MeV, gravitational topological vacuum, and large extra dimensions, Ufuk Aydemir, Universe 4 (2018) 80, arXiv:1704.06663.
[Aydemir:2017hyf]
[9-176]
What does a non-vanishing neutrino mass have to say about the strong CP problem?, P. Q. Hung, arXiv:1704.06390, 2017.
[Hung:2017juv]
[9-177]
On the Seesaw Scale in Supersymmetric SO(10) Models, Zhenxin Ren, Da-Xin Zhang, Eur.Phys.J.Plus 132 (2017) 322, arXiv:1704.03959.
[Ren:2017xyv]
[9-178]
Discrete symmetries for electroweak natural type-I seesaw mechanism, Pratik Chattopadhyay, Ketan M. Patel, Nucl.Phys. B921 (2017) 487-506, arXiv:1703.09541.
[Chattopadhyay:2017zvs]
[9-179]
On expansions in neutrino effective field theory, Gitte Elgaard-Clausen, Michael Trott, JHEP 1711 (2017) 088, arXiv:1703.04415.
[Elgaard-Clausen:2017xkq]
[9-180]
Anarchy and Neutrino Physics, Jean-Francois Fortin, Nicolas Giasson, Luc Marleau, JHEP 1704 (2017) 131, arXiv:1702.07273.
[Fortin:2017iiw]
[9-181]
Minimal Seesaw Model with a Discrete Heavy-Neutrino Exchange Symmetry, Thomas Rink, Kai Schmitz, Tsutomu T. Yanagida, arXiv:1612.08878, 2016.
[Rink:2016knw]
[9-182]
Minima of the Scalar Potential in the Type II Seesaw Model: From Local to Global, Xun-Jie Xu, Phys. Rev. D94 (2016) 115025, arXiv:1612.04950.
[Xu:2016klg]
[9-183]
A remark on the mathematics of the seesaw mechanism, Fabien Besnard, J.Phys.Comm. 1 (2017) 015005, arXiv:1611.08591.
[Besnard:2016tcs]
[9-184]
From CP Phases to Yukawa Textures: Maximal Yukawa Hierarchies in Minimal Seesaw Models, Thomas Rink, Kai Schmitz, JHEP 1703 (2017) 158, arXiv:1611.05857.
[Rink:2016vvl]
[9-185]
Renormalisation Group Corrections to the Littlest Seesaw Model and Maximal Atmospheric Mixing, Stephen F. King, Jue Zhang, Shun Zhou, JHEP 1612 (2016) 023, arXiv:1609.09402.
[King:2016yef]
[9-186]
Naturalness in see-saw mechanism and Bogoliubov transformation, Kazuo Fujikawa, Anca Tureanu, Phys.Lett. B767 (2017) 199-204, arXiv:1609.03309.
[Fujikawa:2016ocu]
[9-187]
Sterile Neutrinos, Dominant Seesaw Mechanisms, Double Beta Decay, and Other Predictions, M. K. Parida, Bidyut Prava Nayak, Adv.High Energy Phys. 2017 (2017) 4023493, arXiv:1607.07236.
[Parida:2016asc]
[9-188]
Littlest Seesaw model from S4 x U(1), Stephen F. King, Christoph Luhn, JHEP 1609 (2016) 023, arXiv:1607.05276.
[King:2016yvg]
[9-189]
Realistic $\mathrm{SU(3)_c \otimes SU(3)_L \otimes U(1)_X}$ model with type-II Dirac neutrino seesaw mechanism, Mario Reig, Jose W.F. Valle, C.A. Vaquera-Araujo, Phys. Rev. D94 (2016) 033012, arXiv:1606.08499.
[Reig:2016ewy]
[9-190]
Type II seesaw supersymmetric neutrino model for $\theta_{13}\neq0$, R. Ahl Laamara, M.A Loualidi, E.H Saidi, Phys. Rev. D93 (2016) 113005, arXiv:1606.04788.
[AhlLaamara:2016epq]
[9-191]
Seesaw model and two zero flavor neutrino texture, Teruyuki Kitabayashi, Masaki Yasue, Int.J.Mod.Phys. A32 (2017) 1750034, arXiv:1606.01008.
[Kitabayashi:2016fsz]
[9-192]
Electron electric dipole moment in Inverse Seesaw models, Asmaa Abada, Takashi Toma, JHEP 1608 (2016) 079, arXiv:1605.07643.
[Abada:2016awd]
[9-193]
On the gravitational seesaw and light bending, Antonio Accioly, Breno L. Giacchini, Ilya L. Shapiro, Eur.Phys.J. C77 (2017) 540, arXiv:1604.07348.
[Accioly:2016etf]
[9-194]
Dynamical seesaw mechanism for Dirac neutrinos, Jose W.F. Valle, C.A. Vaquera-Araujo, Phys. Lett. B755 (2016) 363-366, arXiv:1601.05237.
[Valle:2016kyz]
[9-195]
Dark Radiative Inverse Seesaw, Amine Ahriche, Sofiane M. Boucenna, Salah Nasri, Phys. Rev. D93 (2016) 075036, arXiv:1601.04336.
[Ahriche:2016acx]
[9-196]
MSSM from F-theory SU(5) with Klein Monodromy, Miguel Crispim Romao, Athanasios Karozas, Stephen F. King, George K. Leontaris, Andrew K. Meadowcroft, Phys. Rev. D93 (2016) 126007, arXiv:1512.09148.
[CrispimRomao:2015naq]
[9-197]
Littlest Seesaw, Stephen F. King, JHEP 02 (2016) 085, arXiv:1512.07531.
[King:2015dvf]
[9-198]
Type II Radiative Seesaw Model of Neutrino Mass with Dark Matter, Sean Fraser, Corey Kownacki, Ernest Ma, Oleg Popov, Phys. Rev. D93 (2016) 013021, arXiv:1511.06375.
[Fraser:2015mhb]
[9-199]
Minimal Models for Axion and Neutrino, Y. H. Ahn, Eung Jin Chun, Phys. Lett. B752 (2016) 333-337, arXiv:1510.01015.
[Ahn:2015pia]
[9-200]
Electroweak Vacuum Stability and the Seesaw Mechanism Revisited, John Ng, Alejandro de la Puente, Eur. Phys. J. C76 (2016) 122, arXiv:1510.00742.
[Ng:2015eia]
[9-201]
One-Loop Right-Handed Neutrino Threshold Corrections for Two-Loop Running in Supersymmetric Type I Seesaw Models, Stefan Antusch, Eros Cazzato, JHEP 12 (2015) 066, arXiv:1509.05604.
[Antusch:2015pda]
[9-202]
Perturbativity in the seesaw mechanism, Takehiko Asaka, Takanao Tsuyuki, Phys. Lett. B147 (2016) 149, arXiv:1509.02678.
[Asaka:2015eda]
[9-203]
Neutrino seesaw mechanism with texture zeros, Jiajun Liao, D. Marfatia, K. Whisnant, Nucl. Phys. B900 (2015) 449-476, arXiv:1508.07364.
[Liao:2015hya]
[9-204]
Confronting the real scalar septuplet minimal dark matter model with vacuum stability, perturbativity, and Type-I and Type-III seesaws, Chengfeng Cai, Ze-Min Huang, Zhaofeng Kang, Zhao-Huan Yu, Hong-Hao Zhang, arXiv:1508.04034, 2015.
[Cai:2015joa]
[9-205]
Neutrino Masses and Deviation from Tri-bimaximal mixing in $\Delta(27)$ model with Inverse Seesaw Mechanism, M. Abbas, S. Khalil, A. Rashed, A. Sil, Phys. Rev. D93 (2016) 013018, arXiv:1508.03727.
[Abbas:2015zna]
[9-206]
Loop level constraints on Seesaw neutrino mixing, Enrique Fernandez-Martinez, Josu Hernandez-Garcia, Jacobo Lopez-Pavon, Michele Lucente, JHEP 10 (2015) 130, arXiv:1508.03051.
[Fernandez-Martinez:2015hxa]
[9-207]
Consistency of the triplet seesaw revisited, Cesar Bonilla, Renato M. Fonseca, Jose W.F. Valle, Phys. Rev. D92 (2015) 075028, arXiv:1508.02323.
[Bonilla:2015eha]
[9-208]
Adjoint $SU(5)$ GUT model with $T_{7}$ flavor symmetry, Carolina Arbelaez, A. E. Carcamo Hernandez, Sergey Kovalenko, Ivan Schmidt, Phys. Rev. D92 (2015) 115015, arXiv:1507.03852.
[Arbelaez:2015toa]
[9-209]
Seesaw neutrino masses with a second Higgs doublet added, Darius Jurciukonis, Thomas Gajdosik, Andrius Juodagalvis, arXiv:1507.03459, 2015.
[Jurciukonis:2015rha]
[9-210]
Cyclic permutation symmetry and texture zeros in inverse seesaw : A minimalistic approach, Rome Samanta, Ambar Ghosal, Nucl. Phys. B911 (2016) 846-862, arXiv:1507.02582.
[Samanta:2015oqa]
[9-211]
On the stability of the electroweak vacuum in the presence of low-scale seesaw models, Luigi Delle Rose, Carlo Marzo, Alfredo Urbano, JHEP 12 (2015) 050, arXiv:1506.03360.
[DelleRose:2015bms]
[9-212]
Radiative Seesaw in Minimal 3-3-1 Model, Hiroshi Okada, Nobuchika Okada, Yuta Orikasa, Phys. Rev. D93 (2016) 073006, arXiv:1504.01204.
[Okada:2015bxa]
[9-213]
Dark Matter in the Higgs Triplet Model, Sahar Bahrami, Mariana Frank, Phys. Rev. D91 (2015) 075003, arXiv:1502.02680.
[Bahrami:2015mwa]
[9-214]
On lepton mixing in gauge models, Domenico Falcone, Luis Oliver, Phys. Rev. D92 (2015) 033004, arXiv:1502.02424.
[Falcone:2015hma]
[9-215]
Neutrino mass generation with extra right-handed fields in a Dirac scenario via the type-I seesaw mechanism, Ernesto A. Matute, Mod.Phys.Lett. A29 (2014) 1450212, arXiv:1501.02625.
[Matute:2014qnl]
[9-216]
Dirac or Inverse Seesaw Neutrino Masses with $B-L$ Gauge Symmetry and $S_3$ Flavour Symmetry, Ernest Ma, Rahul Srivastava, Phys.Lett. B741 (2015) 217-222, arXiv:1411.5042.
[Ma:2014qra]
[9-217]
One Right-handed Neutrino to Generate Complete Neutrino Mass Spectrum in the Framework of NMSSM, Yi-Lei Tang, Nucl. Phys. B890 (2015) 263, arXiv:1411.1892.
[Tang:2014hna]
[9-218]
Scaling ansatz with texture zeros in linear seesaw, Mainak Chakraborty, H. Zeen Devi, Ambar Ghosal, Phys.Lett. B741 (2015) 210-216, arXiv:1410.3276.
[Chakraborty:2014hfa]
[9-219]
Inflation in a modified radiative seesaw model, Romy H. S. Budhi, Shoichi Kashiwase, Daijiro Suematsu, Phys. Rev. D90 (2014) 113013, arXiv:1409.6889.
[Budhi:2014gxa]
[9-220]
Linear seesaw neutrinos in a scenario of gauged B-L symmetry, Claudio O. Dib, Gaston R. Moreno, Nicolas A. Neill, Phys. Rev. D90 (2014) 113003, arXiv:1409.1868.
[Dib:2014fua]
[9-221]
A natural realization of the inverse seesaw mechanism at TeV scale, Adrian Palcu, Rom.Rep.Phys. 68 (2016) 128-137, arXiv:1408.6518.
[Palcu:2014aza]
[9-222]
Scotogenic Inverse Seesaw Model of Neutrino Mass, Sean Fraser, Ernest Ma, Oleg Popov, Phys.Lett. B737 (2014) 280-282, arXiv:1408.4785.
[Fraser:2014yha]
[9-223]
Radiative and Seesaw Threshold Corrections to the $S_3$ Symmetric Neutrino Mass Matrix, Shivani Gupta, C. S. Kim, Pankaj Sharma, Phys.Lett. B740 (2015) 353-358, arXiv:1408.0172.
[Gupta:2014nba]
[9-224]
Two-Higgs-Doublet Type-II Seesaw Model, Chuan-Hung Chen, Takaaki Nomura, Phys. Rev. D90 (2014) 075008, arXiv:1406.6814.
[Chen:2014xva]
[9-225]
Neutrino masses from SUSY breaking in radiative seesaw models, A. J. R. Figueiredo, Eur.Phys.J. C75 (2015) 99, arXiv:1406.0557.
[RFigueiredo:2014tap]
[9-226]
Anatomy of Higgs mass in Supersymmetric Inverse Seesaw Models, Eung Jin Chun, V. Suryanarayana Mummidi, Sudhir K. Vempati, Phys.Lett. B736 (2014) 470-477, arXiv:1405.5478.
[Chun:2014tfa]
[9-227]
Leptonic CP Violation Phases, Quark-Lepton Similarity and Seesaw Mechanism, Basudeb Dasgupta, Alexei Yu. Smirnov, Nucl. Phys. B884 (2014) 357-378, arXiv:1404.0272.
[Dasgupta:2014ula]
[9-228]
Does the hierarchy problem set the seesaw scale?, Ravi Kuchimanchi, arXiv:1401.5066, 2014.
[Kuchimanchi:2014dba]
[9-229]
Maximal zero textures of the inverse seesaw with broken $\mu\tau$ symmetry, Biswajit Adhikary, Ambar Ghosal, Probir Roy, Indian J. Phys. 88 (2014) 979-989, arXiv:1311.6746.
[Adhikary:2013mfa]
[9-230]
One-parameter Neutrino Mass Matrix and Symmetry Realization, Yuji Kajiyama, Akari Sato, Wakako Sato, Aya Suzuki, arXiv:1311.2347, 2013.
[Kajiyama:2013wwa]
[9-231]
Dynamical torsion as the microscopic origin of the neutrino seesaw, M.A. Zubkov, Mod.Phys.Lett. A29 (2014) 1450111, arXiv:1310.8034.
[Zubkov:2013zxa]
[9-232]
A No-Scale Framework for Sub-Planckian Physics, John Ellis, Dimitri V. Nanopoulos, Keith A. Olive, Phys. Rev. D89 (2014) 043502, arXiv:1310.4770.
[Ellis:2013nka]
[9-233]
Hybrid Seesaw Model in $S_3$ Flavor Symmetry, Yuji Kajiyama, Hiroshi Okada, Kei Yagyu, Nucl. Phys. B887 (2014) 358-370, arXiv:1309.6234.
[Kajiyama:2013sza]
[9-234]
Charged Lepton Corrections to Scaling Neutrino Mixing, S. Dev, Radha Raman Gautam, Lal Singh, Phys. Rev. D89 (2014) 013006, arXiv:1309.4219.
[Dev:2013esa]
[9-235]
Double seesaw mechanism and lepton mixing, W. Grimus, L. Lavoura, JHEP 1403 (2014) 004, arXiv:1309.3186.
[Grimus:2013tva]
[9-236]
Anomaly-free U(1) gauge symmetries in neutrino seesaw flavor models, Luis M. Cebola, David Emmanuel-Costa, Ricardo Gonzalez Felipe, Phys. Rev. D88 (2013) 116008, arXiv:1309.1709.
[Cebola:2013hta]
[9-237]
Higgs Vacuum Stability in $B-L$ extended Standard Model, Alakabha Datta, A. Elsayed, S. Khalil, A. Moursy, Phys. Rev. D88 (2013) 053011, arXiv:1308.0816.
[Datta:2013mta]
[9-238]
Froggatt-Nielsen models with a residual $Z_4^R$ symmetry, Herbi K. Dreiner, Christoph Luhn, Toby Opferkuch, Phys. Rev. D88 (2013) 115005, arXiv:1308.0332.
[Dreiner:2013ala]
[9-239]
Deviations from Tri-Bimaximal Neutrino Mixing Using Type II Seesaw, Debasish Borah, Nucl. Phys. B876, 575 (2013) 575-586, arXiv:1307.2426.
[Borah:2013jia]
[9-240]
Masses, mixing angles and phases of general Majorana neutrino mass matrix: application to broken cyclic symmetric mass matrix, Biswajit Adhikary, Mainak chakraborty, Ambar Ghosal, JHEP 1310 (2013) 043, arXiv:1307.0988.
[Adhikary:2013bma]
[9-241]
Radiatively Induced Type II seesaw and Vector-like 5/3 Charge Quarks, R. Franceschini, R. N. Mohapatra, Phys. Rev. D89 (2014) 055013, arXiv:1306.6108.
[Franceschini:2013aha]
[9-242]
Hybrid Textures of the Right-Handed Majorana Neutrino Mass Matrix, S. Dev, Radha Raman Gautam, Lal Singh, Phys. Rev. D88 (2013) 033008, arXiv:1306.4281.
[Dev:2013nua]
[9-243]
Neutrino Masses and Higgs Vacuum Stability, Archil Kobakhidze, Alexander Spencer-Smith, JHEP 1308 (2013) 036, arXiv:1305.7283.
[Kobakhidze:2013pya]
[9-244]
Minimal see-saw model predicting best fit lepton mixing angles, S. F. King, Phys.Lett. B724 (2013) 92-98, arXiv:1305.4846.
[King:2013xba]
[9-245]
Generalized Inverse Seesaws, Sandy S. C. Law, Kristian L. McDonald, Phys. Rev. D87 (2013) 113003, arXiv:1303.4887.
[Law:2013gma]
[9-246]
Minimal Tree-Level Seesaws with a Heavy Intermediate Fermion, Kristian L. McDonald, JHEP 1307 (2013) 020, arXiv:1303.4573.
[McDonald:2013kca]
[9-247]
Two Loop Radiative Seesaw Model with Inert Triplet Scalar Field, Yuji Kajiyama, Hiroshi Okada, Kei Yagyu, Nucl. Phys. B874 (2013) 198-216, arXiv:1303.3463.
[Kajiyama:2013zla]
[9-248]
Top-quark and neutrino composite Higgs bosons, Adam Smetana, Eur.Phys.J. C73 (2013) 2513, arXiv:1301.1554.
[Smetana:2013hm]
[9-249]
Minimal Neutrino Texture with Neutrino Mass Ratio and Cabibbo Angle, Yusuke Shimizu, Ryo Takahashi, Morimitsu Tanimoto, PTEP 2013 (2013) 063B02, arXiv:1212.5913.
[Shimizu:2012ry]
[9-250]
Sterile Anarchy, Julian Heeck, Werner Rodejohann, Phys. Rev. D87 (2013) 037301, arXiv:1211.5295.
[Heeck:2012zb]
[9-251]
From Dirac neutrino masses to baryonic and dark matter asymmetries, Pei-Hong Gu, Nucl. Phys. B872 (2013) 38-61, arXiv:1209.4579.
[Gu:2012fg]
[9-252]
Minimal Radiative Neutrino Mass Mechanism for Inverse Seesaw Models, P. S. Bhupal Dev, Apostolos Pilaftsis, Phys. Rev. D86 (2012) 113001, arXiv:1209.4051.
[Dev:2012sg]
[9-253]
The Higgs boson and Top quark masses as tests of Electroweak Vacuum Stability, Isabella Masina, Phys. Rev. D87 (2013) 053001, arXiv:1209.0393.
[Masina:2012tz]
[9-254]
Quasi-Degenerate Neutrinos in Type II Seesaw Models, Mrinal Kumar Das, Debasish Borah, Rinku Mishra, Phys. Rev. D86 (2013) 095006, arXiv:1209.0280.
[Borah:2012bey]
[9-255]
Lepton flavor violation and seesaw symmetries, D. Aristizabal Sierra, Hyperfine Interact. 214 (2013) 55-61, arXiv:1208.4558.
[AristizabalSierra:2012af]
[9-256]
Radiative Two Loop Inverse Seesaw and Dark Matter, Gang Guo, Xiao-Gang He, Guan-Nan Li, JHEP 10 (2012) 044, arXiv:1207.6308.
[Guo:2012ne]
[9-257]
Seesaw parametrization for n right-handed neutrinos, Julian Heeck, Phys. Rev. D86 (2012) 093023, arXiv:1207.5521.
[Heeck:2012fw]
[9-258]
A natural $Z'$ model with inverse seesaw and leptonic dark matter, Lorenzo Basso, Oliver Fischer, J. J. van der Bij, Phys. Rev. D87 (2013) 035015, arXiv:1207.3250.
[Basso:2012ti]
[9-259]
Combining type I and type II seesaw mechanisms in the minimal 3-3-1 model, W. Caetano, D. Cogollo, C. A. de S. Pires, P. S. Rodrigues da Silva, Phys. Rev. D86 (2012) 055021, arXiv:1206.5741.
[Caetano:2012qc]
[9-260]
On the Potential of Leptonic Minimal Flavour Violation, R. Alonso, M. B. Gavela, D. Hernandez, L. Merlo, Phys. Lett. B715 (2012) 194-198, arXiv:1206.3167.
[Alonso:2012fy]
[9-261]
A Simple Realization of the Inverse Seesaw Mechanism, A. G. Dias, C. A. de S. Pires, P. S. Rodrigues da Silva, A. Sampieri, Phys. Rev. D86 (2012) 035007, arXiv:1206.2590.
[Dias:2012xp]
[9-262]
Non-Conservation of (B-L) from Neutrino Seesaw, Adam Latosinski, Krzysztof A. Meissner, Hermann Nicolai, Eur.Phys.J. C73 (2013) 2336, arXiv:1205.5887.
[Latosinski:2012zgs]
[9-263]
Minimal lepton flavor violating realizations of minimal seesaw models, Diego Aristizabal Sierra, Audrey Degee, Jernej F. Kamenik, JHEP 07 (2012) 135, arXiv:1205.5547.
[AristizabalSierra:2012myh]
[9-264]
Neutrino masses and flavor mixing in a generalized inverse seesaw model with a universal two-zero texture, Ye-Ling Zhou, Phys. Rev. D86 (2012) 093011, arXiv:1205.2303.
[Zhou:2012ds]
[9-265]
Seesaw Mechanism with Occam's Razor, Keisuke Harigaya, Masahiro Ibe, Tsutomu T. Yanagida, Phys. Rev. D86 (2012) 013002, arXiv:1205.2198.
[Harigaya:2012bw]
[9-266]
TeV-scale Seesaw with Quintuplet Fermions, Kresimir Kumericki, Ivica Picek, Branimir Radovcic, Phys. Rev. D86 (2012) 013006, arXiv:1204.6599.
[Kumericki:2012bh]
[9-267]
Systematic study of the d=5 Weinberg operator at one-loop order, Florian Bonnet, Martin Hirsch, Toshihiko Ota, Walter Winter, JHEP 07 (2012) 153, arXiv:1204.5862.
[Bonnet:2012kz]
[9-268]
Predictive Discrete Dark Matter Model, M.S. Boucenna, S. Morisi, E. Peinado, Y. Shimizu, J. W. F. Valle, Phys. Rev. D86 (2012) 073008, arXiv:1204.4733.
[Boucenna:2012qb]
[9-269]
Impact of massive neutrinos on the Higgs self-coupling and electroweak vacuum stability, Werner Rodejohann, He Zhang, JHEP 06 (2012) 022, arXiv:1203.3825.
[Rodejohann:2012px]
[9-270]
A new neutrino mass sum rule from inverse seesaw, L. Dorame, S. Morisi, E. Peinado, Alma D. Rojas, J. W. F. Valle, Phys. Rev. D86 (2012) 056001, arXiv:1203.0155.
[Dorame:2012zv]
[9-271]
Seesaw Scale in the Minimal Renormalizable SO(10) Grand Unification, Stefano Bertolini, Luca Di Luzio, Michal Malinsky, Phys. Rev. D85 (2012) 095014, arXiv:1202.0807.
[Bertolini:2012az]
[9-272]
Large Mixing Angles From Many Right-Handed Neutrinos, Brian Feldstein, William Klemm, Phys. Rev. D85 (2012) 053007, arXiv:1111.6690.
[Feldstein:2011ck]
[9-273]
Seesaw neutrino masses from an $A_4$ model with two equal vacuum expectation values, P.M. Ferreira, L. Lavoura, arXiv:1111.5859, 2011.
[Ferreira:2011hw]
[9-274]
TeV-Scale Seesaw with Loop-Induced Dirac Mass Term and Dark Matter from $U(1)_{B-L}$ Gauge Symmetry Breaking, Shinya Kanemura, Takehiro Nabeshima, Hiroaki Sugiyama, Phys. Rev. D85 (2012) 033004, arXiv:1111.0599.
[Kanemura:2011mw]
[9-275]
Light Sterile Neutrino in the Minimal Extended Seesaw, He Zhang, Phys. Lett. B714 (2012) 262-266, arXiv:1110.6838.
[Zhang:2011vh]
[9-276]
TeV-scale seesaw with non-negligible left-right neutrino mixings, Naoyuki Haba, Tomohiro Horita, Kunio Kaneta, Yukihiro Mimura, arXiv:1110.2252, 2011.
[Haba:2011pe]
[9-277]
The Frobenius group T13 and the canonical see-saw mechanism applied to neutrino mixing, Christine Hartmann, Phys. Rev. D85 (2012) 013012, arXiv:1109.5143.
[Hartmann:2011dn]
[9-278]
Fermion masses and mixing with tri-bimaximal in SO(10) with type-I seesaw, Gianluca Blankenburg, Stefano Morisi, JHEP 01 (2012) 016, arXiv:1109.3396.
[Blankenburg:2011vw]
[9-279]
Yukawa couplings and seesaw neutrino masses in noncommutative gauge theory, Raul Horvat, Amon Ilakovac, Peter Schupp, Josip Trampetic, Jiangyang You, Phys. Lett. B715 (2012) 340-347, arXiv:1109.3085.
[Horvat:2011qn]
[9-280]
Seesaw model in SO(10) with an upper limit on right-handed neutrino masses, M. Abud, F. Buccella, D. Falcone, L. Oliver, Phys. Rev. D86 (2012) 033006, arXiv:1107.4671.
[Abud:2011mr]
[9-281]
Sub-GeV dark matter as pseudo-Goldstone from the seesaw scale, Michele Frigerio, Thomas Hambye, Eduard Masso, Phys. Rev. X1 (2011) 021026, arXiv:1107.4564.
[Frigerio:2011in]
[9-282]
Majorana Neutrinos from Inverse Seesaw in Warped Extra Dimension, Chee Sheng Fong, Rabindra N. Mohapatra, Ilmo Sung, Phys. Lett. B704 (2011) 171-178, arXiv:1107.4086.
[Fong:2011xh]
[9-283]
Dynamical Model for Meson Production off Nucleon and Application to Neutrino-Nucleus Reactions, Satoshi X. Nakamura, AIP Conf. Proc. 1405 (2011) 146-151, arXiv:1107.2364. 7th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt11), Dehradun, India, Mar. 7-11, 2011.
[Nakamura:2011gd]
[9-284]
On the importance of the 1-loop finite corrections to seesaw neutrino masses, D. Aristizabal Sierra, Carlos E. Yaguna, JHEP 08 (2011) 013, arXiv:1106.3587.
[AristizabalSierra:2011mn]
[9-285]
Realizing Tri-bimaximal Mixing in Minimal Seesaw Model with S4 Family Symmetry, Zhen-hua Zhao, Phys. Lett. B701 (2011) 609-613, arXiv:1106.2715.
[Zhao:2011pv]
[9-286]
The Higgs Potential in the Type II Seesaw Model, A. Arhrib et al., Phys. Rev. D84 (2011) 095005, arXiv:1105.1925.
[Arhrib:2011uy]
[9-287]
A possible minimal gauge-Higgs unification, P. V. Dong, Eur.Phys.J. C71 (2011) 1731, arXiv:1105.0541.
[Dong:2011jx]
[9-288]
Hierarchical neutrino masses and mixing in non minimal-SU(5), M. Paraskevas, K. Tamvakis, Phys. Rev. D84 (2011) 013010, arXiv:1104.1901.
[Paraskevas:2011sw]
[9-289]
Non-zero $\theta_{13}$ in a model of the hierarchical neutrino mass spectrum, Takeshi Araki, Phys. Lett. B704 (2011) 166-170, arXiv:1104.1689.
[Araki:2011qs]
[9-290]
Minimal seesaw model with S_4 flavor symmetry, Rui-Zhi Yang, He Zhang, Phys. Lett. B700 (2011) 316-321, arXiv:1104.0380.
[Yang:2011fh]
[9-291]
Minimal flavour violation extensions of the seesaw, Rodrigo Alonso, Gino Isidori, Luca Merlo, Luis Alfredo Munoz, Enrico Nardi, JHEP 06 (2011) 037, arXiv:1103.5461.
[Alonso:2011jd]
[9-292]
Phenomenological Consequences of sub-leading Terms in See-Saw Formulas, Hans Hettmansperger, Manfred Lindner, Werner Rodejohann, JHEP 04 (2011) 123, arXiv:1102.3432.
[Hettmansperger:2011bt]
[9-293]
Anomaly Mediation and Cosmology, A. Basboll, M. Hindmarsh, D.R.T. Jones, JHEP 06 (2011) 115, arXiv:1101.5622.
[Basboll:2011mh]
[9-294]
Discrete flavor symmetry and minimal seesaw mechanism, K. H. Nam, N. W. Park, Kim Siyeon, Phys. Rev. D83 (2011) 056013, arXiv:1101.4134.
[Park:2011zt]
[9-295]
Supersymmetric mass spectra and the seesaw scale, Martin Hirsch, Laslo Reichert, Werner Porod, JHEP 05 (2011) 086, arXiv:1101.2140.
[Hirsch:2011cw]
[9-296]
Trinification, the Hierarchy Problem and Inverse Seesaw Neutrino Masses, Christophe Cauet, Heinrich Pas, Soren Wiesenfeldt, Phys. Rev. D83 (2011) 093008, arXiv:1012.4083.
[Cauet:2010ng]
[9-297]
An SO(10) model with adjoint fermions for double seesaw neutrino masses, Joydeep Chakrabortty, Srubabati Goswami, Amitava Raychaudhuri, Phys. Lett. B698 (2011) 265-270, arXiv:1012.2715.
[Chakrabortty:2010az]
[9-298]
Different $SO(10)$ Paths to Fermion Masses and Mixings, Guido Altarelli, Gianluca Blankenburg, JHEP 03 (2011) 133, arXiv:1012.2697.
[Altarelli:2010at]
[9-299]
Minimal Dynamical Inverse See Saw, F. Bazzocchi, Phys. Rev. D83 (2011) 093009, arXiv:1011.6299.
[Bazzocchi:2010dt]
[9-300]
Cascade Seesaw for Tiny Neutrino Mass, Yi Liao, JHEP 06 (2011) 098, arXiv:1011.3633.
[Liao:2010cc]
[9-301]
Inverse seesaw in supersymmetry, Seong Chan Park, Kai Wang, Phys. Lett. B701 (2011) 107-110, arXiv:1011.3621.
[Park:2010by]
[9-302]
Double and Linear Seesaw from Left-Right and Peccei-Quinn Symmetry Breaking, Pei-Hong Gu, arXiv:1011.2380, 2010.
[Gu:2010vb]
[9-303]
Universal Seesaw from Left-Right and Peccei-Quinn Symmetry Breaking, Pei-Hong Gu, Manfred Lindner, Phys. Lett. B698 (2011) 40-43, arXiv:1010.4635.
[Gu:2010zv]
[9-304]
Hilbert Series for Flavor Invariants of the Standard Model, Amihay Hanany, Elizabeth E. Jenkins, Aneesh V. Manohar, Giuseppe Torri, JHEP 03 (2011) 096, arXiv:1010.3161.
[Hanany:2010vu]
[9-305]
Light Neutrinos from a Mini-Seesaw Mechanism in Warped Space, Kristian L. McDonald, Phys. Lett. B696 (2011) 266-272, arXiv:1010.2659.
[McDonald:2010jm]
[9-306]
See-Saw Masses for Quarks and Leptons in SU(5), Thorsten Feldmann, JHEP 04 (2011) 043, arXiv:1010.2116.
[Feldmann:2010yp]
[9-307]
Perturbed invariant under a cyclic permutation with trace of neutrino mass matrix remain constant, Asan Damanik, Mod. Phys. Lett. A26 (2011) 567-574, arXiv:1009.4080.
[Damanik:2010gf]
[9-308]
Neutrino masses and the Cabibbo expansion, Fu-Sin Ling, arXiv:1009.2371, 2010.
[Ling:2010ai]
[9-309]
Higgs Boson Mass Bounds in Seesaw Extended Standard Model with Non-Minimal Gravitational Coupling, Bin He, Nobuchika Okada, Qaisar Shafi, Phys. Lett. B695 (2011) 219-224, arXiv:1009.1878.
[He:2010sk]
[9-310]
Beyond the standard seesaw: neutrino masses from Kahler operators and broken supersymmetry, Andrea Brignole, Filipe R. Joaquim, Anna Rossi, JHEP 08 (2010) 133, arXiv:1007.1942.
[Brignole:2010nh]
[9-311]
Seesaw in the bulk, Atsushi Watanabe, Koichi Yoshioka, Prog. Theor. Phys. 125 (2011) 129-148, arXiv:1007.1527.
[Watanabe:2010cy]
[9-312]
Non-unitarity of the leptonic mixing matrix in the TeV-scale type-I seesaw model, Tommy Ohlsson, Christoph Popa, He Zhang, Phys.Lett. B692 (2010) 257-260, arXiv:1007.0106.
[Ohlsson:2010ca]
[9-313]
See-saw neutrino masses and large mixing angles in the vortex background on a sphere, Jean-Marie Frere, Maxim Libanov, Fu-Sin Ling, JHEP 09 (2010) 081, arXiv:1006.5196.
[Frere:2010ah]
[9-314]
Type I and $new$ seesaw in left-right symmetric theories, Joydeep Chakrabortty, Phys. Lett. B690 (2010) 382-385, arXiv:1005.1377.
[Chakrabortty:2010zk]
[9-315]
TeV-scale seesaw from a multi-Higgs model, Naoyuki Haba, Masaki Hirotsu, Eur. Phys. J. C69 (2010) 481-492, arXiv:1005.1372.
[Haba:2010zi]
[9-316]
Effects of Large Threshold Corrections in Supersymmetric Type-I Seesaw Model, Sin Kyu Kang, Takuya Morozumi, Norimi Yokozaki, JHEP 11 (2010) 061, arXiv:1005.1354.
[Kang:2010zd]
[9-317]
Type II see-saw dominance in SO(10), Alejandra Melfo, Alba Ramirez, Goran Senjanovic, Phys. Rev. D82 (2010) 075014, arXiv:1005.0834.
[Melfo:2010gf]
[9-318]
Light neutrinos from massless texture and below TeV seesaw scale, Rathin Adhikari, Amitava Raychaudhuri, Phys. Rev. D84 (2011) 033002, arXiv:1004.5111.
[Adhikari:2010yt]
[9-319]
Neutrino Dispersion Relations at Finite Temperature and Density in the Left-Right Symmetric Model, F. D. Villalba-Pardo, C. J. Quimbay, arXiv:1004.1074, 2010.
[Villalba-Pardo:2010okf]
[9-320]
Noncommutative Geometry as a Framework for Unification of all Fundamental Interactions including Gravity. Part I, Ali H. Chamseddine, Alain Connes, Fortsch. Phys. 58 (2010) 553-600, arXiv:1004.0464.
[Chamseddine:2010ud]
[9-321]
Spontaneous Left-Right Symmetry Breaking in Supersymmetric Models with only Higgs Doublets, Sudhanwa Patra, Anjishnu Sarkar, Utpal Sarkar, Phys. Rev. D82 (2010) 015010, arXiv:1003.5095.
[Patra:2010ks]
[9-322]
Neutrino Masses and A TeV Scale Seesaw Mechanism, Chao Wei, Phys. Rev. D 82 (2010) 016008, arXiv:1003.1468.
[Chao:2010fyp]
[9-323]
Triple seesaw mechanism, D. Cogollo, H. Diniz, C. A. de S. Pires, Phys. Lett. B687 (2010) 400-404, arXiv:1002.1944.
[Cogollo:2010jw]
[9-324]
B and L as Gauge Symmetries, Pavel Fileviez Perez, Mark B. Wise, Phys. Rev. D82 (2010) 011901, arXiv:1002.1754.
[FileviezPerez:2010gw]
[9-325]
The Weinberg Operator and a Lower String Scale in Orientifold Compactifications, Mirjam Cvetic, James Halverson, Paul Langacker, Robert Richter, JHEP 10 (2010) 094, arXiv:1001.3148.
[Cvetic:2010mm]
[9-326]
Double seesaw mechanism in a left-right symmetric model with TeV neutrinos, F. M. L. de Almeida Jr. et al., Phys. Rev. D81 (2010) 053005, arXiv:1001.2162.
[deAlmeida:2010qb]
[9-327]
TeV-scale seesaw mechanism catalyzed by the electron mass, W. Grimus, L. Lavoura, Phys. Lett. B687 (2010) 188-193, arXiv:0912.4361.
[Grimus:2009sq]
[9-328]
Hierarchical Neutrino Masses and Mixing in Flipped-SU(5), J. Rizos, K. Tamvakis, Phys. Lett. B685 (2010) 67-71, arXiv:0912.3997.
[Rizos:2009ka]
[9-329]
Type I seesaw mechanism for quasi degenerate neutrinos, Anjan S. Joshipura, Ketan M. Patel, Sudhir K. Vempati, Phys. Lett. B690 (2010) 289-295, arXiv:0911.5618.
[Joshipura:2009gi]
[9-330]
Trimaximal lepton mixing with a trivial Dirac phase, W. Grimus, L. Lavoura, A. Singraber, Phys. Lett. B686 (2010) 141-145, arXiv:0911.5120.
[Grimus:2009xw]
[9-331]
A See-Saw $S_4$ model for fermion masses and mixings, Davide Meloni, J. Phys. G37 (2010) 055201, arXiv:0911.3591.
[Meloni:2009cz]
[9-332]
Corrections to Tribimaximal Mixing from Nondegenerate Phases, Y. F. Li, Q.Y. Liu, Mod. Phys. Lett. A25 (2010) 63-78, arXiv:0911.2670.
[Li:2009kx]
[9-333]
An SO(10) Grand Unified Theory of Flavor, Bhaskar Dutta, Yukihiro Mimura, R.N. Mohapatra, JHEP 05 (2010) 034, arXiv:0911.2242.
[Dutta:2009bj]
[9-334]
Spontaneous R-Parity Violating Type III Seesaw, Sandhya Choubey, Manimala Mitra, JHEP 1005 (2010) 021, arXiv:0911.2030.
[Choubey:2009wp]
[9-335]
Novel seesaw mechanism with vectorlike TeV-scale 5-plet, Ivica Picek, Branimir Radovcic, Phys. Lett. B687 (2010) 338-341, arXiv:0911.1374.
[Picek:2009is]
[9-336]
Gauge Mediated SUSY Breaking via Seesaw, Pavel Fileviez Perez, Hoernisa Iminniyaz, German Rodrigo, Sogee Spinner, Phys. Rev. D81 (2010) 095013, arXiv:0911.1360.
[FileviezPerez:2009im]
[9-337]
Origin of Quark-Lepton Flavor in SO(10) with Type II Seesaw, Bhaskar Dutta, Yukihiro Mimura, R.N. Mohapatra, Phys. Rev. D80 (2009) 095021, arXiv:0910.1043.
[Dutta:2009ij]
[9-338]
Geometry-free neutrino masses in curved spacetime, Atsushi Watanabe, Koichi Yoshioka, Phys. Lett. B683 (2010) 289-293, arXiv:0910.0677.
[Watanabe:2009br]
[9-339]
The Friedberg-Lee Symmetry and Minimal Seesaw Model, Xiao-Gang He, Wei Liao, Phys. Lett. B681 (2009) 253-256, arXiv:0909.1463.
[He:2009pt]
[9-340]
Neutrino Mixing in Unified Extended Seesaw Model, Ivo de Medeiros Varzielas, AIP Conf. Proc. 1200 (2010) 944-947, arXiv:0909.1337. Proceedings submission for SUSY09, 4 pages, 1 figure.
[deMedeirosVarzielas:2009nf]
[9-341]
Canonical Seesaw Mechanism in Electro-Weak SU(4)L x U(1)Y Models, Adrian Palcu, Mod. Phys. Lett. A24 (2009) 2589-2600, arXiv:0908.1636.
[Palcu:2009uk]
[9-342]
Friedberg-Lee symmetry and tri-bimaximal neutrino mixing in the inverse seesaw mechanism, Aik Hui Chan, Hwee Boon Low, Zhi-zhong Xing, Phys. Rev. D80 (2009) 073006, arXiv:0908.0822.
[Chan:2009du]
[9-343]
Radiative Transmission of Lepton Flavor Hierarchies, Adisorn Adulpravitchai, Manfred Lindner, Alexander Merle, Rabindra N.Mohapatra, Phys. Lett. B680 (2009) 476-479, arXiv:0908.0470.
[Adulpravitchai:2009re]
[9-344]
Left-Right Model of Electroweak Interaction with one Bidoublet and one Doublet Higgs Fields, Asan Damanik, J. Theor. Comput. Stud. 6 (2010) 0404, arXiv:0907.5054.
[Damanik:2009qe]
[9-345]
Algebraic Structure of Lepton and Quark Flavor Invariants and CP Violation, Elizabeth E. Jenkins, Aneesh V. Manohar, JHEP 10 (2009) 094, arXiv:0907.4763.
[Jenkins:2009dy]
[9-346]
Neutrino masses from higher than d=5 effective operators, Florian Bonnet, Daniel Hernandez, Toshihiko Ota, Walter Winter, JHEP 10 (2009) 076, arXiv:0907.3143.
[Bonnet:2009ej]
[9-347]
Inverse tri-bimaximal type-III seesaw and lepton flavor violation, D.Ibanez, S.Morisi, J.W.F.Valle, Phys. Rev. D80 (2009) 053015, arXiv:0907.3109.
[Ibanez:2009du]
[9-348]
Seesaw Options for Three Neutrinos, Xiao-Gang He, Ernest Ma, Phys. Lett. B683 (2010) 178-182, arXiv:0907.2737.
[He:2009xd]
[9-349]
Calculable inverse-seesaw neutrino masses in supersymmetry, F. Bazzocchi, D.G. Cerdeno, C. Munoz, J.W.F. Valle, Phys. Rev. D81 (2010) 051701, arXiv:0907.1262.
[Bazzocchi:2009kc]
[9-350]
Multiple seesaw mechanisms of neutrino masses at the TeV scale, Zhi-zhong Xing, Shun Zhou, Phys. Lett. B679 (2009) 249-254, arXiv:0906.1757.
[Xing:2009hx]
[9-351]
Minimal Flavour Seesaw Models, M. B. Gavela, T. Hambye, D. Hernandez, P. Hernandez, JHEP 09 (2009) 038, arXiv:0906.1461.
[Gavela:2009cd]
[9-352]
A4-based tri-bimaximal mixing within inverse and linear seesaw schemes, M. Hirsch, S. Morisi, J.W.F. Valle, Phys. Lett. B679 (2009) 454-459, arXiv:0905.3056.
[Hirsch:2009mx]
[9-353]
Inverse Seesaw Neutrino Mass from Lepton Triplets in the U(1)_Sigma Model, Ernest Ma, Mod. Phys. Lett. A24 (2009) 2491-2495, arXiv:0905.2972.
[Ma:2009kh]
[9-354]
Non-unitary neutrino mixing and CP violation in the minimal inverse seesaw model, Michal Malinsky, Tommy Ohlsson, Zhi-zhong Xing, He Zhang, Phys. Lett. B679 (2009) 242-248, arXiv:0905.2889.
[Malinsky:2009df]
[9-355]
Topological Dark Matter in the Little Higgs Models, Anosh Joseph, S. G. Rajeev, Phys. Rev. D80 (2009) 074009, arXiv:0905.2772.
[Joseph:2009bq]
[9-356]
Scaling in the Neutrino Mass Matrix, $\mu$-$\tau$ Symmetry and the See-Saw Mechanism, Anjan S. Joshipura, Werner Rodejohann, Phys. Lett. B678 (2009) 276-282, arXiv:0905.2126.
[Joshipura:2009fu]
[9-357]
Radiative Inverse Seesaw: Verifiable New Mechanism of Neutrino Mass, Ernest Ma, Phys. Rev. D80 (2009) 013013, arXiv:0904.4450.
[Ma:2009gu]
[9-358]
Deviation from tri-bimaximal mixing and flavor symmetry breaking in a seesaw type A4 model, Atsushi Hayakawa, Hajime Ishimori, Yusuke Shimizu, Morimitsu Tanimoto, Phys. Lett. B680 (2009) 334-342, arXiv:0904.3820.
[Hayakawa:2009va]
[9-359]
The Inverse Seesaw Mechanism in Noncommutative Geometry, Christoph A. Stephan, Phys. Rev. D80 (2009) 065007, arXiv:0904.1188.
[Stephan:2009pn]
[9-360]
$A_4$ See-Saw Models and Form Dominance, Mu-Chun Chen, Stephen F. King, JHEP 06 (2009) 072, arXiv:0903.0125.
[Chen:2009um]
[9-361]
Classically conformal $B^-$ L extended Standard Model, Satoshi Iso, Nobuchika Okada, Yuta Orikasa, Phys. Lett. B676 (2009) 81-87, arXiv:0902.4050.
[Iso:2009ss]
[9-362]
Type II seesaw mechanism for Higgs doublets and the scale of new physics, W. Grimus, L. Lavoura, B. Radovcic, Phys. Lett. B674 (2009) 117-121, arXiv:0902.2325.
[Grimus:2009mm]
[9-363]
Anomaly-free constraints in neutrino seesaw models, D. Emmanuel-Costa, Edison T. Franco, R. Gonzalez Felipe, Phys. Rev. D79 (2009) 115001, arXiv:0902.1722.
[Emmanuel-Costa:2009kit]
[9-364]
Radiative Neutrino Mass in Type III Seesaw Model, Yi Liao, Ji-Yuan Liu, Guo-Zhu Ning, Phys. Rev. D79 (2009) 073003, arXiv:0902.1434.
[Liao:2009nq]
[9-365]
Conformal Neutrinos: an Alternative to the See-saw Mechanism, Gero von Gersdorff, Mariano Quiros, Phys. Lett. B678 (2009) 317-321, arXiv:0901.0006.
[vonGersdorff:2008is]
[9-366]
Hybrid textures in minimal seesaw mass matrices, Srubabati Goswami, Subrata Khan, Atsushi Watanabe, Phys. Lett. B693 (2010) 249-254, arXiv:0811.4744.
[Goswami:2008uv]
[9-367]
Generalized Seesaw Mechanism of Neutrino and Bose-Einstein Condensation in the Modified O'Raifeartaigh Model, Tadafumi Ohsaku, arXiv:0811.0617, 2008.
[Ohsaku:2008qa]
[9-368]
Seesaw Neutrino Mass and New U(1) Gauge Symmetry, Rathin Adhikari, Jens Erler, Ernest Ma, Phys. Lett. B672 (2009) 136-140, arXiv:0810.5547.
[Adhikari:2008uc]
[9-369]
Hidden-Sector Dynamics and the Supersymmetric Seesaw, Bruce. A. Campbell, John Ellis, David. W. Maybury, arXiv:0810.4881, 2008.
[Campbell:2008tu]
[9-370]
Type III Seesaw and Left-Right Symmetry, Pavel Fileviez Perez, JHEP 03 (2009) 142, arXiv:0809.1202.
[FileviezPerez:2008sr]
[9-371]
Light Higgs boson scenario in the SUSY seesaw model, Masaki Asano, Takayuki Kubo, Shigeki Matsumoto, Masato Senami, Phys. Rev. D80 (2009) 095017, arXiv:0807.4922.
[Asano:2008gi]
[9-372]
$\nu$-GMSB with Type III Seesaw and Phenomenology, R. N. Mohapatra, Nobuchika Okada, Hai-Bo Yu, Phys. Rev. D78 (2008) 075011, arXiv:0807.4524.
[Mohapatra:2008wx]
[9-373]
Minimal Seesaw Textures with Two Heavy Neutrinos, Srubabati Goswami, Atsushi Watanabe, Phys. Rev. D79 (2009) 033004, arXiv:0807.3438.
[Goswami:2008rt]
[9-374]
Radiative seesaw in left-right symmetric model, Pei-Hong Gu, Utpal Sarkar, Phys. Rev. D78 (2008) 073012, arXiv:0807.0270.
[Gu:2008zf]
[9-375]
The contribution of fermionic seesaws to the anomalous magnetic moment of leptons, C. Biggio, Phys. Lett. B668 (2008) 378-384, arXiv:0806.2558.
[Biggio:2008in]
[9-376]
Seesaw Extended MSSM and Anomaly Mediation without Tachyonic Sleptons, R. N. Mohapatra, N. Setzer, S. Spinner, JHEP 04 (2008) 091, arXiv:0802.1208.
[Mohapatra:2008gz]
[9-377]
Dynamical Dirac Mass Generation in the Supersymmetric Nambu-Jona-Lasinio Model with the Seesaw Mechanism of Neutrinos, Tadafumi Ohsaku, arXiv:0801.1256, 2008.
[Ohsaku:2008sn]
[9-378]
Updated Values of Running Quark and Lepton Masses, Zhi-zhong Xing, He Zhang, Shun Zhou, Phys. Rev. D77 (2008) 113016, arXiv:0712.1419.
[Xing:2007fb]
[9-379]
Four Zero Neutrino Yukawa Textures in the Minimal Seesaw Framework, Gustavo C. Branco, David Emmanuel-Costa, M. N. Rebelo, Probir Roy, Phys. Rev. D77 (2008) 053011, arXiv:0712.0774.
[Branco:2007nb]
[9-380]
Naturalness and the Neutrino Matrix, J. Sayre, S. Wiesenfeldt, Phys. Rev. D77 (2008) 053005, arXiv:0711.1687.
[Sayre:2007ps]
[9-381]
Minimal Flavor Violation, Seesaw, and R-parity, Emanuel Nikolidakis, Christopher Smith, Phys. Rev. D77 (2008) 015021, arXiv:0710.3129.
[Nikolidakis:2007fc]
[9-382]
Neutrino Mass Matrix from Seesaw Mechanism with Heavy Majorana Neutrino Subject to Texture Zero and Invariant Under a Cyclic Permutation, Asan Damanik, Mirza Satriawan, Pramudita Anggraita, Arief Hermanto, Muslim, J. Theor. Comput. Stud. 8 8 (2008) 0102, arXiv:0710.1742.
[Damanik:2007cs]
[9-383]
A Compromise between Neutrino Masses and Collider Signatures in the Type-II Seesaw Model, Wei Chao, Shu Luo, Zhi-zhong Xing, Shun Zhou, Phys. Rev. D77 (2008) 016001, arXiv:0709.1069.
[Chao:2007mz]
[9-384]
Predictions from type II see-saw mechanism in SU(5), Ilja Dorsner, Irina Mocioiu, Nucl. Phys. B796 (2008) 123-136, arXiv:0708.3332.
[Dorsner:2007fy]
[9-385]
The Seesaw with Many Right-Handed Neutrinos, John Ellis, Oleg Lebedev, Phys. Lett. B653 (2007) 411-418, arXiv:0707.3419.
[Ellis:2007wz]
[9-386]
The Seesaw Mechanism in Quark-Lepton Complementarity, Florian Plentinger, Gerhart Seidl, Walter Winter, Phys. Rev. D76 (2007) 113003, arXiv:0707.2379.
[Plentinger:2007px]
[9-387]
Gluino Axion, Neutrino Seesaw, Dynamical Gaugino Mass, and A = 0 Supersymmetry, Ernest Ma, Mod. Phys. Lett. A22 (2007) 2721-2725, arXiv:0707.1518.
[Ma:2007nd]
[9-388]
Minimal Seesaw as an Ultraviolet Insensitive Cure for the Problems of Anomaly Mediation, R. N. Mohapatra, N. Setzer, S. Spinner, Phys. Rev. D77 (2008) 053013, arXiv:0707.0020.
[Mohapatra:2007xq]
[9-389]
Rephasing Invariants of Quark and Lepton Mixing Matrices, Elizabeth Jenkins, Aneesh V. Manohar, Nucl. Phys. B792 (2008) 187-205, arXiv:0706.4313.
[Jenkins:2007ip]
[9-390]
GeV Seesaw, Accidentally Small Neutrino Masses, and Higgs Decays to Neutrinos, Andre de Gouvea, arXiv:0706.1732, 2007.
[deGouvea:2007uz]
[9-391]
Massive and Massless Neutrinos on Unbalanced Seesaws, Zhi-zhong Xing, Chin. Phys. C32 (2008) 96-99, arXiv:0706.0052.
[Xing:2007uq]
[9-392]
Neutrino Masses and Lepton-flavor-violating \tau Decays in the Supersymmetric Left-right Model, Wei Chao, Chin. Phys. C35 (2011) 214-222, arXiv:0705.4351.
[Chao:2007ye]
[9-393]
Renormalization Group Evolution in the type II seesaw model, Michael Andreas Schmidt, Phys. Rev. D76 (2007) 073010, arXiv:0705.3841.
[Schmidt:2007nq]
[9-394]
Neutrino Mass Matrix from Seesaw Mechanism Subjected to Texture Zero and Invariant Under a Cyclic Permutation, Asan Damanik, Mirza Satriawan, Pramudita Anggraita, Muslim,, arXiv:0705.3290, 2007.
[Damanik:2007yg]
[9-395]
Inflation by a spontaneous parity breaking field and consequences for nu-masses and B-asymmetry, Jinn-Ouk Gong, Narendra Sahu, Phys. Rev. D77 (2008) 023517, arXiv:0705.0068.
[Gong:2007yv]
[9-396]
SUSY-GUTs, SUSY-Seesaw and the Neutralino Dark Matter, L. Calibbi, Y. Mambrini, S. K. Vempati, JHEP 09 (2007) 081, arXiv:0704.3518.
[Calibbi:2007bk]
[9-397]
Natural Realizations of Seesaw in Mini-Warped Minimal SO(10), R. N. Mohapatra, N. Okada, Hai-Bo Yu, Phys. Rev. D76 (2007) 015013, arXiv:0704.3258.
[Mohapatra:2007qf]
[9-398]
Large and Almost Maximal Neutrino Mixing within the Type II See-Saw Mechanism, Manfred Lindner, Werner Rodejohann, JHEP 05 (2007) 089, arXiv:hep-ph/0703171.
[Lindner:2007rs]
[9-399]
Seesaw Neutrinos from the Heterotic String, Wilfried Buchmuller et al., Phys. Rev. Lett. 99 (2007) 021601, arXiv:hep-ph/0703078.
[Buchmuller:2007zd]
[9-400]
A renormalizable SO(10) GUT scenario with spontaneous CP violation, W. Grimus, H. Kuhbock, Eur. Phys. J. C51 (2007) 721-729, arXiv:hep-ph/0612132.
[Grimus:2006rk]
[9-401]
One-loop renormalization group equations of the neutrino mass matrix in the triplet seesaw model, Wei Chao, He Zhang, Phys. Rev. D75 (2007) 033003, arXiv:hep-ph/0611323.
[Chao:2006ye]
[9-402]
Decay of Charged Higgs boson in TeV scale supersymmetric seesaw model, Gi-Chol Cho, Satoru Kaneko, Aya Omote, Phys. Lett. B652 (2007) 325-330, arXiv:hep-ph/0611240.
[Cho:2006sm]
[9-403]
Neutrino Mixings and Leptonic CP Violation from CKM Matrix and Majorana Phases, S. K. Agarwalla, M. K. parida, R. N. Mohapatra, G. rajasekaran, Phys. Rev. D75 (2007) 033007, arXiv:hep-ph/0611225.
[Agarwalla:2006dj]
[9-404]
Invariant see-saw models and sequential dominance, S.F. King, Nucl. Phys. B786 (2007) 52-83, arXiv:hep-ph/0610239.
[King:2006hn]
[9-405]
Spacetime Instanton Corrections in 4D String Vacua - The Seesaw Mechanism for D-Brane Models, Ralph Blumenhagen, Mirjam Cvetic, Timo Weigand, Nucl. Phys. B771 (2007) 113-142, arXiv:hep-th/0609191.
[Blumenhagen:2006xt]
[9-406]
A universal seesaw mechanism in five dimensions, Naoyuki Haba, Phys. Rev. D74 (2006) 113002, arXiv:hep-ph/0608257.
[Haba:2006gd]
[9-407]
Supersymmetric Model of Radiative Seesaw Majorana Neutrino Masses, Ernest Ma, Annales Fond. Broglie 31 (2006) 285, arXiv:hep-ph/0607142.
[Ma:2006uv]
[9-408]
Implications of Fritzsch-like lepton mass matrices, Monika Randhawa, Gulsheen Ahuja, Manmohan Gupta, Phys. Lett. B643 (2013) 175-181, arXiv:hep-ph/0607074.
[Fakay:2013gf]
[9-409]
Quark-Lepton Unification and Eight-Fold Ambiguity in the Left-Right Symmetric Seesaw Mechanism, Pierre Hosteins, Stephane Lavignac, Carlos A. Savoy, Nucl. Phys. B755 (2006) 137-163, arXiv:hep-ph/0606078.
[Hosteins:2006ja]
[9-410]
Implementing Canonical Seesaw Mechanism in a 3-3-1 Gauge Model without Exotic Electric Charges, Adrian Palcu, Mod. Phys. Lett. A21 (2006) 2591-2598, arXiv:hep-ph/0605155.
[Palcu:2006ti]
[9-411]
Gauge and Yukawa mediated supersymmetry breaking in the triplet seesaw scenario, Filipe R. Joaquim, Anna Rossi, Phys. Rev. Lett. 97 (2007) 181801, arXiv:hep-ph/0604083.
[Joaquim:2006rg]
[9-412]
Seesaw scales and the steps from the Standard Model towards superstring-inspired flipped E_6, C.R. Das, L.V. Laperashvili, Int. J. Mod. Phys. A24 (2009) 6011-6033, arXiv:hep-ph/0604052.
[Das:2006ib]
[9-413]
5D seesaw, flavor structure, and mass textures, Naoyuki Haba, JHEP 05 (2006) 030, arXiv:hep-ph/0603119.
[Haba:2006gt]
[9-414]
Verifiable Radiative Seesaw Mechanism of Neutrino Mass and Dark Matter, Ernest Ma, Phys. Rev. D73 (2006) 077301, arXiv:hep-ph/0601225.
[Ma:2006km]
[9-415]
Relation between CKM and MNS matrices induced by Bi-Maximal Rotations in the Seesaw Mechanism, H. Tsujimoto, J. Phys. Soc. Jap. 75 (2006) 054101, arXiv:hep-ph/0601045.
[Tsujimoto:2006mf]
[9-416]
Why is the $3\times 3$ neutrino mixing matrix almost unitary in realistic seesaw models?, Zhi-zhong Xing, Shun Zhou, High Energy Phys. Nucl. Phys. 30 (2006) 828-832, arXiv:hep-ph/0512290.
[Xing:2005kh]
[9-417]
eV Seesaw with Four Generations, Wei-Shu Hou, Andrea Soddu, Phys. Lett. B638 (2006) 229-233, arXiv:hep-ph/0512278.
[Hou:2005fp]
[9-418]
Properties of Fermion Mixings in Intersecting D-brane Models, Bhaskar Dutta, Yukihiro Mimura, Phys. Lett. B633 (2006) 761, arXiv:hep-ph/0512171.
[Dutta:2005bb]
[9-419]
Quantum numbers of heavy neutrinos, tri-bi-maximal mixing through double seesaw with permutation symmetry, and comment on $\theta_{\rm sol}+\theta_c\simeq \frac{\pi}{4}$, Jihn E. Kim, Jong-Chul Park, JHEP 05 (2006) 017, arXiv:hep-ph/0512130.
[Kim:2005kca]
[9-420]
Predicting the Seesaw Scale in a Minimal Bottom-Up Extension of MSSM, R. N. Mohapatra, N. Setzer, S. Spinner, Phys. Rev. D73 (2006) 075001, arXiv:hep-ph/0511260.
[Mohapatra:2005nc]
[9-421]
Possible Deviation from the Tri-bimaximal Neutrino Mixing in a Seesaw Model, Sin Kyu Kang, Zhi-zhong Xing, Shun Zhou, Phys. Rev. D73 (2006) 013001, arXiv:hep-ph/0511157.
[Kang:2005bg]
[9-422]
Autogenous Neutrino Mixing, Ernest Ma, Phys. Rev. D73 (2006) 057304, arXiv:hep-ph/0511133.
[Ma:2005qf]
[9-423]
Calculable lepton masses, seesaw relations and four neutrino mixings in a 3-3-1 model with extra U(1) symmetry, Nelson V. Cortez, Mauro D. Tonasse, Phys. Rev. D72 (2005) 073005, arXiv:hep-ph/0510143.
[Cortez:2005cp]
[9-424]
Duality in Left-Right Symmetric Seesaw Mechanism, E. Kh. Akhmedov, M. Frigerio, Phys. Rev. Lett. 96 (2006) 061802, arXiv:hep-ph/0509299.
[Akhmedov:2005np]
[9-425]
What if $\theta_{13}$ Is Small?, C.S. Lam, Can.J. Phys. 84 (2006) 621, arXiv:hep-ph/0508008.
[Lam:2005df]
[9-426]
Radiative seesaw and degenerate neutrinos, Borut Bajc, Goran Senjanovic, Phys. Rev. Lett. 95 (2005) 261804, arXiv:hep-ph/0507169.
[Bajc:2005aq]
[9-427]
A Prediction from the Type III See-saw Mechanism, S.M. Barr, Ilja Dorsner, Phys. Lett. B632 (2006) 527, arXiv:hep-ph/0507067.
[Barr:2005ss]
[9-428]
Novel Supersymmetric SO(10) Seesaw Mechanism, M. Malinsky, J.C.Romao, J. W. F. Valle, Phys. Rev. Lett. 95 (2005) 161801, arXiv:hep-ph/0506296.
[Malinsky:2005bi]
[9-429]
Running of Low-Energy Neutrino Masses, Mixing Angles and CP Violation, John Ellis et al., Phys. Lett. B631 (2005) 32, arXiv:hep-ph/0506122.
[Ellis:2005dr]
[9-430]
Avoiding the gauge heirarchy problem with see-sawed neutrino masses, R. Foot, Mod. Phys. Lett. A20 (2005) 3035, arXiv:hep-ph/0505154.
[Foot:2005uc]
[9-431]
Screening of Dirac flavor structure in the seesaw and neutrino mixing, Manfred Lindner, Michael A. Schmidt, Alexei Yu. Smirnov, JHEP 0507 (2005) 048, arXiv:hep-ph/0505067.
[Lindner:2005pk]
[9-432]
Seesaw Right Handed Neutrino as the Sterile Neutrino for LSND, R.N. Mohapatra, S. Nasri, Hai-Bo Yu, Phys. Rev. D72 (2005) 033007, arXiv:hep-ph/0505021.
[Mohapatra:2005wk]
[9-433]
Hybrid Seesaw Neutrino Masses with $A_4$ Family Symmetry, Shao-Long Chen, Michele Frigerio, Ernest Ma, Nucl. Phys. B724 (2005) 423, arXiv:hep-ph/0504181.
[Chen:2005jm]
[9-434]
Large neutrino mixing angles for type-I see-saw mechanism in SO(10) GUT, Bipin R. Desai, G. Rajasekaran, U. Sarkar, arXiv:hep-ph/0504066, 2005.
[Desai:2005pj]
[9-435]
Nontrivial Correlation between the CKM and MNS Matrices, Zhi-zhong Xing, Phys. Lett. B618 (2005) 141, arXiv:hep-ph/0503200.
[Xing:2005ur]
[9-436]
Lepton mixing and seesaw mechanism, D. Falcone, Int. J. Mod. Phys. A21 (2006) 3015-3020, arXiv:hep-ph/0503197.
[Falcone:2005un]
[9-437]
Running Neutrino Mass Parameters in See-Saw Scenarios, Stefan Antusch, Joern Kersten, Manfred Lindner, Michael Ratz, Michael Andreas Schmidt, JHEP 0503 (2005) 024, arXiv:hep-ph/0501272.
[Antusch:2005gp]
[9-438]
Neutrino Seesaw Revelation, Ernest Ma, Phys. Rev. D71 (2005) 111301, arXiv:hep-ph/0501056.
[Ma:2005py]
[9-439]
An SO(10) GUT With See-Saw Masses For All Fermions, Bipin R. Desai, G. Rajasekaran, Utpal Sarkar, Phys. Lett. B626 (2005) 167, arXiv:hep-ph/0411099.
[Desai:2004xf]
[9-440]
Seesaw Invariance of Fritzsch-like Neutrino Mass Matrices, Leptogenesis and Lepton Flavor Violation, Zhi-zhong Xing, Shun Zhou, Phys. Lett. B606 (2005) 145, arXiv:hep-ph/0411044.
[Xing:2004hv]
[9-441]
Flavor democracy and type-II seesaw realization of bilarge neutrino mixing, Werner Rodejohann, Zhi-zhong Xing, Phys. Lett. B601 (2004) 176, arXiv:hep-ph/0408195.
[Rodejohann:2004qh]
[9-442]
Seesaw induced electroweak scale, the hierarchy problem and sub-eV neutrino masses, David Atwood, Shaouly Bar-Shalom, Amarjit Soni, Eur. Phys. J. C45 (2006) 219, arXiv:hep-ph/0408191.
[Atwood:2004mj]
[9-443]
Normal vs. Inverted Hierarchy in Type I Seesaw Models, Carl H. Albright, Phys. Lett. B599 (2004) 285, arXiv:hep-ph/0407155.
[Albright:2004kb]
[9-444]
A General Analysis of Corrections to the Standard See-saw Formula in Grand Unified Models, S.M. Barr, Bumseok Kyae, Phys. Rev. D70 (2004) 075005, arXiv:hep-ph/0407154.
[Barr:2004dr]
[9-445]
Neutrino Mixing and Leptogenesis in Type II Seesaw Mechanism, Wan-lei Guo, Phys. Rev. D70 (2004) 053009, arXiv:hep-ph/0406268.
[Guo:2004mp]
[9-446]
Stability of Texture Zeros under Radiative Corrections in See-Saw Models, Claudia Hagedorn, Joern Kersten, Manfred Lindner, Phys. Lett. B597 (2004) 63, arXiv:hep-ph/0406103.
[Hagedorn:2004ba]
[9-447]
Enhanced lepton flavor violation in the supersymmetric inverse seesaw model, F. Deppisch, J.W.F. Valle, Phys. Rev. D72 (2005) 036001, arXiv:hep-ph/0406040.
[Deppisch:2004fa]
[9-448]
Radiative Generation of $\theta_{13}$ with the Seesaw Threshold Effect, Jian-wei Mei, Zhi-zhong Xing, Phys. Rev. D70 (2004) 053002, arXiv:hep-ph/0404081.
[Mei:2004rn]
[9-449]
Large Mixing from Small: Pseudo-Dirac Neutrinos and the Singular Seesaw, G. J. Stephenson, T. Goldman, B. H. J. McKellar, M. Garbutt, Int. J. Mod. Phys. A20 (2005) 6373, arXiv:hep-ph/0404015.
[Stephenson:2004wv]
[9-450]
Trinification with $\sin^2\theta_W^0=3/8$ and seesaw neutrino mass, Jihn E. Kim, Phys. Lett. B591 (2004) 119, arXiv:hep-ph/0403196.
[Kim:2004pe]
[9-451]
From Hierarchical to Partially Degenerate Neutrinos via Type II Upgrade of Type I See-Saw Models, Stefan Antusch, Steve F. King, Nucl. Phys. B705 (2005) 239, arXiv:hep-ph/0402121.
[Antusch:2004xd]
[9-452]
(3+2) Neutrino Scheme From A Singular Double See-Saw Mechanism, K. L. McDonald, B. H. J. McKellar, A. Mastrano, Phys. Rev. D70 (2004) 053012, arXiv:hep-ph/0401241.
[McDonald:2004pa]
[9-453]
Radiative Corrections to Neutrino Mixing and CP Violation in the Minimal Seesaw Model with Leptogenesis, Jian-wei Mei, Zhi-zhong Xing, Phys. Rev. D69 (2004) 073003, arXiv:hep-ph/0312167.
[Mei:2003gn]
[9-454]
Seesaw Mechanism in Warped Geometry, S. J. Huber, Q. Shafi, Phys. Lett. B583 (2004) 293, arXiv:hep-ph/0309252.
[Huber:2003sf]
[9-455]
Neutrino Mass Patterns within the See-saw Model from Multi-localization along Extra Dimensions, J.-M. Frere, G. Moreau, E. Nezri, Phys. Rev. D69 (2004) 033003, arXiv:hep-ph/0309218.
[Frere:2003hn]
[9-456]
A different see-saw formula for neutrino masses, S.M. Barr, Phys. Rev. Lett. 92 (2004) 101601, arXiv:hep-ph/0309152.
[Barr:2003nn]
[9-457]
Lepton Flavour Violation from Yukawa Operators, Supergravity and the See-Saw mechanism, Steve F. King, Iain N. R. Peddie, Nucl. Phys. B678 (2004) 339, arXiv:hep-ph/0307091.
[King:2003kf]
[9-458]
Quark-Lepton Unification and Lepton Flavor Non-Conservation from a TeV-scale Seesaw Neutrino Mass Texture, Will Loinaz et al., Phys. Rev. D68 (2003) 073001, arXiv:hep-ph/0304004.
[Loinaz:2003gc]
[9-459]
Seesaw Neutrino Masses with Large Mixings from Dimensional Deconstruction, K.R.S. Balaji, M. Lindner, G. Seidl, Phys. Rev. Lett. 91 (2003) 161803, arXiv:hep-ph/0303245.
[Balaji:2003st]
[9-460]
Minimal seesaw mechanism, D. Falcone, Phys. Lett. B572 (2003) 50, arXiv:hep-ph/0303074.
[Falcone:2003bg]
[9-461]
Neutrinos with Seesaw Masses and Suppressed Interactions, Sheldon Lee Glashow, arXiv:hep-ph/0301250, 2003.
[Glashow:2003wt]
[9-462]
Lepton Flavor Violation and the Origin of the Seesaw Mechanism, K.S. Babu, B. Dutta, R.N. Mohapatra, Phys. Rev. D67 (2003) 076006, arXiv:hep-ph/0211068.
[Babu:2002tb]
[9-463]
The Effective Lagrangian for the Seesaw Model of Neutrino Mass and Leptogenesis, A. Broncano, M.B. Gavela, E. Jenkins, Phys. Lett. B552 (2003) 177, arXiv:hep-ph/0210271.
[Broncano:2002rw]
[9-464]
Predictions of the most minimal see-saw model, A. Strumia M. Raidal, Phys. Lett. B553 (2003) 72, arXiv:hep-ph/0210021.
[Raidal:2002xf]
[9-465]
A Unified Description of Quark and Lepton Mass Matrices in a Universal Seesaw Model, Hideo F. Yoshio K., Phys. Rev. D66 (2002) 113004, arXiv:hep-ph/0209148.
[Koide:2002nc]
[9-466]
One-loop corrections to the seesaw mechanism in the multi-Higgs-doublet Standard Model, Walter Grimus, Luis Lavoura, Phys. Lett. B546 (2002) 86-95, arXiv:hep-ph/0207229.
[Grimus:2002nk]
[9-467]
Explicit seesaw with nearly bimaximal neutrino mixing and no LSND effect, W. Krolikowski, arXiv:hep-ph/0207086, 2002.
[Krolikowski:2002rd]
[9-468]
Supersymmetric Seesaw without Singlet Neutrinos: Neutrino Masses and Lepton-Flavour Violation, Anna Rossi, Phys. Rev. D66 (2002) 075003, arXiv:hep-ph/0207006.
[Rossi:2002zb]
[9-469]
A new parametrization of the seesaw mechanism and applications in supersymmetric models, J. Ellis, Junji Hisano, Martti Raidal, Yasuhiro Shimizu, Phys. Rev. D66 (2002) 115013, arXiv:hep-ph/0206110.
[Ellis:2002fe]
[9-470]
The Flavour Hierarchy and See-Saw Neutrinos from Bulk Masses in 5d Orbifold GUTs, Arthur Hebecker, John March-Russell, Phys. Lett. B541 (2002) 338-345, arXiv:hep-ph/0205143.
[Hebecker:2002re]
[9-471]
Constructing the large mixing angle MNS matrix in see-saw models with right-handed neutrino dominance, S. F. King, JHEP 09 (2002) 0411, arXiv:hep-ph/0204360.
[King:2002nf]
[9-472]
See-saw realization of the texture zeros in the neutrino mass matrix, Atsushi Kageyama, Satoru Kaneko, Noriyuki Shimoyama, M. Tanimoto, Phys. Lett. B538 (2002) 96-106, arXiv:hep-ph/0204291.
[Kageyama:2002zw]
[9-473]
Soft lepton-flavor violation in a multi-Higgs-doublet seesaw model, Walter Grimus, Luis Lavoura, Phys. Rev. D66 (2002) 014016, arXiv:hep-ph/0204070.
[Grimus:2002ux]
[9-474]
Degenerate and Inverted Hierarchical Models of Majorana Neutrinos from See-saw Mechanism, Mahadev Patgiri N. Nimai Singh, arXiv:hep-ph/0204021, 2002.
[Singh:2002nw]
[9-475]
Neutrino Mass Matrix Running for Non-Degenerate See-Saw Scales, Stefan Antusch, Joern Kersten, Manfred Lindner, Michael Ratz, Phys. Lett. B538 (2002) 87-95, arXiv:hep-ph/0203233.
[Antusch:2002rr]
[9-476]
Large Solar Angle and Seesaw Mechanism: a Bottom-up Perspective, Stephane Lavignac, Isabella Masina, Carlos A. Savoy, Nucl. Phys. B633 (2002) 139-170, arXiv:hep-ph/0202086.
[Lavignac:2002gf]
[9-477]
Seesaw model with softly broken L(e) - L(mu) - L(tau), L. Lavoura, W. Grimus, JHEP 09 (2000) 007, arXiv:hep-ph/0008020.
[Lavoura:2000ci]
[9-478]
Symplectic symmetry of the neutrino mass and the seesaw mechanism, A.B. Balantekin, N. Ozturk, Phys. Rev. D62 (2000) 053002, arXiv:hep-th/0003260.
[Balantekin:2000qt]
[9-479]
Seesaw mechanism and structure of neutrino mass matrix, Evgeny K. Akhmedov, G.C. Branco, M.N. Rebelo, Phys.Lett. B478 (2000) 215-223, arXiv:hep-ph/9911364.
[Akhmedov:1999tm]
[9-480]
Quark mass hierarchy, FCNC and CP violation in a seesaw model, Y. Kiyo, T. Morozumi, P. Parada, M. N. Rebelo, M. Tanimoto, Prog. Theor. Phys. 101 (1999) 671-706, arXiv:hep-ph/9809333.
[Kiyo:1998zm]
[9-481]
Neutrino mixing and seesaw mechanism, M. Jezabek, Y. Sumino, Phys. Lett. B440 (1998) 327-331, arXiv:hep-ph/9807310.
[Jezabek:1998du]
[9-482]
Universal seesaw mass matrix model with three light pseudo-Dirac neutrinos, Yoshio Koide, Hideo Fusaoka, Phys. Rev. D59 (1999) 053004, arXiv:hep-ph/9806516.
[Koide:1998aq]
[9-483]
Pathways to naturally small neutrino masses, Ernest Ma, Phys. Rev. Lett. 81 (1998) 1171-1174, arXiv:hep-ph/9805219.
[Ma:1998dn]
[9-484]
Dynamical left-right symmetry breaking, Evgeny K. Akhmedov, Manfred Lindner, Erhard Schnapka, J. W. F. Valle, Phys. Rev. D 53 (1996) 2752-2780, arXiv:hep-ph/9509255.
[Akhmedov:1995vm]
[9-485]
Pseudo-Dirac neutrinos in seesaw model, Gautam Dutta, Anjan S. Joshipura, Phys. Rev. D51 (1995) 3838-3842, arXiv:hep-ph/9405291.
[Dutta:1994wz]
[9-486]
Renormalization group equations for seesaw neutrino masses, Piotr H. Chankowski, Zbigniew Pluciennik, Phys. Lett. B316 (1993) 312-317, arXiv:hep-ph/9306333.
[Chankowski:1993tx]
[9-487]
Seesaw model predictions for the tau-neutrino mass, Sidney A. Bludman, D. C. Kennedy, P. G. Langacker, Phys. Rev. D45 (1992) 1810-1813.
[Bludman:1991za]
[9-488]
A Predictive ansatz for fermion mass matrices in supersymmetric grand unified theories, Savas Dimopoulos, Lawrence J. Hall, Stuart Raby, Phys. Rev. D45 (1992) 4192-4200.
[Dimopoulos:1991za]
[9-489]
The seesaw mechanism in the presence of a conserved lepton number, G. C. Branco, W. Grimus, L. Lavoura, Nucl. Phys. B312 (1989) 492.
[Branco:1989ex]
[9-490]
Mechanism for understanding small neutrino mass in superstring theories, R. N. Mohapatra, Phys. Rev. Lett. 56 (1986) 561-563.
[Mohapatra:1986aw]
[9-491]
Neutrino mass and baryon-number nonconservation in superstring models, R. N. Mohapatra, J. W. F. Valle, Phys. Rev. D34 (1986) 1642.
[Mohapatra:1986bd]
[9-492]
Proton lifetime and fermion masses in an SO(10) model, G. Lazarides, Q. Shafi, C. Wetterich, Nucl. Phys. B181 (1981) 287.
[Lazarides:1980nt]
[9-493]
Neutrino masses and mixings in gauge models with spontaneous parity violation, Rabindra N. Mohapatra, Goran Senjanovic, Phys. Rev. D23 (1981) 165.
Comment: Type II see-saw in left-right symmetric models (see [Go], [Go]). [C.G.].
[Mohapatra:1981yp]
[9-494]
Neutrino mixing in the minimal SO(10) model, Kazuyuki Kanaya, Prog. Theor. Phys. 64 (1980) 2278.
[Kanaya:1980cw]
[9-495]
Neutrino mass and spontaneous parity nonconservation, Rabindra N. Mohapatra, Goran Senjanovic, Phys. Rev. Lett. 44 (1980) 912.
[Mohapatra:1980ia]
[9-496]
Neutrino masses in the minimal O(10) theory, Edward Witten, Phys. Lett. B91 (1980) 81.
[Witten:1980nr]
[9-497]
$\mu \to e \gamma$ at a rate of one out of 1-billion muon decays?, Peter Minkowski, Phys. Lett. B67 (1977) 421.
From the article: See the selected text.
[Minkowski:1977sc]
[9-498]
Hierarchy of lepton masses in a vector - like theory with Majorana particles, T. P. Cheng, Phys. Rev. D14 (1976) 1367.
[Cheng:1976ii]
[9-499]
Vector - like weak currents, massive neutrinos, and neutrino beam oscillations, Harald Fritzsch, Peter Minkowski, Phys. Lett. B62 (1976) 72.
From the article: See the selected text.
[Fritzsch:1976rz]
[9-500]
Vector - like weak currents and new elementary fermions, H. Fritzsch, Murray Gell-Mann, P. Minkowski, Phys. Lett. B59 (1975) 256.
[Fritzsch:1975sr]

10 - Theory - See-Saw - Talks

[10-1]
A comparative study of type-II, inverse and linear seesaw mechanisms with $ A_{4} $ flavour symmetry, Maibam Ricky Devi, Kalpana Bora, arXiv:2103.10065, 2021. DAE-BRNS HEP Symposium Dec 2020, NISER, Jatni, Odisha, India.
[Devi:2021ujp]
[10-2]
Neutrino masses beyond the minimal seesaw, Ricardo Cepedello, Renato Fonseca, Martin Hirsch, J.Phys.Conf.Ser. 1468 (2020) 012171, arXiv:1911.01125. TAUP-2019.
[Cepedello:2019zqf]
[10-3]
The Neutrino Option, Ilaria Brivio, PoS EPS-HEP2017 (2017) 097, arXiv:1710.01007. EPS-HEP 2017, European Physical Society conference on High Energy Physics, 5-12 July 2017, Venice, Italy.
[Brivio:2017cbg]
[10-4]
Towards a complete $ \Delta(27)\times SO(10) $ SUSY GUT, F. Bjorkeroth, arXiv:1703.04434, 2017. NuPhys2016 (London, 12-14 December 2016).
[Bjorkeroth:2017rct]
[10-5]
Inflation in a modified radiative seesaw model, Shoichi Kashiwase, arXiv:1504.07103, 2015. 2nd Toyama International Workshop on 'Higgs as a Probe of New Physics 2015' (HPNP2015).
[Kashiwase:2015pca]
[10-6]
Relating small neutrino masses and mixing, Soumita Pramanick, Amitava Raychaudhuri, Int. J. Mod. Phys. A30 (2015) 1530036, arXiv:1504.01555. International Conference on Massive Neutrinos, IAS, NTU, Singapore, February 2015.
[Pramanick:2015yea]
[10-7]
Dirac or Inverse Seesaw Neutrino Masses from Gauged B - L Symmetry, Ernest Ma, Rahul Srivastava, Mod. Phys. Lett. A30 (2015) 1530020, arXiv:1504.00111. International Conference on Massive Neutrinos - 2015.
[Ma:2015raa]
[10-8]
Natural seesaw realization at the TeV scale, Emiliano Molinaro, PoS EPS-HEP2013 (2014) 303, arXiv:1312.5076. 2013 European Society Conference on High Energy Physics (EPS-HEP 2013), Stockholm, Sweden, 18-24 July 2013.
[Molinaro:2013asa]
[10-9]
Singlet portal extensions of the standard seesaw models to dark sector with local dark symmetry: An alternative to the new minimal standard model, S. Baek, P. Ko, Wan-Il Park, arXiv:1310.1447, 2013. 9th PATRAS Workshop on Axions, WIMPs and WISPs.
[Baek:2013gza]
[10-10]
Complex Spinors and Unified Theories, Murray Gell-Mann, Pierre Ramond, Richard Slansky, Conf.Proc. C790927 (1979) 315-321, arXiv:1306.4669. In 'Supergravity', p. 315, edited by F. van Nieuwenhuizen and D. Freedman, North Holland, Amsterdam.
[Gell-Mann:1979vob]
[10-11]
Neutrino mass spectrum from the seesaw extension, Darius Jurciukonis, Thomas Gajdosik, Andrius Juodagalvis, Tomas Sabonis, Acta Phys.Polon.Supp. 6 (2013) 675-680, arXiv:1212.6912. 'International Symposium on Multiparticle Dynamics', Kielce, Poland, 16-21 September 2012.
[Jurciukonis:2012ft]
[10-12]
Charged lepton and Neutrino masses from a low energy SU(3) flavour symmetry model, Albino Hernandez-Galeana, Bled Workshops Phys. 13 (2012) 28-46, arXiv:1212.4571. 15th Bled Workshop 'What Comes Beyond the Standard Models', DMFA - ZALOZNISTVO, December 2012.
[Hernandez-Galeana:2012wcc]
[10-13]
Susy Seesaw Inflation and NMSO(10)GUT, Charanjit S. Aulakh, AIP Conf.Proc. 1534 (2012) 192-201, arXiv:1210.2042. CETUP Workshop on Neutrino Physics and Unification, July 19-29,2012, Lead, SD, USA.
[Aulakh:2012ui]
[10-14]
Minimal seesaw models and minimal lepton flavor violation, Audrey Degee, Frascati Phys. Ser. 54 (2012) 31-36, arXiv:1209.2874. 3rd Young Researchers Workshop: 'Physics Challenges in the LHC Era ' Frascati, May 7 and 10, 2012.
[Degee:2012ns]
[10-15]
Symmetries of the Neutrino Interactions, A. B. Balantekin, AIP Conf. Proc. 1488 (2012) 9-16, arXiv:1208.0386. Int. Conf. on 'Beauty in Physics: Theory and Experiment', May 14-18, 2012, Cocoyoc, Mexico.
[Balantekin:2012dh]
[10-16]
Implications of finite one-loop corrections for seesaw neutrino masses, D. Aristizabal Sierra, J. Phys. Conf. Ser. 375 (2012) 042003, arXiv:1112.1871. 12th International Conference on Topics in Astroparticle and Underground Physics (TAUP 2011), Munich, Germany, 5-9 September 2011.
[AristizabalSierra:2011aa]
[10-17]
One-loop finite corrections to seesaw neutrino masses, D. Aristizabal Sierra, PoS EPS-HEP2011 (2011) 435, arXiv:1110.6435. International Europhysics Conference on High Energy Physics, EPS-HEP 2011, Grenoble, France, July 21-27 2011.
[AristizabalSierra:2011gg]
[10-18]
M_h in MSSM with Heavy Majorana Neutrinos, S. Heinemeyer, M.J. Herrero, S. Penaranda, A.M. Rodriguez-Sanchez, arXiv:1107.0241, 2011. Moriond EW 2011.
[Heinemeyer:2011gg]
[10-19]
Neutrino Masses via a Seesaw with Heavy Majorana and Dirac Neutrino Mass Matrices from Discrete Subgroup $Δ(27)$ of $SU(3)$, Asan Damanik, Proceed. 16th Int. Sem. ' QUARKS' 2010' (2010) 2:126-131, arXiv:1011.5903. 16th International Seminar on High Energy Physics 'QUARKS 2010', 6-12 June 2010, Kolomna, Russia.
[Damanik:2010xd]
[10-20]
The seesaw mechanism in the $\mu \nu$SSM, Daniel E. Lopez-Fogliani, arXiv:1004.0884, 2010. BUE, CTP International Conference on Neutrino Physics in the LHC Era, Luxor, Egypt, 15-19 Nov. 2009.
[Lopez-Fogliani:2010rcc]
[10-21]
Role of Higher Fermion Representations in TeV-scale Seesaw, Ivica Picek, Branimir Radovcic, arXiv:1003.5100, 2010. BUE-CTP International Conference on Neutrino Physics in the LHC Era, Luxor, Egipt, November 2009.
[Picek:2010kv]
[10-22]
Reconciling dark matter and neutrino masses in mSUGRA, Chiara Arina, arXiv:0905.2394, 2009. XLIVth Rencontres de Moriond, Electroweak interactions and unified theories.
[Arina:2009mf]
[10-23]
Neutrino Mass Seesaw Version 3: Recent Developments, Ernest Ma, AIP Conf. Proc. 1116 (2009) 239-246, arXiv:0810.5574. XIII Mexican School of Particles and Fields, San Carlos, Sonora, Mexico, Oct 2008.
[Ma:2008uz]
[10-24]
Reconstructing SUSY and R-Neutrino Masses in SO(10), F. Deppisch, A. Freitas, W. Porod, P.M. Zerwas, AIP Conf. Proc. 1078 (2009) 303-305, arXiv:0809.2047. SUSY08.
[Deppisch:2008rp]
[10-25]
Approximately $\mu$-$\tau$ Symmetric Minimal Seesaw Mechanism and Leptonic CP Violation, Teppei Baba, arXiv:0806.4764, 2008. Flavor Physics and CP Violation Conference, Taipei, 2008.
[Baba:2008fm]
[10-26]
MSGUT : the next Avtar, Charanjit S. Aulakh, Conf.Proc. C060726 (2006) 320-323, arXiv:hep-ph/0610097. ICHEP06, Moscow, 26 July - 2 August, 2006.
[Aulakh:2006dh]
[10-27]
'Seesawing' away the hierarchy problem, Shaouly Bar-Shalom, David Atwood, Amarjit Soni, PoS HEP2005 (2006) 358, arXiv:hep-ph/0511281. International Europhysics Conference on High Energy Physics, July 21st - 27th 2005, Lisboa, Portugal.
[Bar-Shalom:2005bpp]
[10-28]
Supersymmetric Grand Unification: the quest for the theory, Alejandra Melfo, Goran Senjanovic, arXiv:hep-ph/0511011, 2005. BW2003 Workshop on Mathematical, Theoretical and Phenomenological Challenges Beyond the Standard Model: Perspectives of Balkans Collaboration, Vrnjacka Banja, Serbia, 29 Aug - 2 Sep 2003.
[Melfo:2003gk]
[10-29]
Running CP-violating Phases of Majorana Neutrinos, Zhi-zhong Xing, PoS HEP2005 (2006) 190, arXiv:hep-ph/0510314. International Europhysics Conference on High Energy Physics, July 21st - 27th 2005, Lisboa, Portugal.
[Xing:2005fy]
[10-30]
See-saw and grand unification, Goran Senjanovic, arXiv:hep-ph/0501244, 2005. SEESAW25: International Conference on the Seesaw Mechanism and the Neutrino Mass, Paris, France, 10-11 June 2004.
[Senjanovic:2005sf]
[10-31]
Seesaw Mechanism and Its Implications, R. N. Mohapatra, arXiv:hep-ph/0412379, 2004. SEESAW25, Paris, June, 2004.
[Mohapatra:2004zh]
[10-32]
The Family Group in Grand Unified Theories, Pierre Ramond, Conf.Proc. C790225 (1979) 265-280, arXiv:hep-ph/9809459. International Symposium on Fundamentals of Quantum Theory and Quantum Field Theory, 25 Feb - 2 Mar 1979, Palm Coast, Florida.
[Ramond:1979py]
[10-33]
The future of elementary particle physics, S. L. Glashow, NATO Adv.Study Inst.Ser.B Phys. 59 (1980) 687. Cargese Summer Inst., Cargese, France, Jul 9-29, 1979.
From the article: See the selected text.
[Glashow:1979nm]
[10-34]
Horizontal symmetry and masses of neutrinos, Tsutomu Yanagida, Conf.Proc. C7902131 (1979) 95-99. Workshop on the Baryon Number of the Universe and Unified Theories, Tsukuba, Japan, 13-14 Feb 1979.
[Yanagida:1979as]

11 - Theory - Effective Lagrangian

[11-1]
Neutrino masses in the Standard Model effective field theory, Mikael Chala, Arsenii Titov, Phys.Rev.D 104 (2021) 035002, arXiv:2104.08248.
[Chala:2021juk]
[11-2]
Planck scale effects in neutrino physics, Eugeni K. Akhmedov, Zurab G. Berezhiani, Goran Senjanovic, Zhi-jian Tao, Phys. Rev. D47 (1993) 3245-3253, arXiv:hep-ph/9208230.
[Akhmedov:1992et]
[11-3]
Planck scale physics and neutrino masses, Eugeni Kh. Akhmedov, Zurab G. Berezhiani, Goran Senjanovic, Phys. Rev. Lett. 69 (1992) 3013-3016, arXiv:hep-ph/9205230.
[Akhmedov:1992hh]
[11-4]
Opportunities for particle physics: solar neutrinos and superstrings, Steven Weinberg, Int. J. Mod. Phys. A2 (1987) 301-317.
[Weinberg:1987nj]
[11-5]
Varieties of baryon and lepton nonconservation, Steven Weinberg, Phys. Rev. D22 (1980) 1694.
[Weinberg:1980bf]
[11-6]
Operator analysis of new physics, H. A. Weldon, A. Zee, Nucl. Phys. B173 (1980) 269.
[Weldon:1980gi]
[11-7]
Baryon and lepton nonconserving processes, S. Weinberg, Phys. Rev. Lett. 43 (1979) 1566-1570.
[Weinberg:1979sa]
[11-8]
Operator Analysis of Nucleon Decay, Frank Wilczek, A. Zee, Phys. Rev. Lett. 43 (1979) 1571-1573.
[Wilczek:1979hc]

12 - Theory - Renormalization

[12-1]
Revisiting Renormalization Group Equations of the SMEFT Dimension-Seven Operators, Di Zhang, JHEP 02 (2024) 133, arXiv:2310.11055.
[Zhang:2023ndw]
[12-2]
Stability of neutrino oscillation parameters at low energy scale with the variations of SUSY breaking scale under Renormalisation Group Equations, Kh. Helensana Devi, K. Sashikanta Sngh, N. Nimai Singh, arXiv:2307.11377, 2023.
[Devi:2023vnt]
[12-3]
Renormalization group effects for a rank degenerate Yukawa matrix and the fate of the massless neutrino, Nicholas J. Benoit, Takuya Morozumi, Yusuke Shimizu, Kenta Takagi, Akihiro Yuu, PTEP 2022 (2022) 113B02, arXiv:2210.00165.
[Benoit:2022ohv]
[12-4]
(Reply to)$^{\textbf{2}}$ 'Comment on 'Flavor invariants and renormalization-group equations in the leptonic sector with massive Majorana neutrinos' ', Jianlong Lu, arXiv:2111.02729, 2021.
[Lu:2021ada]
[12-5]
Reply to 'Comment on 'Flavor invariants and renormalization-group equations in the leptonic sector with massive Majorana neutrinos'', Yilin Wang, Bingrong Yu, Shun Zhou, arXiv:2110.13865, 2021.
[Wang:2021fgd]
[12-6]
Comment on 'Flavor invariants and renormalization-group equations in the leptonic sector with massive Majorana neutrinos', Jianlong Lu, JHEP 02 (2022) 135, arXiv:2110.08210.
[Lu:2021yej]
[12-7]
On the On-Shell Renormalization of Fermion Masses, Fields, and Mixing Matrices at 1-loop, Simonas Drauksas, Eur.Phys.J.Plus 138 (2023) 671, arXiv:2107.09361.
[Drauksas:2021xwz]
[12-8]
Flavor Symmetries in the Yukawa Sector of Non-Supersymmetric SO(10): Numerical Fits Using Renormalization Group Running, Tommy Ohlsson, Marcus Pernow, JHEP 09 (2021) 111, arXiv:2107.08771.
[Ohlsson:2021lro]
[12-9]
Flavor Invariants and Renormalization-group Equations in the Leptonic Sector with Massive Majorana Neutrinos, Yilin Wang, Bingrong Yu, Shun Zhou, JHEP 09 (2021) 053, arXiv:2107.06274.
[Wang:2021wdq]
[12-10]
Anomalous dimensions from gauge couplings in SMEFT with right-handed neutrinos, Alakabha Datta, Jacky Kumar, Hongkai Liu, Danny Marfatia, JHEP 2102 (2021) 015, arXiv:2010.12109.
[Datta:2020ocb]
[12-11]
Integral solutions to the one-loop renormalization-group equations for lepton flavor mixing parameters and the Jarlskog invariant, Di Zhang, Nucl.Phys. B961 (2020) 115260, arXiv:2007.12976.
[Zhang:2020lsd]
[12-12]
Does the Wolfenstein form work for the leptonic mixing matrix?, G. Rajasekaran, arXiv:1907.08380, 2019.
[Rajasekaran:2019uvd]
[12-13]
Analytical solutions to renormalization-group equations of effective neutrino masses and mixing parameters in matter, Xin Wang, Shun Zhou, JHEP 1905 (2019) 035, arXiv:1901.10882.
[Wang:2019yfp]
[12-14]
Leptonic unitarity triangles: RGE running effects and $\mu$-$\tau$ reflection symmetry breaking, Jing-yu Zhu, Phys.Rev. D99 (2019) 033003, arXiv:1810.04426.
[Zhu:2018dvj]
[12-15]
Renormalization of mixing angles, Ansgar Denner, Stefan Dittmaier, Jean-Nicolas Lang, JHEP 1811 (2018) 104, arXiv:1808.03466.
[Denner:2018opp]
[12-16]
Majorana Neutrino Masses in the RGEs for Lepton Flavour Violation, Sacha Davidson, Martin Gorbahn, Matthew Leak, Phys.Rev. D98 (2018) 095014, arXiv:1807.04283.
[Davidson:2018zuo]
[12-17]
Renormalization of the multi-Higgs-doublet Standard Model and one-loop lepton mass corrections, Walter Grimus, Maximilian Loschner, JHEP 1811 (2018) 087, arXiv:1807.00725.
[Grimus:2018rte]
[12-18]
Running of Fermion Observables in Non-Supersymmetric SO(10) Models, Tommy Ohlsson, Marcus Pernow, JHEP 1811 (2018) 028, arXiv:1804.04560.
[Ohlsson:2018qpt]
[12-19]
Naumov- and Toshev-like relations in the renormalization-group evolution of quarks and Dirac neutrinos, Zhi-zhong Xing, Shun Zhou, Chin.Phys. C42 (2018) 103105, arXiv:1804.01925.
[Xing:2018kto]
[12-20]
Renormalization-Group Equations of Neutrino Masses and Flavor Mixing Parameters in Matter, Zhi-zhong Xing, Shun Zhou, Ye-Ling Zhou, JHEP 1805 (2018) 015, arXiv:1802.00990.
[Xing:2018lob]
[12-21]
Renormalisation Group Corrections to Neutrino Mixing Sum Rules, J. Gehrlein, S. T. Petcov, M. Spinrath, A. V. Titov, JHEP 1611 (2016) 146, arXiv:1608.08409.
[Gehrlein:2016fms]
[12-22]
Viability of exact tri-bimaximal, golden-ratio and bimaximal mixing patterns and renormalization-group running effects, Jue Zhang, Shun Zhou, JHEP 09 (2016) 167, arXiv:1606.09591.
[Zhang:2016png]
[12-23]
Radiative Corrections to the Sum Rule of Lepton Flavor Mixing, Jue Zhang, Shun Zhou, JHEP 1608 (2016) 024, arXiv:1604.03039.
[Zhang:2016djh]
[12-24]
Renormalization Group Study of the Minimal Majoronic Dark Radiation and Dark Matter Model, We-Fu Chang, John N. Ng, JCAP 1607 (2016) 027, arXiv:1604.02017.
[Chang:2016pya]
[12-25]
A rephasing invariant study of neutrino mixing, S. H. Chiu, PoS EPS-HEP2015 (2015) 048, arXiv:1512.04203.
[Chiu:2015gvf]
[12-26]
Neutrino Anarchy and Renormalization Group Evolution, Vedran Brdar, Matthias Konig, Joachim Kopp, Phys. Rev. D93 (2016) 093010, arXiv:1511.06371.
[Brdar:2015jwo]
[12-27]
Renormalization of the Neutrino Mass Matrix, S. H. Chiu, T. K. Kuo, Phys.Lett. B760 (2016) 544-551, arXiv:1510.07368.
[Chiu:2015ega]
[12-28]
Running of Radiative Neutrino Masses: The Scotogenic Model - REVISITED, Alexander Merle, Moritz Platscher, JHEP 11 (2015) 148, arXiv:1507.06314.
[Merle:2015ica]
[12-29]
Renormalisation Group Corrections to Neutrino Mass Sum Rules, Julia Gehrlein, Alexander Merle, Martin Spinrath, JHEP 09 (2015) 066, arXiv:1506.06139.
[Gehrlein:2015ena]
[12-30]
Renormalization group invariant of lepton Yukawa couplings, Takanao Tsuyuki, Phys. Rev. D91 (2015) 076004, arXiv:1501.07785.
[Tsuyuki:2015kqa]
[12-31]
$b$-$\tau$ Unification by Neutrinos, Takanao Tsuyuki, PTEP 2015 (2015) 011B01, arXiv:1411.2769.
[Tsuyuki:2014xja]
[12-32]
Effects of intermediate scales on renormalization group running of fermion observables in an SO(10) model, Davide Meloni, Tommy Ohlsson, Stella Riad, JHEP 1412 (2014) 052, arXiv:1409.3730.
[Meloni:2014rga]
[12-33]
Renormalization Group Evolution of Neutrino Parameters in Presence of Seesaw Threshold Effects and Majorana Phases, Shivani Gupta, Sin Kyu Kang, C. S. Kim, Nucl. Phys. B893 (2015) 89-106, arXiv:1406.7476.
[Gupta:2014lwa]
[12-34]
Ultraviolet fixed point and massive composite particles in TeV scales, She-Sheng Xue, Phys.Lett. B737 (2014) 172-177, arXiv:1405.1867.
[Xue:2014opa]
[12-35]
Renormalization Group Evolution of Dimension Six Baryon Number Violating Operators, Rodrigo Alonso, Hsi-Ming Chang, Elizabeth E. Jenkins, Aneesh V. Manohar, Brian Shotwell, Phys.Lett. B734 (2014) 302, arXiv:1405.0486.
[Alonso:2014zka]
[12-36]
Accurate renormalization group analyses in neutrino sector, Naoyuki Haba, Kunio Kaneta, Ryo Takahashi, Yuya Yamaguchi, Nucl. Phys. B885 (2014) 180-195, arXiv:1402.4126.
[Haba:2014uza]
[12-37]
Predictions from High Scale Mixing Unification Hypothesis, Gauhar Abbas, Saurabh Gupta, G. Rajasekaran, Rahul Srivastava, Phys. Rev. D89 (2014) 093009, arXiv:1401.3399.
[Abbas:2014ala]
[12-38]
RGE Effects on neutrino masses in partial split supersymmetry, Fabian Cadiz, Marco Aurelio Diaz, Int.J.Mod.Phys. A29 (2014) 1450158, arXiv:1310.7437.
[Cadiz:2013yja]
[12-39]
Threshold effects and renormalization group evolution of neutrino parameters in TeV scale seesaw models, Srubabati Goswami, Subrata Khan, Sasmita Mishra, Int.J.Mod.Phys. A29 (2014) 1450114, arXiv:1310.1468.
[Goswami:2013lba]
[12-40]
Renormalization group invariants in neutrino sector, Naoyuki Haba, Ryo Takahashi, JHEP 1308 (2013) 123, arXiv:1306.1375.
[Haba:2013kga]
[12-41]
Radiative corrections to the leptonic Dirac CP-violating phase, Tommy Ohlsson, He Zhang, Shun Zhou, Phys. Rev. D87 (2013) 013012, arXiv:1211.3153.
[Ohlsson:2012pg]
[12-42]
The evolution of neutrino masses and mixings in the 5D MSSM, A. S. Cornell, Aldo Deandrea, Lu-Xin Liu, Ahmad Tarhini, Eur. Phys. J. Plus 128 (2013) 6, arXiv:1206.5988.
[Cornell:2012uw]
[12-43]
Running of Radiative Neutrino Masses: The Scotogenic Model, Romain Bouchand, Alexander Merle, JHEP 07 (2012) 084, arXiv:1205.0008.
[Bouchand:2012dx]
[12-44]
Renormalization Group Evolution of the Non-Unitary operator, Subrata Khan, Nucl. Phys. B864 (2012) 38-51, arXiv:1203.5043.
[Khan:2012kc]
[12-45]
Impacts of the observed $\theta_{13}$ on the running behaviors of Dirac and Majorana neutrino mixing angles and CP-violating phases, Shu Luo, Zhi-zhong Xing, Phys. Rev. D86 (2012) 073003, arXiv:1203.3118.
[Luo:2012fm]
[12-46]
Dirac Lepton Angle Matrix v.s. Majorana Lepton Angle Matrix and Their Renormalization Group Running Behaviours, Shu Luo, Phys. Rev. D85 (2012) 013006, arXiv:1109.4260.
[Luo:2011mm]
[12-47]
Radiative corrections and explicit perturbations to the tetra-maximal neutrino mixing with large $\vartheta_{13}$, He Zhang, Shun Zhou, Phys. Lett. B704 (2011) 296-302, arXiv:1107.1097.
[Zhang:2011aw]
[12-48]
Quantum correction to tiny vacuum expectation value in two Higgs doublet model for Dirac neutrino mass, Takuya Morozumi, Hiroyuki Takata, Kotaro Tamai, Phys. Rev. D85 (2012) 055002, arXiv:1107.1026.
[Morozumi:2011zu]
[12-49]
Minimal Lepton Flavor Violation and Renormalization Group Evolution of Lepton Masses and Mixing, Yuval Grossman, Shamayita Ray, JHEP 10 (2011) 019, arXiv:1106.4020.
[Grossman:2011um]
[12-50]
Renormalization Group Running of the Neutrino Mass Operator in Extra Dimensions, Mattias Blennow, Henrik Melbeus, Tommy Ohlsson, He Zhang, JHEP 04 (2011) 052, arXiv:1101.2585.
[Blennow:2011mp]
[12-51]
SUSY Renormalization Group Effects in Ultra High Energy Neutrinos, M. Bustamante, A.M. Gago, J. Jones-Perez, JHEP 05 (2011) 133, arXiv:1012.2728.
[Bustamante:2010bf]
[12-52]
Renormalization Group Running of Lepton Mixing Parameters in See-Saw Models with $S_4$ Flavor Symmetry, Gui-Jun Ding, Dong-Mei Pan, Eur. Phys. J. C71 (2011) 1716, arXiv:1011.5306.
[Ding:2010ew]
[12-53]
Lower Bounds on $U_{e3}$, Shamayita Ray, Werner Rodejohann, Michael A. Schmidt, Phys. Rev. D83 (2011) 033002, arXiv:1010.1206.
[Ray:2010fa]
[12-54]
Threshold effects on renormalization group running of neutrino parameters in the low-scale seesaw model, Johannes Bergstrom, Tommy Ohlsson, He Zhang, Phys. Lett. B698 (2011) 297-305, arXiv:1009.2762.
[Bergstrom:2010id]
[12-55]
Exact One-Loop Evolution Invariants in the Standard Model, P. F. Harrison, R. Krishnan, W. G. Scott, Phys. Rev. D82 (2010) 096004, arXiv:1007.3810.
[Harrison:2010mt]
[12-56]
Renormalization of masses of sterile neutrinos in the [nu]MSM, Ananda Roy, arXiv:1006.4007, 2010.
[Roy:2010xp]
[12-57]
Renormalization group running of neutrino parameters in the inverse seesaw model, Johannes Bergstrom, Michal Malinsky, Tommy Ohlsson, He Zhang, Phys. Rev. D81 (2010) 116006, arXiv:1004.4628.
[Bergstrom:2010qb]
[12-58]
A Renormalisation Group Equation Study of the Scalar Sector of the Minimal B-L Extension of the Standard Model, Lorenzo Basso, Stefano Moretti, Giovanni Marco Pruna, Phys. Rev. D82 (2010) 055018, arXiv:1004.3039.
[Basso:2010jm]
[12-59]
Running effects on neutrino parameters and l_i - > l_j \gamma predictions in the triplet-extended MSSM, F. R. Joaquim, JHEP 06 (2010) 079, arXiv:0912.3427.
[Joaquim:2009vp]
[12-60]
Running Effects on Lepton Mixing Angles in Flavour Models with Type I Seesaw, Y. Lin, L. Merlo, A. Paris, Nucl. Phys. B835 (2010) 238-261, arXiv:0911.3037.
[Lin:2009sq]
[12-61]
On-shell renormalization of the mixing matrices in Majorana neutrino theories, Andrea A. Almasy, Bernd A. Kniehl, Alberto Sirlin, Nucl. Phys. B818 (2009) 115-134, arXiv:0902.3793.
[Almasy:2009kn]
[12-62]
A Novel Formulation of Cabibbo-Kobayashi-Maskawa Matrix Renormalization, Bernd A. Kniehl, Alberto Sirlin, Phys. Lett. B673 (2009) 208-210, arXiv:0901.0114.
[Kniehl:2009kk]
[12-63]
Renormalization group evolution of neutrino masses and mixing in the Type-III seesaw mechanism, Joydeep Chakrabortty, Amol Dighe, Srubabati Goswami, Shamayita Ray, Nucl. Phys. B820 (2009) 116-147, arXiv:0812.2776.
[Chakrabortty:2008zh]
[12-64]
Renormalization group evolution of neutrino mixing parameters near $\theta_{13} = 0$ and models with vanishing $\theta_{13}$ at the high scale, Amol Dighe, Srubabati Goswami, Shamayita Ray, Phys. Rev. D79 (2009) 076006, arXiv:0810.5680.
[Dighe:2008wn]
[12-65]
Quantum corrections to the effective neutrino mass operator in 5D MSSM, Aldo Deandrea, Pierre Hosteins, Micaela Oertel, Julien Welzel, Phys. Rev. D75 (2007) 113005, arXiv:hep-ph/0611172.
[Deandrea:2006mh]
[12-66]
Quark Lepton Complementarity and Renormalization Group Effects, Michael A. Schmidt, Alexei Yu. Smirnov, Phys. Rev. D74 (2006) 113003, arXiv:hep-ph/0607232.
[Schmidt:2006rb]
[12-67]
Renormalization effects on neutrino masses and mixing in a string-inspired $ SU(4) X SU(2)_L X SU(2)_R X U(1)_X $ model, T. Dent, G.K. Leontaris, A. Psallidas, J. Rizos, Phys. Rev. D75 (2007) 065027, arXiv:hep-ph/0603228.
[Dent:2006nm]
[12-68]
A Novel Parametrization of tau-lepton Dominance and Simplified One-loop Renormalization-group Equations of Neutrino Mixing Angles and CP-violating Phases, Zhi-zhong Xing, Phys. Lett. B633 (2006) 550, arXiv:hep-ph/0510312.
[Xing:2005fw]
[12-69]
Renormalization Group Evolution of Dirac Neutrino Masses, Manfred Lindner, Michael Ratz, Michael Andreas Schmidt, JHEP 0509 (2005) 081, arXiv:hep-ph/0506280.
[Lindner:2005as]
[12-70]
Renormalization of the neutrino mass operators in the multi-Higgs-doublet Standard Model, W. Grimus, L. Lavoura, Eur. Phys. J. C39 (2005) 219, arXiv:hep-ph/0409231.
[Grimus:2004yh]
[12-71]
Renormalization of Lepton Mixing for Majorana Neutrinos, A. Broncano, M.B. Gavela, Elizabeth Jenkins, Nucl. Phys. B705 (2005) 269, arXiv:hep-ph/0406019.
[Broncano:2004tz]
[12-72]
The renormalization group effect to the bi-maximal mixing, Takahiro Miura, Tetsuo Shindou, Eiichi Takasugi, Phys. Rev. D68 (2003) 093009, arXiv:hep-ph/0308109.
[Miura:2003if]
[12-73]
Radiative corrections to neutrino mass matrix in the Standard Model and beyond, Michele Frigerio, Alexei Yu. Smirnov, JHEP 0302 (2003) 004, arXiv:hep-ph/0212263.
[Frigerio:2002in]
[12-74]
The LMA Solution from Bimaximal Lepton Mixing at the GUT Scale by Renormalization Group Running, Stefan Antusch, Joern Kersten, Manfred Lindner, Michael Ratz, Phys. Lett. B544 (2002) 1-10, arXiv:hep-ph/0206078.
[Antusch:2002hy]
[12-75]
Renormalization Invariants of the Neutrino Mass Matrix, T. K. Kuo Sanghyeon Chang, Phys. Rev. D66 (2002) 111302, arXiv:hep-ph/0205147.
[Chang:2002yr]
[12-76]
Quantum corrections to neutrino masses and mixing angles, Piotr H. Chankowski, Stefan Pokorski, Int. J. Mod. Phys. A17 (2002) 575-614, arXiv:hep-ph/0110249.
[Chankowski:2001mx]
[12-77]
Neutrino mass operator renormalization revisited, Stefan Antusch, Manuel Drees, Joern Kersten, Manfred Lindner, Michael Ratz, Phys. Lett. B519 (2002) 238-242, arXiv:hep-ph/0108005.
[Chankowski:2001hx]
[12-78]
General RG equations for physical neutrino parameters and their phenomenological implications, J. A. Casas, J. R. Espinosa, A. Ibarra, I. Navarro, Nucl. Phys. B573 (2000) 652-684, arXiv:hep-ph/9910420.
[Casas:1999tg]
[12-79]
Fixed points in the evolution of neutrino mixings, Piotr H. Chankowski, Wojciech Krolikowski, Stefan Pokorski, Phys. Lett. B473 (2000) 109-117, arXiv:hep-ph/9910231.
[Chankowski:1999xc]
[12-80]
Renormalization of the neutrino mass operator, K. S. Babu, C. N. Leung, James T. Pantaleone, Phys. Lett. B319 (1993) 191-198, arXiv:hep-ph/9309223.
[Babu:1993qv]
[12-81]
Aspects of the Grand Unification of Strong, Weak and Electromagnetic Interactions, A. J. Buras, John R. Ellis, M. K. Gaillard, Dimitri V. Nanopoulos, Nucl. Phys. B135 (1978) 66-92.
[Buras:1977yy]
[12-82]
The Price of Natural Flavor Conservation in Neutral Weak Interactions, Michael S. Chanowitz, John R. Ellis, Mary K. Gaillard, Nucl. Phys. B128 (1977) 506.
[Chanowitz:1977ye]
[12-83]
Higgs Phenomena in Asymptotically Free Gauge Theories, T. P. Cheng, E. Eichten, Ling-Fong Li, Phys. Rev. D9 (1974) 2259.
[Cheng:1973nv]
[12-84]
Hierarchy of Interactions in Unified Gauge Theories, H. Georgi, Helen R. Quinn, Steven Weinberg, Phys. Rev. Lett. 33 (1974) 451-454.
[Georgi:1974yf]

13 - Theory - Renormalization - Talks

[13-1]
Predictions From High Scale Mixing Unification Hypothesis, Rahul Srivastava, Pramana 86 (2016) 425-436, arXiv:1503.07964. UNICOS-2014.
[Srivastava:2015tza]
[13-2]
Renormalization of Fermion-Flavour Mixing, Andrea A. Almasy, Conf.Proc. C0908171 (2009) 475-477, arXiv:1001.4672. Lepton-Photon 2009, Hamburg, Germany.
[Almasy:2009lep]
[13-3]
Dark Matter and Lepton Flavour Violation in Yukawa Unification with Massive Neutrinos, E. Carquin, M. E. Gomez, J. Rodriguez-Quintero, S. Lola, P. Naranjo, PoS IDM2008 (2008) 090, arXiv:0903.2034. Identification of dark matter 2008 (idm2008), August 18-22, 2008, Stockholm, Sweden.
[Gomez:2008biy]

14 - Theory - Singlet Majoron Model

[14-1]
Damping rate of neutrinos in the singlet Majoron model, Timo Holopainen, Jukka Maalampi, Jukka Sirkka, Iiro Vilja, Nucl. Phys. B473 (1996) 173-198, arXiv:hep-ph/9509359.
[Holopainen:1995yu]
[14-2]
R-parity breaking phase transition in the SUSY singlet majoron model, Kari Enqvist, Katri Huitu, P. N. Pandita, Phys. Lett. B366 (1996) 181-187, arXiv:hep-ph/9507227.
[Enqvist:1995cw]
[14-3]
The supersymmetric singlet majoron model and the general upper bound on the lightest Higgs boson mass, J. R. Espinosa, Phys. Lett. B353 (1995) 243-256, arXiv:hep-ph/9503255.
[Espinosa:1995mh]
[14-4]
Upper bound on the mass of lightest higgs boson in the supersymmetric singlet majoron model, P. N. Pandita, Mod. Phys. Lett. A10 (1995) 1533-1542, arXiv:hep-ph/9412247.
[Pandita:1994uw]
[14-5]
Vacuum stability in the singlet Majoron model, J. Sirkka, I. Vilja, Phys. Lett. B332 (1994) 141-145, arXiv:hep-ph/9404268.
[Sirkka:1994np]
[14-6]
Neutrinos in the supersymmetric singlet majoron model, Isao Umemura, Katsuji Yamamoto, Nucl. Phys. B423 (1994) 405-436.
[Umemura:1993wc]
[14-7]
Baryogenesis in the singlet majoron model, I. Vilja, Phys. Lett. B324 (1994) 197-200, arXiv:hep-ph/9312283.
[Vilja:1993uw]
[14-8]
Stability of neutrinos in the singlet majoron model, James M. Cline, Kimmo Kainulainen, Sonia Paban, Phys. Lett. B319 (1993) 513-519, arXiv:hep-ph/9309316.
[Cline:1993tw]
[14-9]
Astrophysical and terrestrial constraints on singlet Majoron models, Apostolos Pilaftsis, Phys. Rev. D49 (1994) 2398-2404, arXiv:hep-ph/9308258.
[Pilaftsis:1993af]
[14-10]
Cosmological constraint on the scale of the supersymmetric singlet majoron, R. N. Mohapatra, X. Zhang, Phys. Rev. D49 (1994) 1163-1166, arXiv:hep-ph/9307231.
[Mohapatra:1993fe]
[14-11]
Effect of CP odd Planck scale induced operators on the majoron scale, R. N. Mohapatra, X. Zhang, Phys. Rev. D48 (1993) 2935-2936, arXiv:hep-ph/9305259.
[Mohapatra:1993hz]
[14-12]
The Singlet majoron model with hidden scale invariance, Antonio Riotto, Phys. Rev. D49 (1994) 730-738, arXiv:hep-ph/9301235.
[Riotto:1993zj]
[14-13]
Phase transitions in the singlet majoron model, Kari Enqvist, Kimmo Kainulainen, Iiro Vilja, Nucl. Phys. B403 (1993) 749-769.
[Enqvist:1992va]
[14-14]
Constraints on the electroweak phase transition in the singlet majoron model, Norihiro Sei, Isao Umemura, Katsuji Yamamoto, Phys. Lett. B299 (1993) 286-292.
[Sei:1992jp]
[14-15]
The Supersymmetric singlet majoron, G. F. Giudice, A. Masiero, M. Pietroni, A. Riotto, Nucl. Phys. B396 (1993) 243-260, arXiv:hep-ph/9209296.
[Giudice:1992jg]
[14-16]
Sphalerons in the singlet majoron model, Kari Enqvist, Iiro Vilja, Phys. Lett. B287 (1992) 119-122.
[Enqvist:1992kd]
[14-17]
Massive neutrinos and the weak scale singlet Majoron, G. Jungman, M. A. Luty, Nucl. Phys. B361 (1991) 24-44.
[Jungman:1991sh]
[14-18]
First order phase transition in the singlet Majoron model, Yoshihiro Kondo, Isao Umemura, Katsuji Yamamoto, Phys. Lett. B263 (1991) 93-96.
[Kondo:1991jz]
[14-19]
Are there real Goldstone bosons associated with broken lepton number?, Y. Chikashige, Rabindra N. Mohapatra, R. D. Peccei, Phys. Lett. B98 (1981) 265.
[Chikashige:1981ui]
[14-20]
Spontaneously broken lepton number and cosmological constraints on the neutrino mass spectrum, Y. Chikashige, Rabindra N. Mohapatra, R. D. Peccei, Phys. Rev. Lett. 45 (1980) 1926.
[Chikashige:1980qk]

15 - Theory - Singlet Majoron Model - Talks

[15-1]
Cosmology of the singlet Majoron model, L. J. Hall, E. D. Carlson, Nucl. Phys. Proc. Suppl. 13 (1990) 377-379.
[Hall:1989hk]

16 - Theory - Triplet Majoron Model

[16-1]
X-ray photons from late-decaying majoron dark matter, Federica Bazzocchi, Massimiliano Lattanzi, Signe Riemer-Sorensen, Jose W. F. Valle, JCAP 0808 (2008) 013, arXiv:0805.2372.
[Bazzocchi:2008fh]
[16-2]
Can the Majoron be gauged away?, Luis N. Epelel Huner Fanchiotti, Carlos Garcia Canal, William A. Ponce, arXiv:hep-ph/0701195, 2007.
[Epele:2007js]
[16-3]
Spontaneous breaking of global symmetries and invisible triplet majoron, C. A. de S. Pires, P. S. Rodrigues da Silva, Eur. Phys. J. C36 (2004) 397-403, arXiv:hep-ph/0307253.
[deSPires:2003wwk]
[16-4]
Heavy Higgs effects in the triplet majoron model, F. Liebrand, Phys. Rev. D40 (1989) 1634.
[Liebrand:1989aa]
[16-5]
The hyperchargeless triplet majoron model, A. Santamaria, Phys. Rev. D39 (1989) 2715.
[Santamaria:1988fh]
[16-6]
Implications of the triplet - majoron model for the supernova SN1987A, Y. Aharonov, F. T. Avignone, S. Nussinov, Phys. Rev. D37 (1988) 1360-1367.
[Aharonov:1988ee]
[16-7]
Constraints on triplet Majoron model due to observations of neutrinos from stellar collapse, R. V. Konoplich, M. Yu. Khlopov, Sov. J. Nucl. Phys. 47 (1988) 565-566.
[Konoplich:1988mj]
[16-8]
Some comments on decaying neutrinos and the triplet majoron model, S. Nussinov, Phys. Lett. B185 (1987) 171-176.
[Nussinov:1987pc]
[16-9]
Bounds and prospects for the majoron model of left-handed neutrino masses, Graciela B. Gelmini, Shmuel Nussinov, Marco Roncadelli, Nucl. Phys. B209 (1982) 157.
[Gelmini:1982rr]
[16-10]
Left-handed neutrino mass scale and spontaneously broken lepton number, G. B. Gelmini, M. Roncadelli, Phys. Lett. B99 (1981) 411.
[Gelmini:1980re]

17 - Theory - Majorons

[17-1]
Majorana Neutrinos and Dark Matter from Anomaly Cancellation, Hridoy Debnath, Pavel Fileviez Perez, Kevin Gonzalez-Quesada, arXiv:2403.17144, 2024.
[Debnath:2024vpf]
[17-2]
The Minimal Massive Majoron Seesaw Model, Arturo de Giorgi, Luca Merlo, Xavier Ponce Diaz, Stefano Rigolin, JHEP 03 (2024) 094, arXiv:2312.13417.
[deGiorgi:2023tvn]
[17-3]
The majoron coupling to charged leptons, A. Herrero-Brocal, Avelino Vicente, JHEP 01 (2024) 078, arXiv:2311.10145.
[Herrero-Brocal:2023czw]
[17-4]
Gravitational waves from phase transitions and cosmic strings in neutrino mass models with multiple Majorons, Pasquale Di Bari, Stephen F. King, Moinul Hossain Rahat, arXiv:2306.04680, 2023.
[DiBari:2023mwu]
[17-5]
Supersymmetric Majoron Inflation, Stephen F. King, Patrick Otto Ludl, JHEP 1703 (2017) 174, arXiv:1701.04794.
[King:2017nbl]
[17-6]
The would-be majoron in R-parity-violating supersymmetry, Yuval Grossman, Howard E. Haber, Phys. Rev. D67 (2003) 036002, arXiv:hep-ph/0210273.
[Grossman:2002ry]
[17-7]
Fast Decaying Neutrinos and Observable Flavor Violation in a New Class of Majoron Models, M.C. Gonzalez-Garcia, J.W.F. Valle, Phys.Lett. B216 (1989) 360.
[Gonzalez-Garcia:1988okv]
[17-8]
Neutrino masses in the supersymmetric majoron model, Jose F. Nieves, Phys. Lett. B137 (1984) 67.
[Nieves:1984kn]

18 - Theory - Leptogenesis and Baryogenesis

[18-1]
A common framework for fermion mass hierarchy, leptogenesis and dark matter, Carolina Arbelaez, A. E. Carcamo Hernandez, Claudio Dib, Patricio Escalona Contreras, Vishnudath K. N., Alfonso Zerwekh, arXiv:2404.06577, 2024.
[Arbelaez:2024rbm]
[18-2]
On the Role of Cosmological Gravitational Particle Production in Baryogenesis, Marcos M. Flores, Yuber F. Perez-Gonzalez, arXiv:2404.06530, 2024.
[Flores:2024lzv]
[18-3]
A Scotogenic Model as a Prototype for Leptogenesis with One Single Gauge Singlet, Bjorn Garbrecht, Edward Wang, arXiv:2404.02207, 2024.
[Garbrecht:2024bbo]
[18-4]
Flavored leptogenesis from a sudden mass gain of right-handed neutrinos, Zhen-hua Zhao, Jing Zhang, Xiang-Yi Wu, arXiv:2403.18630, 2024.
[Zhao:2024uid]
[18-5]
Cogenesis of baryon and dark matter with PBH and QCD axion, Debasish Borah, Nayan Das, Suruj Jyoti Das, Rome Samanta, arXiv:2403.02401, 2024.
[Borah:2024qyo]
[18-6]
Neutrino Mixing and Resonant Leptogenesis in Inverse Seesaw and $\Delta(54)$ Flavor Symmetry, Hrishi Bora, Ng. K. Francis, Bikash Thapa, Shawan Kumar Jha, arXiv:2402.18906, 2024.
[Bora:2024dia]
[18-7]
Minimal seesaw and leptogenesis with the smallest modular finite group, Simone Marciano, Davide Meloni, Matteo Parriciatu, arXiv:2402.18547, 2024.
[Marciano:2024quu]
[18-8]
Affleck-Dine Dirac Leptogenesis, Neil D. Barrie, Chengcheng Han, arXiv:2402.15245, 2024.
[Barrie:2024yhj]
[18-9]
Leptogenesis consequences of TM1 mixing and $\mu$-$\tau$ reflection symmetry in minimal seesaw model with pseudo-Dirac right-handed neutrinos, Zhen-hua Zhao, Hong-Yu Shi, Yan Shao, arXiv:2402.14441, 2024.
[Zhao:2024zgx]
[18-10]
Affleck-Dine leptogenesis scenario for resonant production of sterile neutrino dark matter, Kentaro Kasai, Masahiro Kawasaki, Kai Murai, arXiv:2402.11902, 2024.
[Kasai:2024diy]
[18-11]
Right-handed neutrino as a common mother of baryon number asymmetry and dark matter, Daijiro Suematsu, arXiv:2402.10561, 2024.
[Suematsu:2024rtu]
[18-12]
Lepto-axiogenesis with light right-handed neutrinos, Patrick Barnes, Raymond T. Co, Keisuke Harigaya, Aaron Pierce, arXiv:2402.10263, 2024.
[Barnes:2024jap]
[18-13]
Post-inflationary Dark Matter production and Leptogenesis: Metric versus Palatini formalism, Anish Ghoshal, Zygmunt Lalak, Supratik Pal, Shiladitya Porey, arXiv:2401.17262, 2024.
[Ghoshal:2024ycp]
[18-14]
Towards a more complete description of hybrid leptogenesis, Rohan Pramanick, Tirtha Sankar Ray, Arunansu Sil, arXiv:2401.12189, 2024.
[Pramanick:2024gvu]
[18-15]
Triplet scalar flavored leptogenesis with spontaneous CP violation, Sreerupa Chongdar, Sasmita Mishra, JCAP 04 (2024) 054, arXiv:2401.05699.
[Chongdar:2024cty]
[18-16]
Parameter Space of Leptogenesis in Polynomial Inflation, Manuel Drees, Yong Xu, JCAP 04 (2024) 036, arXiv:2401.02485.
[Drees:2024hok]
[18-17]
Thermal leptogenesis in the presence of helical hypermagnetic fields, Sahar Safari, Mehran Dehpour, Saeed Abbaslu, Siamak Sadat Gousheh, arXiv:2401.01105, 2024.
[Safari:2024ojv]
[18-18]
Thermal leptogenesis in nonextensive cosmology, Mehran Dehpour, Eur.Phys.J.C 84 (2024) 340, arXiv:2401.00229.
[Dehpour:2023dfo]
[18-19]
Leptogenesis from a Phase Transition in a Dynamical Vacuum, Dipendu Bhandari, Arghyajit Datta, Arunansu Sil, arXiv:2312.13157, 2023.
[Bhandari:2023wit]
[18-20]
Testing Leptogenesis and Seesaw using Long-lived Particle Searches in the $B-L$ Model, Wei Liu, Frank F. Deppisch, arXiv:2312.11165, 2023.
[Liu:2023klu]
[18-21]
Baryogenesis and Leptogenesis from Supercooled Confinement, Maximilian Dichtl, Jacopo Nava, Silvia Pascoli, Filippo Sala, JHEP 02 (2024) 059, arXiv:2312.09282.
[Dichtl:2023xqd]
[18-22]
Leptogenesis in the minimal flipped $SU(5)$ unification, Renato Fonseca, Michal Malinsky, Vaclav Miratsky, Martin Zdrahal, arXiv:2312.08357, 2023.
[Fonseca:2023per]
[18-23]
Superradiant Leptogenesis, Anish Ghoshal, Yuber F. Perez-Gonzalez, Jessica Turner, JHEP 02 (2024) 113, arXiv:2312.06768.
[Ghoshal:2023fno]
[18-24]
Leptogenesis with a Coupling Knob, Peisi Huang, Tao Xu, arXiv:2312.06380, 2023.
[Huang:2023gse]
[18-25]
Resonant leptogenesis in minimal inverse seesaw ISS(2,2) model, Bikash Thapa, Ng. K. Francis, arXiv:2312.04399, 2023.
[Thapa:2023brk]
[18-26]
Type-II Seesaw Leptogenesis along the Ridge, Chengcheng Han, Zhanhong Lei, Jin Min Yang, arXiv:2312.01718, 2023.
[Han:2023kjg]
[18-27]
$M_{W_R}$ dependence of leptogenesis in Minimal Left-Right Symmetric Model with different strengths of Type-II seesaw mass, Ankita Kakoti, Mrinal Kumar Das, JHEP 03 (2024) 132, arXiv:2312.00822.
[Kakoti:2023xkn]
[18-28]
Second leptogenesis: Unraveling the baryon-lepton asymmetry discrepancy, YeolLin ChoeJo, Kazuki Enomoto, Yechan Kim, Hye-Sung Lee, JHEP 03 (2024) 003, arXiv:2311.16672.
[ChoeJo:2023cnx]
[18-29]
Impact of primordial black holes on heavy neutral leptons searches in the framework of resonant leptogenesis, Roberta Calabrese, Marco Chianese, Jacob Gunn, Gennaro Miele, Stefano Morisi, Ninetta Saviano, arXiv:2311.13276, 2023.
[Calabrese:2023bxz]
[18-30]
Leptogenesis and dark matter in minimal inverse seesaw using $A_4$ modular symmetry, Jotin Gogoi, Lavina Sarma, Mrinal Kumar Das, arXiv:2311.09883, 2023.
[Gogoi:2023jzl]
[18-31]
Leptogenesis driven by majoron, Eung Jin Chun, Tae Hyun Jung, arXiv:2311.09005, 2023.
[Chun:2023eqc]
[18-32]
Baryogenesis through Asymmetric Reheating in the Mirror Twin Higgs, Gonzalo Alonso-Alvarez, David Curtin, Andrija Rasovic, Zhihan Yuan, arXiv:2311.06341, 2023.
[Alonso-Alvarez:2023bat]
[18-33]
Softly Broken Hidden Symmetry in Every Renormalizable Field Theory, Ernest Ma, arXiv:2311.05859, 2023.
[Ma:2023yxq]
[18-34]
Towards a systematic study of non-thermal leptogenesis from inflaton decays, Xinyi Zhang, arXiv:2311.05824, 2023.
[Zhang:2023oyo]
[18-35]
Wash-in leptogenesis after the evaporation of primordial black holes, Kai Schmitz, Xun-Jie Xu, Phys.Lett.B 849 (2024) 138473, arXiv:2311.01089.
[Schmitz:2023pfy]
[18-36]
Clockwork Neutrinogenesis: Baryogenesis from theory space, Suvam Maharana, Tripurari Srivastava, arXiv:2310.09640, 2023.
[Maharana:2023wyq]
[18-37]
Leptogenesis in Left-Right symmetric model with double seesaw, Utkarsh Patel, Pratik Adarsh, Sudhanwa Patra, Purushottam Sahu, JHEP 03 (2024) 029, arXiv:2310.09337.
[Patel:2023voj]
[18-38]
Varying Entropy Degrees of Freedom Effects in Low-Scale Leptogenesis, Dimitrios Karamitros, Thomas McKelvey, Apostolos Pilaftsis, Phys.Rev.D 109 (2024) 055007, arXiv:2310.03703.
[Karamitros:2023tqr]
[18-39]
Non-thermal WIMPy Baryogenesis with Primordial Black Hole, Ki-Young Choi, Jongkuk Kim, Erdenebulgan Lkhagvadorj, JCAP 02 (2024) 020, arXiv:2309.16122.
[Choi:2023kxo]
[18-40]
Common origin of dark matter, baryon asymmetry and neutrino masses in the standard model with extended scalars, Sin Kyu Kang, Raymundo Ramos, arXiv:2309.08277, 2023.
[Kang:2023iur]
[18-41]
Early Universe hypercharge breaking and neutrino mass generation, Sergio Lopez-Zurdo, Alvaro Lozano-Onrubia, Luca Merlo, Jose Miguel No, arXiv:2308.09206, 2023.
[Lopez-Zurdo:2023xmr]
[18-42]
Fermion mass, Axion dark matter, and Leptogenesis in SO(10) GUT, Ajay Kaladharan, Shaikh Saad, Phys.Rev.D 109 (2024) 055010, arXiv:2308.04497.
[Kaladharan:2023zbr]
[18-43]
Leptogenesis in Parity Solutions to the Strong CP Problem and Standard Model Parameters, Juanca Carrasco-Martinez, David I. Dunsky, Lawrence J. Hall, Keisuke Harigaya, arXiv:2307.15731, 2023.
[Carrasco-Martinez:2023nit]
[18-44]
Rescuing leptogenesis parameter space of inverse seesaw, Ananya Mukherjee, Abhijit Kumar Saha, Phys.Lett.B 849 (2024) 138474, arXiv:2307.14405.
[Mukherjee:2023nyi]
[18-45]
Low-Scale Leptogenesis with Low-Energy Dirac CP-Violation, Alessandro Granelli, Silvia Pascoli, Serguey T. Petcov, Phys.Rev.D 108 (2023) L101302, arXiv:2307.07476.
[Granelli:2023tcj]
[18-46]
Inflationary gravitational waves, pulsar timing data and low-scale-leptogenesis, Satyabrata Datta, Phys.Rev.D 108 (2023), arXiv:2307.00646.
[Datta:2023vbs]
[18-47]
Baryogenesis via flavoured leptogenesis in a minimal type-II seesaw model, Sreerupa Chongdar, Sasmita Mishra, arXiv:2306.15229, 2023.
[Chongdar:2023gnu]
[18-48]
Dirac leptogenesis via scatterings, Julian Heeck, Jan Heisig, Anil Thapa, Phys.Rev.D 108 (2023) L031703, arXiv:2306.13707.
[Heeck:2023rrz]
[18-49]
Baryon asymmetry from dark matter decay in the vicinity of a phase transition, Debasish Borah, Arnab Dasgupta, Matthew Knauss, Indrajit Saha, Phys.Rev.D 108 (2023) L091701, arXiv:2306.05459.
[Borah:2023god]
[18-50]
Thermal Leptogenesis in the Minimal Gauged $U(1)_{L_\mu-L_\tau}$ Model, Alessandro Granelli, Koichi Hamaguchi, Natsumi Nagata, Maura E. Ramirez-Quezada, Juntaro Wada, JHEP 09 (2023) 079, arXiv:2305.18100.
[Granelli:2023egb]
[18-51]
Dirac-Majorana neutrino type conversion induced by an oscillating scalar dark matter, YeolLin ChoeJo, Yechan Kim, Hye-Sung Lee, Phys.Rev.D 108 (2023) 095028, arXiv:2305.16900.
[ChoeJo:2023ffp]
[18-52]
Predicting the baryon asymmetry with degenerate right-handed neutrinos, S. Sandner, P. Hernandez, J. Lopez-Pavon, N. Rius, JHEP 11 (2023) 153, arXiv:2305.14427.
[Sandner:2023tcg]
[18-53]
Reheating process in the $R^2$ inflationary model with the baryogenesis scenario, Hyun Jeong, Kohei Kamada, Alexei A. Starobinsky, Jun'ichi Yokoyama, JCAP 11 (2023) 023, arXiv:2305.14273.
[Jeong:2023zrv]
[18-54]
Limits on light primordial black holes from high-scale leptogenesis, Roberta Calabrese, Marco Chianese, Jacob Gunn, Gennaro Miele, Stefano Morisi, Ninetta Saviano, Phys.Rev.D 107 (2023) 123537, arXiv:2305.13369.
[Calabrese:2023key]
[18-55]
Baryon asymmetry from dark matter decay, Debasish Borah, Suruj Jyoti Das, Rishav Roshan, Phys.Rev.D 108 (2023) 075025, arXiv:2305.13367.
[Borah:2023qag]
[18-56]
Bubble-assisted Leptogenesis, Eung Jin Chun, Tomasz P. Dutka, Tae Hyun Jung, Xander Nagels, Miguel Vanvlasselaer, JHEP 09 (2023) 164, arXiv:2305.10759.
[Chun:2023ezg]
[18-57]
A short survey of matter-antimatter evolution in the primordial universe, Johann Rafelski, Jeremiah Birrell, Andrew Steinmetz, Cheng Tao Yang, Universe 9 (2023) 309, arXiv:2305.09055.
[Rafelski:2023emw]
[18-58]
Linking Resonant leptogenesis with dynamics of the inverse seesaw theory with $ A_{4} $ flavor symmetry, Maibam Ricky Devi, Kalpana Bora, arXiv:2304.13546, 2023.
[RickyDevi:2023fqd]
[18-59]
Novel aspects of Dirac leptogenesis, Julian Heeck, Jan Heisig, Anil Thapa, Phys.Rev.D 108 (2023) 035014, arXiv:2304.09893.
[Heeck:2023soj]
[18-60]
Leptogenesis and Dark Matter-Nucleon Scattering Cross Section in the SE6SSM, Roman Nevzorov, Universe 9 (2023) 3, arXiv:2304.04629.
[Nevzorov:2023scg]
[18-61]
Primordial Black Hole Leptogenesis in Supersymmetry, Suhail Khan, Rathin Adhikari, arXiv:2304.02604, 2023.
[Khan:2023myt]
[18-62]
Testing the type II seesaw leptogenesis at the LHC, Chengcheng Han, Zhanhong Lei, Weihao Liao, Chin.Phys.C 47 (2023) 093104, arXiv:2303.15709.
[Han:2023vme]
[18-63]
Leptogenesis and Neutrinoless Double Beta Decay in the Scotogenic Hybrid Textures of Neutrino Mass Matrix, Ankush, Rishu Verma, Sahil Kumar, B. C. Chauhan, JCAP 08 (2023) 062, arXiv:2303.11149.
[Ankush:2023pax]
[18-64]
Muon $g-2$ and non-thermal leptogenesis in $U(1)_{L_{\mu}-L_{\tau}}$ model, Shintaro Eijima, Masahiro Ibe, Kai Murai, JHEP 05 (2023) 010, arXiv:2303.09751.
[Eijima:2023yiw]
[18-65]
Supersymmetric Baryogenesis in a Hybrid Inflation Model, Yoshihiro Gunji, Koji Ishiwata, Takahiro Yoshida, JHEP 08 (2023) 201, arXiv:2303.05663.
[Gunji:2023xme]
[18-66]
Neutrino Mixing with non-zero $\theta _{13}$ and Unflavored Leptogenesis from a Dihedral Flavor Symmetry, M. Miskaoui, arXiv:2303.02769, 2023.
[Miskaoui:2023tcq]
[18-67]
Gauged $U(1)_X$ breaking as origin of neutrino masses, dark matter and leptogenesis at TeV scale, Toshinori Matsui, Takaaki Nomura, Kei Yagyu, Phys.Rev.D 108 (2023) L011301, arXiv:2303.00417.
[Matsui:2023bwa]
[18-68]
Leptogenesis and muon $\boldsymbol{(g-2)}$ in a scotogenic model, A. Alvarez, A. Banik, R. Cepedello, B. Herrmann, W. Porod, M. Sarazin, M. Schnelke, JHEP 06 (2023) 163, arXiv:2301.08485.
[Alvarez:2023dzz]
[18-69]
ULYSSES, Universal LeptogeneSiS Equation Solver: version 2, Alessandro Granelli, Christopher Leslie, Yuber F. Perez-Gonzalez, Holger Schulz, Brian Shuve, Jessica Turner, Rosie Walker, Comput.Phys.Commun. 291 (2023) 108834, arXiv:2301.05722.
[Granelli:2023vcm]
[18-70]
Impact of high-scale Seesaw and Leptogenesis on inflationary tensor perturbations as detectable gravitational waves, Maximilian Berbig, Anish Ghoshal, JHEP 05 (2023) 172, arXiv:2301.05672.
[Berbig:2023yyy]
[18-71]
Electroweak baryogenesis in the three-loop neutrino mass model with dark matter, Mayumi Aoki, Kazuki Enomoto, Shinya Kanemura, Phys.Rev.D 107 (2023) 115022, arXiv:2212.14786.
[Aoki:2022bkg]
[18-72]
Leptogenesis via Inflaton Mass Terms in Non-Minimally Coupled Inflation, Kit Lloyd-Stubbs, John McDonald, Phys.Rev.D 107 (2023) 103511, arXiv:2212.09454.
[Lloyd-Stubbs:2022wmh]
[18-73]
On different approaches to freeze-in and freeze-out leptogenesis with quasi-degenerate neutrinos, J. Racker, Eur.Phys.J.C 83 (2023) 170, arXiv:2212.05349.
[Racker:2022ibr]
[18-74]
Minimal Leptogenesis in Brane-inspired Cosmology, Alessandro Di Marco, Amit Dutta Banik, Anish Ghoshal, Gianfranco Pradisi, Phys.Rev.D 107 (2023) 103509, arXiv:2211.11361.
[DiMarco:2022doy]
[18-75]
Bremsstrahlung High-frequency Gravitational Wave Signatures of High-scale Non-thermal Leptogenesis, Anish Ghoshal, Rome Samanta, Graham White, Phys.Rev.D 108 (2023) 035019, arXiv:2211.10433.
[Ghoshal:2022kqp]
[18-76]
Low-scale leptogenesis and dark matter in a three-loop radiative seesaw model, Osamu Seto, Tetsuo Shindou, Takanao Tsuyuki, Phys.Rev.D 108 (2023) 055002, arXiv:2211.10059.
[Seto:2022tow]
[18-77]
PeV-scale leptogenesis, gravity waves and black holes from a SUSY-breaking phase transition, James M. Cline, Benoit Laurent, Stuart Raby, Jean-Samuel Roux, Phys.Rev.D 107 (2023) 095011, arXiv:2211.00422.
[Cline:2022xhx]
[18-78]
Scalar-singlet assisted leptogenesis with CP violation from the vacuum, D. M. Barreiros, H. B. Camara, R. G. Felipe, F. R. Joaquim, JHEP 01 (2023) 010, arXiv:2211.00042.
[Barreiros:2022fpi]
[18-79]
CMB footprints of high scale non-thermal leptogenesis, Anish Ghoshal, Dibyendu Nanda, Abhijit Kumar Saha, Phys.Lett.B 849 (2024) 138484, arXiv:2210.14176.
[Ghoshal:2022fud]
[18-80]
Wash-in leptogenesis after axion inflation, Valerie Domcke, Kohei Kamada, Kyohei Mukaida, Kai Schmitz, Masaki Yamada, JHEP 01 (2023) 053, arXiv:2210.06412.
[Domcke:2022kfs]
[18-81]
Gravity as a Portal to Reheating, Leptogenesis and Dark Matter, Basabendu Barman, Simon Clery, Raymond T. Co, Yann Mambrini, Keith A. Olive, JHEP 12 (2022) 072, arXiv:2210.05716.
[Barman:2022qgt]
[18-82]
Lepton Flavour Violation Tests of Type II Seesaw Leptogenesis, N. D. Barrie, S. T. Petcov, JHEP 01 (2023) 001, arXiv:2210.02110.
[Barrie:2022ake]
[18-83]
Leptogenesis from composite singlets, Nobuki Yoshimatsu, arXiv:2209.08386, 2022.
[Yoshimatsu:2022yuw]
[18-84]
Connecting low-energy CP violation, resonant leptogenesis and neutrinoless double beta decay in a radiative seesaw model, Bikash Thapa, Ng. K. Francis, Nucl.Phys.B 986 (2023) 116054, arXiv:2209.06263.
[Thapa:2022fhv]
[18-85]
A Predictive and Testable Unified Theory of Fermion Masses, Mixing and Leptogenesis, Bowen Fu, Stephen F. King, Luca Marsili, Silvia Pascoli, Jessica Turner, Ye-Ling Zhou, JHEP 11 (2022) 072, arXiv:2209.00021.
[Fu:2022lrn]
[18-86]
Interplay between dark matter and leptogenesis in a common framework, XinXin Qi, Hao Sun, JHEP 09 (2023) 118, arXiv:2208.13345.
[Qi:2022fzs]
[18-87]
Low-scale Fermion Triplet Leptogenesis, Drona Vatsyayan, Srubabati Goswami, Phys.Rev.D 107 (2023) 035014, arXiv:2208.12011.
[Vatsyayan:2022rth]
[18-88]
Observable r, Gravitino Dark Matter, and Non-thermal Leptogenesis in No-Scale Supergravity, Waqas Ahmed, Muhammad Moosa, Shoaib Munir, Umer Zubair, JHEP 05 (2023) 011, arXiv:2208.11888.
[Ahmed:2022wed]
[18-89]
Vacuum stability of the type II seesaw leptogenesis from inflation, Chengcheng Han, Sihui Huang, Zhanhong Lei, Binglong Zhang, Phys.Rev.D 107 (2023) 015021, arXiv:2208.11336.
[Han:2022ssz]
[18-90]
WIMPy Leptogenesis in Non-Standard Cosmologies, Devabrat Mahanta, Debasish Borah, JCAP 03 (2023) 049, arXiv:2208.11295.
[Mahanta:2022gsi]
[18-91]
Gravitational Waves-Tomography of Low-Scale-Leptogenesis, Satyabrata Datta, Rome Samanta, JHEP 11 (2022) 159, arXiv:2208.09949.
[Datta:2022tab]
[18-92]
Sneutrinos as two inflatons and curvaton and leptogenesis, Tomo Takahashi, Toshifumi Yamada, Shuichiro Yokoyama, JCAP 11 (2022) 021, arXiv:2208.08296.
[Takahashi:2022bqc]
[18-93]
Lepto-axiogenesis and the scale of supersymmetry, Patrick Barnes, Raymond T. Co, Keisuke Harigaya, Aaron Pierce, JHEP 05 (2023) 114, arXiv:2208.07878.
[Barnes:2022ren]
[18-94]
Leptogenesis and Dark Matter Through Relativistic Bubble Walls with Observable Gravitational Waves, Debasish Borah, Arnab Dasgupta, Indrajit Saha, JHEP 11 (2022) 136, arXiv:2207.14226.
[Borah:2022cdx]
[18-95]
Affleck-Dine Leptogenesis with One Loop Neutrino Mass and strong CP, Rabindra N. Mohapatra, Nobuchika Okada, Phys.Rev.D 106 (2022) 115014, arXiv:2207.10619.
[Mohapatra:2022tgb]
[18-96]
Bounds on right-handed neutrino parameters from observable leptogenesis, Pilar Hernandez, Jacobo Lopez-Pavon, Nuria Rius, Stefan Sandner, JHEP 12 (2022) 012, arXiv:2207.01651.
[Hernandez:2022ivz]
[18-97]
Origin of Neutrino Mass, Dark Matter, Leptogenesis and Inflation in Seesaw Model with Triplets, Pritam Das, Najimuddin Khan, Phys.Rev.D 107 (2023) 075008, arXiv:2207.01238.
[Das:2022qyc]
[18-98]
Large Neutrino Asymmetry from TeV Scale Leptogenesis in the Light of Helium Anomaly, Debasish Borah, Arnab Dasgupta, Phys.Rev.D 108 (2023) 035015, arXiv:2206.14722.
[Borah:2022uos]
[18-99]
Leptogenesis in $SO(10)$ Models with $A_4$ Modular Symmetry, Gui-Jun Ding, Stephen F. King, Jun-Nan Lu, Bu-Yao Qu, JHEP 10 (2022) 071, arXiv:2206.14675.
[Ding:2022bzs]
[18-100]
Effects of Reheating on Charged Lepton Yukawa Equilibration and Leptogenesis, Arghyajit Datta, Rishav Roshan, Arunansu Sil, Phys.Rev.Lett. 132 (2024) 061802, arXiv:2206.10650.
[Datta:2022jic]
[18-101]
Tri-Resonant Leptogenesis in a Seesaw Extension of the Standard Model, P. Candia da Silva, D. Karamitros, T. McKelvey, A. Pilaftsis, JHEP 11 (2022) 065, arXiv:2206.08352.
[daSilva:2022mrx]
[18-102]
Searches for heavy neutrinos at multi-TeV muon collider: a resonant leptogenesis perspective, Indrani Chakraborty, Himadri Roy, Tripurari Srivastava, Eur.Phys.J.C 83 (2023) 280, arXiv:2206.07037.
[Chakraborty:2022pcc]
[18-103]
Gravitational Wave Pathway to Testable Leptogenesis, Arnab Dasgupta, P.S. Bhupal Dev, Anish Ghoshal, Anupam Mazumdar, Phys.Rev.D 106 (2022) 075027, arXiv:2206.07032.
[Dasgupta:2022isg]
[18-104]
Anomalies, CPT and Leptogenesis, Sarben Sarkar, PoS DISCRETE2020-2021 (2022) 039, arXiv:2206.05203.
[Sarkar:2022odh]
[18-105]
Leptogenesis triggered by a first-order phase transition, Peisi Huang, Ke-Pan Xie, JHEP 09 (2022) 052, arXiv:2206.04691.
[Huang:2022vkf]
[18-106]
Tests of Low-Scale Leptogenesis in Charged Lepton Flavour Violation Experiments, A. Granelli, J. Klaric, S. T. Petcov, Phys.Lett.B 837 (2023) 137643, arXiv:2206.04342.
[Granelli:2022eru]
[18-107]
Natural mass hierarchy among three heavy Majorana neutrinos for resonant leptogenesis under modular $A_4$ symmetry, Dong Woo Kang, Jongkuk Kim, Takaaki Nomura, Hiroshi Okada, JHEP 07 (2022) 050, arXiv:2205.08269.
[Kang:2022psa]
[18-108]
Dirac dark matter, neutrino masses, and dark baryogenesis, Diego Restrepo, Andres Rivera, Walter Tangarife, Phys.Rev.D 106 (2022) 055021, arXiv:2205.05762.
[Restrepo:2022cpq]
[18-109]
Probing High Scale Dirac Leptogenesis via Gravitational Waves from Domain Walls, Basabendu Barman, Debasish Borah, Arnab Dasgupta, Anish Ghoshal, Phys.Rev.D 106 (2022) 015007, arXiv:2205.03422.
[Barman:2022yos]
[18-110]
Neutrino Mixing and Leptogenesis in a $L_e-L_\mu-L_\tau$ model, Giorgio Arcadi, Simone Marciano, Davide Meloni, Eur.Phys.J.C 83 (2023) 137, arXiv:2205.02565.
[Arcadi:2022ojj]
[18-111]
Inflationary Gravitational Leptogenesis, Raymond T. Co, Yann Mambrini, Keith A. Olive, Phys.Rev.D 106 (2022) 075006, arXiv:2205.01689.
[Co:2022bgh]
[18-112]
Comment on 'Flavored leptogenesis and neutrino mass with $A_4$ symmetry' [JHEP12(2021)051, arXiv:2106.06773], V. V. Vien, arXiv:2204.13935, 2022.
[2204.13935]
[18-113]
Flavor symmetric origin of texture zeros in minimal inverse seesaw and impacts on leptogenesis, Nayana Gautam, Mrinal Kumar Das, arXiv:2204.11450, 2022.
[Gautam:2022jrg]
[18-114]
Cogenesis of Baryon Asymmetry and Gravitational Dark Matter from PBH, Basabendu Barman, Debasish Borah, Suruj Jyoti Das, Rishav Roshan, JCAP 08 (2022) 068, arXiv:2204.10339.
[Barman:2022gjo]
[18-115]
Retrieving Inverse Seesaw parameter space for Dirac Phase Leptogenesis, Ananya Mukherjee, Nimmala Narendra, arXiv:2204.08820, 2022.
[Mukherjee:2022fjm]
[18-116]
Type II Seesaw Leptogenesis, Neil D. Barrie, Chengcheng Han, Hitoshi Murayama, JHEP 05 (2022) 160, arXiv:2204.08202.
[Barrie:2022cub]
[18-117]
Archimedean Lever Leptogenesis, Djuna Croon, Hooman Davoudiasl, Rachel Houtz, Phys.Rev.D 106 (2022) 035006, arXiv:2204.07584.
[Croon:2022gwq]
[18-118]
Leptogenesis and light scalar dark matter in a $L_\mu-L_\tau$ model, XinXin Qi, Wei Liu, Hao Sun, arXiv:2204.01086, 2022.
[Qi:2022kgs]
[18-119]
Rescuing High-Scale Leptogenesis using Primordial Black Holes, Nicolas Bernal, Chee Sheng Fong, Yuber F. Perez-Gonzalez, Jessica Turner, Phys.Rev.D 106 (2022) 035019, arXiv:2203.08823.
[Bernal:2022pue]
[18-120]
Low-scale leptogenesis with flavour and CP symmetries, Marco Drewes, Yannis Georis, Claudia Hagedorn, Juraj Klaric, JHEP 12 (2022) 044, arXiv:2203.08538.
[Drewes:2022kap]
[18-121]
Sterile neutrino rates for general $M$, $T$, $\mu$, $k$: review of a theoretical framework, M. Laine, Annals Phys. 444 (2022) 169022, arXiv:2203.05772.
[Laine:2022pgk]
[18-122]
Constraining the Cosmic Strings Gravitational Wave Spectra in No Scale Inflation with Viable Gravitino Dark matter and Non Thermal Leptogenesis, Waqas Ahmed, M. Junaid, Salah Nasri, Umer Zubair, Phys.Rev.D 105 (2022) 115008, arXiv:2202.06216.
[Ahmed:2022rwy]
[18-123]
Asymmetric Self-interacting Dark Matter via Dirac Leptogenesis, Manoranjan Dutta, Nimmala Narendra, Narendra Sahu, Sujay Shil, Phys.Rev.D 106 (2022) 095017, arXiv:2202.04704.
[Dutta:2022knf]
[18-124]
Leptogenesis in Majoron Models without Domain Walls, Tim Brune, Phys.Rev.D 107 (2023), arXiv:2201.12239.
[Brune:2022vzd]
[18-125]
Freeze-in Leptogenesis via Dark-Matter Oscillations, Justin Berman, Brian Shuve, David Tucker-Smith, Phys.Rev.D 105 (2022) 095027, arXiv:2201.11502.
[Berman:2022oht]
[18-126]
Linear seesaw in $A^\prime_5$ modular symmetry with Leptogenesis, Mitesh Kumar Behera, Rukmani Mohanta, Front.in Phys. 10 (2022) 854595, arXiv:2201.10429.
[Behera:2022wco]
[18-127]
Leptogenesis from a feebly interacting dark matter sector, Suresh Chand, Mariana Frank, Poulose Poulose, Phys.Rev.D 106 (2022) 043030, arXiv:2201.08537.
[Chand:2022vrf]
[18-128]
Neutrino Mass from Affleck-Dine Leptogenesis and WIMP Dark Matter, Rabindra N. Mohapatra, Nobuchika Okada, JHEP 03 (2022) 092, arXiv:2201.06151.
[Mohapatra:2022ngo]
[18-129]
Unified Origin of Dark Matter Self-Interactions and Low Scale Leptogenesis, Debasish Borah, Arnab Dasgupta, Satyabrata Mahapatra, Narendra Sahu, arXiv:2112.14786, 2021.
[2112.14786]
[18-130]
Scalar Triplet Leptogenesis with a CP violating phase, Sreerupa Chongdar, Sasmita Mishra, Nucl.Phys.B 995 (2023) 116346, arXiv:2112.11838.
[Chongdar:2021tgm]
[18-131]
Probing Leptogenesis with the Cosmological Collider, Yanou Cui, Zhong-Zhi Xianyu, Phys.Rev.Lett. 129 (2022) 111301, arXiv:2112.10793.
[Cui:2021iie]
[18-132]
Resonant Leptogenesis, Collider Signals and Neutrinoless Double Beta Decay from Flavor and CP Symmetries, Garv Chauhan, P. S. Bhupal Dev, Nucl.Phys.B 986 (2023) 116058, arXiv:2112.09710.
[Chauhan:2021xus]
[18-133]
$TeV$-Scale Resonant Leptogenesis $A_4$ with a scaling texture, H.B. Benaoum, arXiv:2112.01170, 2021.
[Benaoum:2021mwc]
[18-134]
Leptogenesis and eV scale sterile neutrino, Srubabati Goswami, Vishnudath K. N., Ananya Mukherjee, Nimmala Narendra, Phys.Rev.D 105 (2022) 095040, arXiv:2111.14719.
[Goswami:2021eqy]
[18-135]
Dirac Radiative Neutrino Mass with Modular Symmetry and Leptogenesis, Arnab Dasgupta, Takaaki Nomura, Hiroshi Okada, Oleg Popov, Morimitsu Tanimoto, arXiv:2111.06898, 2021.
[Dasgupta:2021ggp]
[18-136]
Mass-derivative relations for leptogenesis, Tomas Blazek, Peter Matak, Eur.Phys.J.C 82 (2022) 214, arXiv:2111.03419.
[Blazek:2021gmw]
[18-137]
Robustness of ARS Leptogenesis in Scalar Extensions, Oliver Fischer, Manfred Lindner, Susan van der Woude, JHEP 05 (2022) 149, arXiv:2110.14499.
[Fischer:2021nha]
[18-138]
Scalar Triplet Flavor Leptogenesis with Dark Matter, Arghyajit Datta, Rishav Roshan, Arunansu Sil, Phys.Rev.D 105 (2022) 095032, arXiv:2110.03914.
[Datta:2021gyi]
[18-139]
Testing leptogenesis at the LHC and future muon colliders: a $Z'$ scenario, Wei Liu, Ke-Pan Xie, Zihan Yi, Phys.Rev.D 105 (2022) 095034, arXiv:2109.15087.
[Liu:2021akf]
[18-140]
Hidden-Sector Neutrinos and Freeze-In Leptogenesis, Ina Flood, Rafael Porto, Jane Schlesinger, Brian Shuve, Maxwell Thum, Phys.Rev.D 105 (2022) 095025, arXiv:2109.10908.
[Flood:2021qhq]
[18-141]
Leptogenesis and fermion mass fit in a renormalizable $SO(10)$ model, V. Suryanarayana Mummidi, Ketan M. Patel, JHEP 12 (2021) 042, arXiv:2109.04050.
[Mummidi:2021anm]
[18-142]
CP violation in mixing and oscillations for leptogenesis II: the highly degenerate case, J. Racker, JHEP 11 (2021) 027, arXiv:2109.00040.
[Racker:2021kme]
[18-143]
Aspects of High Scale Leptogenesis with Low-Energy Leptonic CP Violation, A. Granelli, K. Moffat, S. T. Petcov, JHEP 11 (2021) 149, arXiv:2107.02079.
[Granelli:2021fyc]
[18-144]
Resonant leptogenesis and TM$_1$ mixing in minimal Type-I seesaw model with S$_4$ symmetry, Bikash Thapa, Ng. K. Francis, Eur.Phys.J.C 81 (2021) 1061, arXiv:2107.02074.
[Thapa:2021ehj]
[18-145]
Leptogenesis in Type Ib seesaw models, Bowen Fu, Stephen F. King, Phys.Rev.D 105 (2022) 095001, arXiv:2107.01486.
[Fu:2021fyk]
[18-146]
Mapping the viable parameter space for testable leptogenesis, Marco Drewes, Yannis Georis, Juraj Klaric, Phys.Rev.Lett. 128 (2022) 051801, arXiv:2106.16226.
[Drewes:2021nqr]
[18-147]
TeV Scale Resonant Leptogenesis with $L_{\mu}-L_{\tau}$ Gauge Symmetry in the Light of Muon $(g-2)$, Debasish Borah, Arnab Dasgupta, Devabrat Mahanta, Phys.Rev.D 104 (2021) 075006, arXiv:2106.14410.
[Borah:2021mri]
[18-148]
A Model of Gravitational Leptogenesis, Graham M. Shore, arXiv:2106.09562, 2021.
[Shore:2021qqr]
[18-149]
Resonant leptogenesis in (2,2) inverse see-saw realisation, Indrani Chakraborty, Himadri Roy, Tripurari Srivastava, Nucl.Phys.B 979 (2022) 115780, arXiv:2106.08232.
[Chakraborty:2021azg]
[18-150]
Leptogenesis, Fermion Masses and Mixings in a SUSY $SU(5)$ GUT with $D_{4}$ Flavor Symmetry, M. Miskaoui, M. A. Loualidi, JHEP 11 (2021) 147, arXiv:2106.07332.
[Miskaoui:2021nbm]
[18-151]
Flavored Leptogenesis and Neutrino Mass with $A_4$ Symmetry, Arghyajit Datta, Biswajit Karmakar, Arunansu Sil, JHEP 12 (2021) 051, arXiv:2106.06773.
[Datta:2021zzf]
[18-152]
FIMP dark matter and low scale leptogenesis in an extended neutrino two Higgs doublet model($\nu$2HDM), Lavina Sarma, Bichitra Bijay Boruah, Mrinal Kumar Das, Eur.Phys.J.C 82 (2022) 488, arXiv:2106.04124.
[Sarma:2021icl]
[18-153]
Affleck-Dine Leptogenesis from Higgs Inflation, Neil D. Barrie, Chengcheng Han, Hitoshi Murayama, Phys.Rev.Lett. 128 (2022) 141801, arXiv:2106.03381.
[Barrie:2021mwi]
[18-154]
Leptogenesis in an anomaly-free $\mathrm{U}(1)$ extension with higher-dimensional operators, Kuldeep Deka, Tanumoy Mandal, Ananya Mukherjee, Soumya Sadhukhan, Nucl.Phys.B 991 (2023) 116213, arXiv:2105.15088.
[Deka:2021koh]
[18-155]
Realizing flavored leptogenesis: a reappraisal through special kinds of orthogonal matrices, Ananya Mukherjee, Nimmala Narendra, J.Phys.G 50 (2023) 075004, arXiv:2105.14593.
[Mukherjee:2021hed]
[18-156]
Gravitational Leptogenesis in Bounce Cosmology, Neil D. Barrie, JCAP 06 (2021) 049, arXiv:2105.06624.
[Barrie:2021orn]
[18-157]
Baryogenesis from Hierarchical Dirac Neutrinos, Shao-Ping Li, Xin-Qiang Li, Xin-Shuai Yan, Ya-Dong Yang, Phys.Rev.D 104 (2021) 115014, arXiv:2105.01317.
[Li:2021tlv]
[18-158]
Low scale leptogenesis and dark matter in the presence of primordial black holes, Suruj Jyoti Das, Devabrat Mahanta, Debasish Borah, JCAP 11 (2021) 019, arXiv:2104.14496.
[JyotiDas:2021shi]
[18-159]
Gravitino Dark matter, Non Thermal Leptogenesis and Low reheating temperature in No-scale Higgs Inflation, Waqas Ahmed, Athanasios Karozas, George K. Leontaris, Phys.Rev.D 104 (2021) 055025, arXiv:2104.04328.
[Ahmed:2021dvo]
[18-160]
Flavour mixing transport theory and resonant leptogenesis, Henri Jukkala, Kimmo Kainulainen, Pyry M. Rahkila, JHEP 09 (2021) 119, arXiv:2104.03998.
[Jukkala:2021sku]
[18-161]
Fermion masses and mixings, dark matter, leptogenesis and $g-2$ muon anomaly in an extended 2HDM with inverse seesaw, A. E. Carcamo Hernandez, Catalina Espinoza, Juan Carlos Gomez-Izquierdo, Myriam Mondragon, Eur.Phys.J.Plus 137 (2022) 1224, arXiv:2104.02730.
[Hernandez:2021kju]
[18-162]
FIMP Dark Matter from Leptogenesis in Fast Expanding Universe, Zhi-Fang Chang, Zhao-Xuan Chen, Jia-Shu Xu, Zhi-Long Han, JCAP 2106 (2021) 006, arXiv:2104.02364.
[Chang:2021ose]
[18-163]
Reconciling resonant leptogenesis and baryogenesis via neutrino oscillations, Juraj Klaric, Mikhail Shaposhnikov, Inar Timiryasov, Phys.Rev.D 104 (2021) 055010, arXiv:2103.16545.
[Klaric:2021cpi]
[18-164]
Baryogenesis via Leptogenesis: Spontaneous B and L Violation, Pavel Fileviez Perez, Clara Murgui, Alexis D. Plascencia, Phys.Rev.D 104 (2021) 055007, arXiv:2103.13397.
[FileviezPerez:2021hbc]
[18-165]
Broken Scaling Neutrino Mass Matrix and Leptogenesis based on A$_4$ Modular invariance, Monal Kashav, Surender Verma, JHEP 09 (2021) 100, arXiv:2103.07207.
[Kashav:2021zir]
[18-166]
Dark Matter and Leptogenesis from Gravitational Production, Nicolas Bernal, Chee Sheng Fong, JCAP 2106 (2021) 028, arXiv:2103.06896.
[Bernal:2021kaj]
[18-167]
Lepton flavor violation and leptogenesis in discrete flavor symmetric scotogenic model, Bichitra Bijay Boruah, Lavina Sarma, Mrinal Kumar Das, arXiv:2103.05295, 2021.
[Boruah:2021qlf]
[18-168]
The Hubble Tension as a Hint of Leptogenesis and Neutrino Mass Generation, Miguel Escudero, Samuel J. Witte, Eur.Phys.J. C81 (2021) 515, arXiv:2103.03249.
[Escudero:2021rfi]
[18-169]
Non-thermal leptogenesis and UV freeze-in of dark matter: impact of inflationary reheating, Basabendu Barman, Debasish Borah, Rishav Roshan, Phys.Rev.D 104 (2021) 035022, arXiv:2103.01675.
[Barman:2021tgt]
[18-170]
Leptogenesis in an extended seesaw model with $U(1)_{B-L}$ symmetry, Ujjal Kumar Dey, Tapoja Jha, Ananya Mukherjee, Nirakar Sahoo, J.Phys.G 50 (2023) 015004, arXiv:2102.04494.
[Dey:2021ecr]
[18-171]
Low scale Dirac leptogenesis and dark matter with observable $\Delta N_{\rm eff}$, Devabrat Mahanta, Debasish Borah, Eur.Phys.J.C 82 (2022) 495, arXiv:2101.02092.
[Mahanta:2021plx]
[18-172]
CP violation in mixing and oscillations for leptogenesis with quasi-degenerate neutrinos, J. Racker, JHEP 2104 (2021) 290, arXiv:2012.05354.
[Racker:2020avp]
[18-173]
Common origin of radiative neutrino mass, dark matter and leptogenesis in scotogenic Georgi-Machacek model, Shao-Long Chen, Amit Dutta Banik, Ze-Kun Liu, Nucl.Phys. B966 (2021) 115394, arXiv:2011.13551.
[Chen:2020ark]
[18-174]
Wash-In Leptogenesis, Valerie Domcke, Kohei Kamada, Kyohei Mukaida, Kai Schmitz, Masaki Yamada, Phys.Rev.Lett. 126 (2021) 201802, arXiv:2011.09347.
[Domcke:2020quw]
[18-175]
Matter and dark matter asymmetry from a composite Higgs model, M. Ahmadvand, Eur.Phys.J. C81 (2021) 358, arXiv:2010.10121.
[Ahmadvand:2020izy]
[18-176]
Low scale leptogenesis in a model with promising $CP$ structure, Daijiro Suematsu, Eur.Phys.J. C81 (2021) 311, arXiv:2010.06184.
[Suematsu:2020ixc]
[18-177]
Assessing the tension between a black hole dominated early universe and leptogenesis, Yuber F. Perez-Gonzalez, Jessica Turner, Phys.Rev.D 104 (2021) 103021, arXiv:2010.03565.
[Perez-Gonzalez:2020vnz]
[18-178]
Gravitational wave complementarity and impact of NANOGrav data on gravitational leptogenesis, Rome Samanta, Satyabrata Datta, JHEP 2105 (2021) 211, arXiv:2009.13452.
[Samanta:2020cdk]
[18-179]
MeV-scale Seesaw and Leptogenesis, Valerie Domcke, Marco Drewes, Marco Hufnagel, Michele Lucente, JHEP 2101 (2021) 200, arXiv:2009.11678.
[Domcke:2020ety]
[18-180]
Flavoured Resonant Leptogenesis at Sub-TeV Scales, A. Granelli, K. Moffat, S. T. Petcov, Nucl.Phys.B 973 (2021) 115597, arXiv:2009.03166.
[Granelli:2020ysj]
[18-181]
Uniting low-scale leptogeneses, Juraj Klaric, Mikhail Shaposhnikov, Inar Timiryasov, arXiv:2008.13771, 2020.
[Klaric:2020lov]
[18-182]
Exploring $0\nu\beta\beta$ and Leptogenesis in the Alternative Left-Right Model, Mariana Frank, Chayan Majumdar, P. Poulose, Supriya Senapati, Urjit A. Yajnik, Phys.Rev. D102 (2020) 075020, arXiv:2008.12270.
[Frank:2020odd]
[18-183]
Dark Sector Assisted Low Scale Leptogenesis from Three Body Decay without Loops, Debasish Borah, Arnab Dasgupta, Devabrat Mahanta, Phys.Rev.D 105 (2022) 015015, arXiv:2008.10627.
[Borah:2020ivi]
[18-184]
Leptogenesis from low energy CP violation in minimal left-right symmetric model, Xinyi Zhang, Jiang-Hao Yu, Bo-Qiang Ma, Nucl.Phys.B 976 (2022) 115670, arXiv:2008.06433.
[Zhang:2020lir]
[18-185]
Leptogenesis from the Asymmetric Texture, Moinul Hossain Rahat, Phys.Rev. D103 (2021) 3, arXiv:2008.04204.
[Rahat:2020mio]
[18-186]
Neutrino mixing and Leptogenesis with modular $S_3$ symmetry in the framework of type III seesaw, Subhasmita Mishra, arXiv:2008.02095, 2020.
[Mishra:2020gxg]
[18-187]
$1 \leftrightarrow 2$ Processes of a Sterile Neutrino Around Electroweak Scale in the Thermal Plasma, Xue-Min Jiang, Yi-Lei Tang, Zhao-Huan Yu, Hong-Hao Zhang, Phys.Rev. D103 (2021) 095003, arXiv:2008.00642.
[Jiang:2020kbt]
[18-188]
A dark clue to seesaw and leptogenesis in singlet doublet scenario with (non)standard cosmology, Partha Konar, Ananya Mukherjee, Abhijit Kumar Saha, Sudipta Show, JHEP 2103 (2021) 044, arXiv:2007.15608.
[Konar:2020vuu]
[18-189]
Sterile Neutrino Dark Matter and Leptogenesis in Left-Right Higgs Parity, David Dunsky, Lawrence J. Hall, Keisuke Harigaya, JHEP 2101 (2021) 125, arXiv:2007.12711.
[Dunsky:2020dhn]
[18-190]
Flavour effects in gravitational leptogenesis, Rome Samanta, Satyabrata Datta, JHEP 2012 (2020) 067, arXiv:2007.11725.
[Samanta:2020tcl]
[18-191]
$\nu$ Electroweak Baryogenesis, E. Fernandez-Martinez, J. Lopez-Pavon, T. Ota, S. Rosauro-Alcaraz, JHEP 2010 (2020) 063, arXiv:2007.11008.
[Fernandez-Martinez:2020szk]
[18-192]
Testing quasi-Dirac leptogenesis through neutrino oscillations, C. S. Fong, T. Gregoire, A. Tonero, Phys.Lett. B816 (2021) 136175, arXiv:2007.09158.
[Fong:2020smz]
[18-193]
ULYSSES: Universal LeptogeneSiS Equation Solver, Alessandro Granelli, Kristian Moffat, Yuber Perez-Gonzalez, Holger Schulz, Jessica Turner, Comput.Phys.Commun. 262 (2021) 107813, arXiv:2007.09150.
[Granelli:2020pim]
[18-194]
Renormalization in gravitational leptogenesis with pseudo-scalar-tensor coupling, Kohei Kamada, Jun'ya Kume, Yusuke Yamada, JCAP 2010 (2020) 030, arXiv:2007.08029.
[Kamada:2020jaf]
[18-195]
Implications of $A_4$ modular symmetry on Neutrino mass, Mixing and Leptogenesis with Linear Seesaw, Mitesh Kumar Behera, Subhasmita Mishra, Shivaramakrishna Singirala, Rukmani Mohanta, Phys.Dark Univ. 36 (2022) 101027, arXiv:2007.00545.
[Behera:2020sfe]
[18-196]
Lepto-Axiogenesis, Raymond T. Co, Nicolas Fernandez, Akshay Ghalsasi, Lawrence J. Hall, Keisuke Harigaya, JHEP 2103 (2021) 017, arXiv:2006.05687.
[Co:2020jtv]
[18-197]
Leptogenesis and low-energy CP violation in a type-II-dominated left-right seesaw model, Thomas Rink, Werner Rodejohann, Kai Schmitz, Nucl.Phys.B 972 (2021) 115552, arXiv:2006.03021.
[Rink:2020uvt]
[18-198]
Purely Triplet Seesaw and Leptogenesis within Cosmological Bound, Dark Matter and Vacuum Stability, M. K. Parida, Swaraj Kumar Nanda, Riyanka Samantaray, Nucl.Phys. B960 (2020) 115203, arXiv:2005.12077.
[Parida:2020sng]
[18-199]
Cosmic Inflation in Minimal $U(1)_{B-L}$ Model: Implications for (Non) Thermal Dark Matter and Leptogenesis, Debasish Borah, Suruj Jyoti Das, Abhijit Kumar Saha, Eur.Phys.J. C81 (2021) 169, arXiv:2005.11328.
[Borah:2020wyc]
[18-200]
Leptogenesis due to oscillating Higgs field, Seishi Enomoto, Chengfeng Cai, Zhao-Huan Yu, Hong-Hao Zhang, Eur.Phys.J. C80 (2020) 1098, arXiv:2005.08037.
[Enomoto:2020lpf]
[18-201]
Leptogenesis in the $\mu\tau$ basis, C. C. Nishi, Chee Sheng Fong, JHEP 2007 (2020) 140, arXiv:2005.03469.
[Nishi:2020oas]
[18-202]
The $SO(10)$-inspired leptogenesis timely opportunity, Pasquale Di Bari, Rome Samanta, JHEP 2008 (2020) 124, arXiv:2005.03057.
[DiBari:2020plh]
[18-203]
Freeze-in Dirac neutrinogenesis: thermal leptonic CP asymmetry, Shao-Ping Li, Xin-Qiang Li, Xin-Shuai Yan, Ya-Dong Yang, Eur.Phys.J. C80 (2020) 1122, arXiv:2005.02927.
[Li:2020ner]
[18-204]
Complete leading-order standard model corrections to quantum leptogenesis, Paul Frederik Depta, Andreas Halsch, Janine Hutig, Sebastian Mendizabal, Owe Philipsen, JHEP 2009 (2020) 036, arXiv:2005.01728.
[Depta:2020zmy]
[18-205]
Leptogenesis in the minimal gauged U(1)$_{L_\mu-L_\tau}$ model and the sign of the cosmological baryon asymmetry, Kento Asai, Koichi Hamaguchi, Natsumi Nagata, Shih-Yen Tseng, JCAP 2011 (2020) 013, arXiv:2005.01039.
[Asai:2020qax]
[18-206]
Fingerprint of Low-Scale Leptogenesis in the Primordial Gravitational-Wave Spectrum, Simone Blasi, Vedran Brdar, Kai Schmitz, Phys.Rev.Res. 2 (2020) 043321, arXiv:2004.02889.
[Blasi:2020wpy]
[18-207]
Perfect Occam's razor for neutrino masses and leptogenesis, D. M. Barreiros, F. R. Joaquim, T. T. Yanagida, Phys.Rev. D102 (2020) 055021, arXiv:2003.06332.
[Barreiros:2020mnr]
[18-208]
Bridging resonant leptogenesis and low-energy CP violation with an RGE-modified seesaw relation, Zhi-zhong Xing, Di Zhang, Phys.Lett. B804 (2020) 135397, arXiv:2003.06312.
[Xing:2020ghj]
[18-209]
Renormalization group assisted leptogenesis in the minimal type-I seesaw model, Zhen-hua Zhao, JHEP 11 (2021) 170, arXiv:2003.00654.
[Zhao:2020bzx]
[18-210]
Predictive $S_4$ flavon model with $TM_1$ mixing and bayrogenesis through leptogenesis, Mainak Chakraborty, R. Krishnan, Ambar Ghosal, JHEP 2009 (2020) 025, arXiv:2003.00506.
[Chakraborty:2020gqc]
[18-211]
A direct link between unflavored leptogenesis and low-energy CP violation via the one-loop quantum corrections, Zhi-zhong Xing, Di Zhang, JHEP 2004 (2020) 179, arXiv:2003.00480.
[Xing:2020erm]
[18-212]
CP odd weak basis invariants in minimal see-saw model and Leptogenesis, Madan Singh, PTEP 2020 (2020) 123B02, arXiv:2002.09462.
[Singh:2020bad]
[18-213]
Higgs Inflation, Vacuum Stability, and Leptogenesis, Neil D. Barrie, Akio Sugamoto, Tatsu Takeuchi, Kimiko Yamashita, JHEP 2008 (2020) 072, arXiv:2001.07032.
[Barrie:2020hiu]
[18-214]
Leptogenesis and Dark Matter from Low Scale Seesaw, Ang Liu, Zhi-Long Han, Yi Jin, Fa-Xin Yang, Phys.Rev. D101 (2020) 095005, arXiv:2001.04085.
[Liu:2020mxj]
[18-215]
Neutrino mass, leptogenesis and sterile neutrino dark matter in inverse seesaw framework, Nayana Gautam, Mrinal Kumar Das, Int.J.Mod.Phys.A 36 (2021) 2150146, arXiv:2001.00452.
[Gautam:2020wsd]
[18-216]
TeV Scale Leptogenesis with Dark Matter in Non-standard Cosmology, Devabrat Mahanta, Debasish Borah, JCAP 2004 (2020) 032, arXiv:1912.09726.
[Mahanta:2019sfo]
[18-217]
Leptogenesis in fast expanding Universe, Shao-Long Chen, Amit Dutta Banik, Ze-Kun Liu, JCAP 2003 (2020) 009, arXiv:1912.07185.
[Chen:2019etb]
[18-218]
Soft leptogenesis in the NMSSM with a singlet right-handed neutrino superfield, Waleed Abdallah, Abhass Kumar, Abhijit Kumar Saha, JHEP 2004 (2020) 065, arXiv:1911.03363.
[Abdallah:2019tij]
[18-219]
Inflation and Leptogenesis in High-Scale Supersymmetry, Kunio Kaneta, Yann Mambrini, Keith A. Olive, Sarunas Verner, Phys.Rev. D101 (2020) 015002, arXiv:1911.02463.
[Kaneta:2019yjn]
[18-220]
Minimal Seesaw extension for Neutrino Mass and Mixing, Leptogenesis and Dark Matter: FIMPzillas through the Right-Handed Neutrino Portal, Marco Chianese, Bowen Fu, Stephen F. King, JCAP 2003 (2020) 030, arXiv:1910.12916.
[Chianese:2019epo]
[18-221]
A thermal neutrino interaction rate at NLO, G. Jackson, M. Laine, Nucl.Phys. B950 (2020) 114870, arXiv:1910.12880.
[Jackson:2019tnr]
[18-222]
A minimal model for the SM fermion flavor structure, mass hierarchy, dark matter, leptogenesis and the $g-2$ anomalies, A. E. Carcamo Hernandez, D. T. Huong, H. N. Long, Phys.Rev. D102 (2020) 055002, arXiv:1910.12877.
[CarcamoHernandez:2019lhv]
[18-223]
Asymmetric Dark Matter From Triplet Scalar Leptogenesis, Nimmala Narendra, Narendra Sahu, Sujay Shil, Eur.Phys.J.C 81 (2021) 1098, arXiv:1910.12762.
[Narendra:2019cyt]
[18-224]
Superstring-Inspired Particle Cosmology: Inflation, Neutrino Masses, Leptogenesis, Dark Matter & the SUSY Scale, John Ellis, Marcos A. G. Garcia, Natsumi Nagata, Dimitri V. Nanopoulos, Keith A. Olive, JCAP 2001 (2020) 035, arXiv:1910.11755.
[Ellis:2019opr]
[18-225]
Baryogenesis From a Dark First-Order Phase Transition, Eleanor Hall, Thomas Konstandin, Robert McGehee, Hitoshi Murayama, Geraldine Servant, JHEP 2004 (2020) 042, arXiv:1910.08068.
[Hall:2019ank]
[18-226]
$A_4$ model of Magic neutrino mass matrix with broken $\mu-\tau$ symmetry and Leptogenesis, Surender Verma, Monal Kashav, J.Phys. G47 (2020) 085003, arXiv:1910.04467.
[Verma:2019uiu]
[18-227]
Scalar triplet leptogenesis in the presence of right-handed neutrinos with S3 symmetry, Subhasmita Mishra, Anjan Giri, J.Phys. G47 (2020) 055008, arXiv:1909.12147.
[Mishra:2019sye]
[18-228]
Type-I thermal leptogenesis in $Z_3$-symmetric three Higgs doublet model, Indrani Chakraborty, Himadri Roy, Eur.Phys.J. C80 (2020) 1038, arXiv:1909.07790.
[Chakraborty:2019zas]
[18-229]
Modular $A_4$ invariance and leptogenesis, Takehiko Asaka, Yongtae Heo, Takuya H. Tatsuishi, Takahiro Yoshida, JHEP 2001 (2020) 144, arXiv:1909.06520.
[Asaka:2019vev]
[18-230]
Flavoured leptogenesis and ${\rm CP}^{\mu\tau}$ symmetry, Rome Samanta, Manibrata Sen, JHEP 2001 (2020) 193, arXiv:1908.08126.
[Samanta:2019yeg]
[18-231]
Testing Seesaw and Leptogenesis with Gravitational Waves, Jeff A. Dror, Takashi Hiramatsu, Kazunori Kohri, Hitoshi Murayama, Graham White, Phys.Rev.Lett. 124 (2020) 041804, arXiv:1908.03227.
[Dror:2019syi]
[18-232]
MeV scale model of SIMP dark matter, neutrino mass and leptogenesis, Subhendra Mohanty, Ayon Patra, Tripurari Srivastava, JCAP 2003 (2020) 027, arXiv:1908.00909.
[Mohanty:2019drv]
[18-233]
Gravitational waves triggered by $B-L$ charged hidden scalar and leptogenesis, Ligong Bian, Wei Cheng, Huai-Ke Guo, Yongchao Zhang, Chin.Phys.C 45 (2021) 113104, arXiv:1907.13589.
[Bian:2019szo]
[18-234]
Parametrized leptogenesis from linear seesaw, Pei-Hong Gu, Eur.Phys.J. C80 (2020) 494, arXiv:1907.10576.
[Gu:2019ott]
[18-235]
Common origin of inverse seesaw and baryon asymmetry, Pei-Hong Gu, Phys.Lett. B800 (2020) 135118, arXiv:1907.09444.
[Gu:2019nhb]
[18-236]
Leptogenesis with testable Dirac neutrino mass generation, Pei-Hong Gu, Phys.Lett. B805 (2020) 135411, arXiv:1907.09443.
[Gu:2019yvw]
[18-237]
Low scale leptogenesis in a hybrid model of the scotogenic type I and III seesaw, Daijiro Suematsu, Phys.Rev.D 100 (2019) 055008, arXiv:1906.12008.
[Suematsu:2019kst]
[18-238]
Triplet Leptogenesis, Type-II Seesaw Dominance, Intrinsic Dark Matter, Vacuum Stability and Proton Decay in Minimal SO(10) Breakings, Mainak Chakraborty, M.K. Parida, Biswonath Sahoo, JCAP 2001 (2020) 049, arXiv:1906.05601.
[Chakraborty:2019uxk]
[18-239]
Leptogenesis after superconformal subcritical hybrid inflation, Yoshihiro Gunji, Koji Ishiwata, JHEP 1909 (2019) 065, arXiv:1906.04530.
[Gunji:2019wtk]
[18-240]
Fermion Dark Matter with $N_2$ Leptogenesis in Minimal Scotogenic Model, Devabrat Mahanta, Debasish Borah, JCAP 1911 (2019) 021, arXiv:1906.03577.
[Mahanta:2019gfe]
[18-241]
Leptogenesis in the Neutrino Option, I. Brivio, K. Moffat, S. Pascoli, S.T. Petcov, J. Turner, JHEP 1910 (2019) 059, arXiv:1905.12642.
[Brivio:2019hrj]
[18-242]
Sterile neutrino dark matter via GeV-scale leptogenesis?, J. Ghiglieri, M. Laine, JHEP 1907 (2019) 078, arXiv:1905.08814.
[Ghiglieri:2019kbw]
[18-243]
$TeV$-Scale Resonant Leptogenesis with New Scaling Ansatz on Neutrino Dirac Mass Matrix from $A_4$ Flavor Symmetry, H. B. Benaoum, S. H. Shaglel, Int.J.Mod.Phys. A35 (2020) 2050077, arXiv:1905.06579.
[Benaoum:2019ksi]
[18-244]
Leptogenesis in $\Delta(27)$ with a Universal Texture Zero, Fredrik Bjorkeroth, Ivo de Medeiros Varzielas, M.L. Lopez-Ibanez, Aurora Melis, Oscar Vives, JHEP 1909 (2019) 050, arXiv:1904.10545.
[Bjorkeroth:2019csz]
[18-245]
Relativistic and spectator effects in leptogenesis with heavy sterile neutrinos, Bjorn Garbrecht, Philipp Klose, Carlos Tamarit, JHEP 2002 (2020) 117, arXiv:1904.09956.
[Garbrecht:2019zaa]
[18-246]
Lopsided texture compatible with thermal leptogenesis in partially composite Pati-Salam unification, Masaki J. S. Yang, arXiv:1904.02881, 2019.
[Yang:2019tvk]
[18-247]
Mirror Dirac leptogenesis, Kevin Earl, Chee Sheng Fong, Thomas Gregoire, Alberto Tonero, JCAP 03 (2020) 036, arXiv:1903.12192.
[Earl:2019wjw]
[18-248]
Stability, reheating and leptogenesis, Djuna Croon, Nicolas Fernandez, David McKeen, Graham White, JHEP 1906 (2019) 098, arXiv:1903.08658.
[Croon:2019dfw]
[18-249]
Neutrino Oscillations and Leptogenesis, Anupam Yadav, Sabeeha Naaz, Jyotsna Singh, R.B. Singh, arXiv:1901.06127, 2019.
[Yadav:2019oet]
[18-250]
Low-scale Leptogenesis with Minimal Lepton Flavour Violation, Matthew J. Dolan, Tomasz P. Dutka, Raymond R. Volkas, Phys.Rev.D 99 (2019) 123508, arXiv:1812.11964.
[Dolan:2018yqy]
[18-251]
Resonant leptogenesis at TeV-scale and neutrinoless double beta decay, Takehiko Asaka, Takahiro Yoshida, JHEP 09 (2019) 089, arXiv:1812.11323.
[Asaka:2018hyk]
[18-252]
Natural Seesaw and Leptogenesis from Hybrid of High-Scale Type I and TeV-Scale Inverse, Kaustubh Agashe, Peizhi Du, Majid Ekhterachian, Chee Sheng Fong, Sungwoo Hong, Luca Vecchi, JHEP 1904 (2019) 029, arXiv:1812.08204.
[Agashe:2018cuf]
[18-253]
Low-scale leptogenesis assisted by a real scalar singlet, Tommi Alanne, Thomas Hugle, Moritz Platscher, Kai Schmitz, JCAP 1903 (2019) 037, arXiv:1812.04421.
[Alanne:2018brf]
[18-254]
Why is there more matter than antimatter? Calculational methods for leptogenesis and electroweak baryogenesis, Bjorn Garbrecht, Prog.Part.Nucl.Phys. 110 (2020) 103727, arXiv:1812.02651.
[Garbrecht:2018mrp]
[18-255]
Electroweak Baryogenesis From Dark CP Violation, Marcela Carena, Mariano Quiros, Yue Zhang, Phys.Rev.Lett. 122 (2019) 201802, arXiv:1811.09719.
[Carena:2018cjh]
[18-256]
Precision study of GeV-scale resonant leptogenesis, J. Ghiglieri, M. Laine, JHEP 1902 (2019) 014, arXiv:1811.01971.
[Ghiglieri:2018wbs]
[18-257]
Unitarity and CP violation in leptogenesis at NLO: general considerations and top Yukawa contributions, J. Racker, JHEP 1902 (2019) 042, arXiv:1811.00280.
[Racker:2018tzw]
[18-258]
Low-scale leptogenesis with three heavy neutrinos, Asmaa Abada, Giorgio Arcadi, Valerie Domcke, Marco Drewes, Juraj Klaric, Michele Lucente, JHEP 1901 (2019) 164, arXiv:1810.12463.
[Abada:2018oly]
[18-259]
TeV Scale Leptogenesis, Inflaton Dark Matter and Neutrino Mass in Scotogenic Model, Debasish Borah, P. S. Bhupal Dev, Abhass Kumar, Phys.Rev. D99 (2019) 055012, arXiv:1810.03645.
[Borah:2018rca]
[18-260]
Leptogenesis from Low Energy $CP$ Violation, K. Moffat, S. Pascoli, S.T. Petcov, J. Turner, JHEP 1903 (2019) 034, arXiv:1809.08251.
[Moffat:2018smo]
[18-261]
Baryogenesis via leptogenesis in multi-field inflation, Grigoris Panotopoulos, Nelson Videla, Eur.Phys.J. C78 (2018) 774, arXiv:1809.07633.
[Panotopoulos:2018pxw]
[18-262]
Affleck-Dine baryogenesis in the SUSY DFSZ axion model without R-parity, Kensuke Akita, Hajime Otsuka, Phys.Rev. D99 (2019) 055035, arXiv:1809.04361.
[Akita:2018zma]
[18-263]
TeV Scale Neutrino Mass Generation, Minimal Inelastic Dark Matter, and High Scale Leptogenesis, Pei-Hong Gu, Hong-Jian He, Phys.Rev. D99 (2019) 015025, arXiv:1808.09377.
[Gu:2018kmv]
[18-264]
$ \mu-\tau$ Reflection Symmetry and Its Explicit Breaking for Leptogenesis in a Minimal Seesaw Model, Newton Nath, Mod.Phys.Lett. A34 (2019) 1950329, arXiv:1808.05062.
[Nath:2018xih]
[18-265]
Leptogenesis via Varying Weinberg Operator: a Semi-Classical Approach, Silvia Pascoli, Jessica Turner, Ye-Ling Zhou, Chin.Phys. C43 (2019) 033101, arXiv:1808.00475.
[Pascoli:2018cqk]
[18-266]
Leptogenesis via Varying Weinberg Operator: the Closed-Time-Path Approach, Jessica Turner, Ye-Ling Zhou, JHEP 2001 (2020) 022, arXiv:1808.00470.
[Turner:2018mwh]
[18-267]
Leptogenesis via Neutrino Oscillation Magic, Yuta Hamada, Ryuichiro Kitano, Wen Yin, JHEP 1810 (2018) 178, arXiv:1807.06582.
[Hamada:2018epb]
[18-268]
Low-scale leptogenesis and dark matter, Andrea Caputo, Pilar Hernandez, Nuria Rius, Eur.Phys.J. C79 (2019) 574, arXiv:1807.03309.
[Caputo:2018zky]
[18-269]
The Dark Side of the Littlest Seesaw: freeze-in, the two right-handed neutrino portal and leptogenesis-friendly fimpzillas, Marco Chianese, Stephen F. King, JCAP 1809 (2018) 027, arXiv:1806.10606.
[Chianese:2018dsz]
[18-270]
Conformal GUT inflation, proton lifetime and non-thermal leptogenesis, K. Sravan Kumar, Paulo Vargas Moniz, Eur.Phys.J. C79 (2019) 945, arXiv:1806.09032.
[SravanKumar:2018tgk]
[18-271]
Neutrino phenomenology from leptogenesis, Franco Buccella, Damiano F. G. Fiorillo, Gennaro Miele, Stefano Morisi, Ofelia Pisanti, Pietro Santorelli, Eur.Phys.J. C78 (2018) 817, arXiv:1806.07615.
[Buccella:2018jij]
[18-272]
The New $\nu$MSM : Radiative Neutrino Masses, keV-Scale Dark Matter and Viable Leptogenesis with sub-TeV New Physics, Sven Baumholzer, Vedran Brdar, Pedro Schwaller, JHEP 1808 (2018) 067, arXiv:1806.06864.
[Baumholzer:2018sfb]
[18-273]
Leptogenesis from Dark Matter Annihilations in Scotogenic Model, Debasish Borah, Arnab Dasgupta, Sin Kyu Kang, Eur.Phys.J. C80 (2020) 498, arXiv:1806.04689.
[Borah:2018uci]
[18-274]
Assessing Perturbativity and Vacuum Stability in High-Scale Leptogenesis, Seyda Ipek, Alexis D. Plascencia, Jessica Turner, JHEP 1812 (2018) 111, arXiv:1806.00460.
[Ipek:2018sai]
[18-275]
Asymmetric Dark Matter, Inflation and Leptogenesis from B-L Symmetry Breaking, P. V. Dong, D. T. Huong, Daniel A. Camargo, Farinaldo S. Queiroz, Jose W. F. Valle, Phys.Rev. D99 (2019) 055040, arXiv:1805.08251.
[VanDong:2018yae]
[18-276]
Baryogenesis via Leptogenesis from Asymmetric Dark Matter and radiatively generated Neutrino mass, Nimmala Narendra, Sudhanwa Patra, Narendra Sahu, Sujay Shil, Phys.Rev. D98 (2018) 095016, arXiv:1805.04860.
[Narendra:2018vfw]
[18-277]
Pendulum Leptogenesis, Kazuharu Bamba, Neil D. Barrie, Akio Sugamoto, Tatsu Takeuchi, Kimiko Yamashita, Phys.Lett. B785 (2018) 184-190, arXiv:1805.04826.
[Bamba:2018bwl]
[18-278]
Leptogenesis explains little hierarchy, Ryo Nagai, Fuminobu Takahashi, Norimi Yokozaki, Phys.Lett. B784 (2018) 37-42, arXiv:1805.04243.
[Nagai:2018vyl]
[18-279]
Low-Scale Leptogenesis in the Scotogenic Neutrino Mass Model, Thomas Hugle, Moritz Platscher, Kai Schmitz, Phys.Rev. D98 (2018) 023020, arXiv:1804.09660.
[Hugle:2018qbw]
[18-280]
A cosmological pathway to testable leptogenesis, Bhaskar Dutta, Chee Sheng Fong, Esteban Jimenez, Enrico Nardi, JCAP 1810 (2018) 025, arXiv:1804.07676.
[Dutta:2018zkg]
[18-281]
Hybrid seesaw leptogenesis and TeV singlets, Kaustubh Agashe et al., Phys.Lett. B785 (2018) 489-497, arXiv:1804.06847.
[Agashe:2018oyk]
[18-282]
Leptogenesis in Cosmological Relaxation with Particle Production, Minho Son, Fang Ye, Tevong You, Phys.Rev. D99 (2019) 095016, arXiv:1804.06599.
[Son:2018avk]
[18-283]
Three-Flavoured Non-Resonant Leptogenesis at Intermediate Scales, K. Moffat, S. Pascoli, S.T. Petcov, H. Schulz, J. Turner, Phys.Rev. D98 (2018) 015036, arXiv:1804.05066.
[Moffat:2018wke]
[18-284]
Normal hierarchy neutrino mass model revisited with leptogenesis, Ananya Mukherjee, Mrinal Kumar Das, Jayanta Kumar Sarma, arXiv:1803.08239, 2018.
[Mukherjee:2018fms]
[18-285]
Big-bang nucleosynthesis and Leptogenesis in CMSSM, Munehiro Kubo, Joe Sato, Takashi Shimomura, Yasutaka Takanishi, Masato Yamanaka, Phys.Rev. D97 (2018) 115013, arXiv:1803.07686.
[Kubo:2018xrk]
[18-286]
Perturbations to $\mu-\tau$ symmetry, lepton Number Violation and baryogenesis in left-right symmetric Model, Happy Borgohain, Mrinal Kumar Das, arXiv:1803.05710, 2018.
[Borgohain:2018uhf]
[18-287]
Dirac-Phase Thermal Leptogenesis in the extended Type-I Seesaw Model, Matthew J. Dolan, Tomasz P. Dutka, Raymond R. Volkas, JCAP 1806 (2018) 012, arXiv:1802.08373.
[Dolan:2018qpy]
[18-288]
Strong thermal $SO(10)$-inspired leptogenesis in the light of recent results from long-baseline neutrino experiments, Marco Chianese, Pasquale Di Bari, JHEP 1805 (2018) 073, arXiv:1802.07690.
[Chianese:2018rnq]
[18-289]
Non-thermal Leptogenesis after Majoron Hilltop Inflation, Stefan Antusch, Kenneth Marschall, JCAP 1805 (2018) 015, arXiv:1802.05647.
[Antusch:2018zvu]
[18-290]
A minimally broken residual TBM-Klein symmetry and baryogenesis via leptogenesis, Rome Samanta, Mainak Chakraborty, JCAP 1902 (2019) 003, arXiv:1802.04751.
[Samanta:2018hqm]
[18-291]
Predictive Leptogenesis from Minimal Lepton Flavour Violation, L. Merlo, S. Rosauro-Alcaraz, JHEP 1807 (2018) 036, arXiv:1801.03937.
[Merlo:2018rin]
[18-292]
Light Dark Matter from Leptogenesis, Adam Falkowski, Eric Kuflik, Noam Levi, Tomer Volansky, Phys.Rev. D99 (2019) 015022, arXiv:1712.07652.
[Falkowski:2017uya]
[18-293]
Fermion Masses and Mixings, Leptogenesis and Baryon Number Violation in Pati-Salam Model, Shaikh Saad, Nucl.Phys. B943 (2019) 114630, arXiv:1712.04880.
[Saad:2017pqj]
[18-294]
Leptogenesis from Heavy Right-Handed Neutrinos in CPT Violating Backgrounds, Thomas Bossingham, Nick E. Mavromatos, Sarben Sarkar, Eur.Phys.J. C78 (2018) 113, arXiv:1712.03312.
[Bossingham:2017gtm]
[18-295]
Dark matter assisted Dirac leptogenesis and neutrino mass, Nimmala Narendra, Nirakar Sahoo, Narendra Sahu, Nucl.Phys. B936 (2018) 76-90, arXiv:1712.02960.
[Narendra:2017uxl]
[18-296]
Leptogenesis with TeV Scale $W_R$, Pei-Hong Gu, Rabindra N. Mohapatra, Phys.Rev. D97 (2018) 075014, arXiv:1712.00420.
[Gu:2017gra]
[18-297]
Radiative Dirac neutrino mass, DAMPE dark matter and leptogenesis, Pei-Hong Gu, arXiv:1711.11333, 2017.
[Gu:2017bdw]
[18-298]
GeV-scale hot sterile neutrino oscillations: a numerical solution, J. Ghiglieri, M. Laine, JHEP 1802 (2018) 078, arXiv:1711.08469.
[Ghiglieri:2017csp]
[18-299]
Leptogenesis Constraints on $B-L$ breaking Higgs Boson in TeV Scale Seesaw Models, P. S. Bhupal Dev, Rabindra N. Mohapatra, Yongchao Zhang, JHEP 1803 (2018) 122, arXiv:1711.07634.
[Dev:2017xry]
[18-300]
Gravitational Leptogenesis and Reheating, Peter Adshead, Andrew J. Long, Evangelos I. Sfakianakis, Phys.Rev. D97 (2018) 043511, arXiv:1711.04800.
[Adshead:2017znw]
[18-301]
Neutrino CP violation and sign of baryon asymmetry in the minimal seesaw model, Yusuke Shimizu, Kenta Takagi, Morimitsu Tanimoto, Phys.Lett. B778 (2018) 6-16, arXiv:1711.03863.
[Shimizu:2017vwi]
[18-302]
Electroweak phase transition and entropy release in the early universe, Arnab Chaudhuri, Alexander Dolgov, JCAP 1801 (2018) 032, arXiv:1711.01801.
[Chaudhuri:2017icn]
[18-303]
Leptogenesis as an origin of dark matter and baryon asymmetries in the E6 inspired SUSY models, R. Nevzorov, Phys.Lett.B 779 (2018) 223-229, arXiv:1710.11533.
[Nevzorov:2017gir]
[18-304]
Texture Zero Neutrino Models and Their Connection with Resonant Leptogenesis, Avtandil Achelashvili, Zurab Tavartkiladze, Nucl.Phys. B929 (2018) 21-57, arXiv:1710.10955.
[Achelashvili:2017nqp]
[18-305]
Neutrino masses, dark matter and leptogenesis with $U(1)_{B-L}$ gauge symmetry, Chao-Qiang Geng, Hiroshi Okada, Phys.Dark Univ. 20 (2018) 13-19, arXiv:1710.09536.
[Geng:2017foe]
[18-306]
On Feynman rules for not entirely external lines in leptogenesis and beyond, Adrian Lewandowski, Nucl.Phys. B937 (2018) 394-421, arXiv:1710.07165.
[Lewandowski:2017omt]
[18-307]
Conformal Standard Model, Leptogenesis and Dark Matter, Adrian Lewandowski, Krzysztof A. Meissner, Hermann Nicolai, Phys.Rev. D97 (2018) 035024, arXiv:1710.06149.
[Lewandowski:2017wov]
[18-308]
Gravitational Waves, mu Term $\text{\&}$ Leptogenesis from Higgs Inflation in Supergravity, C. Pallis, Universe 4 (2018) 13, arXiv:1710.05759.
[Pallis:2017xfo]
[18-309]
Probing Leptogenesis at Future Colliders, Stefan Antusch et al., JHEP 1809 (2018) 124, arXiv:1710.03744.
[Antusch:2017pkq]
[18-310]
$\mathbf{SO(10)}\times \mathbf{S_4} $ Grand Unified Theory of Flavour and Leptogenesis, Francisco J. de Anda, Stephen F. King, Elena Perdomo, JHEP 1712 (2017) 075, arXiv:1710.03229.
[deAnda:2017yeb]
[18-311]
Neutrino Mass, Leptogenesis, and Dark Matter from The Dark Sector with $U(1)_{D}$, Wei-Min Yang, JHEP 1803 (2018) 144, arXiv:1710.00691.
[Yang:2017qfj]
[18-312]
Freeze-out of baryon number in low-scale leptogenesis, S. Eijima, M. Shaposhnikov, I. Timiryasov, JCAP 1711 (2017) 030, arXiv:1709.07834.
[Eijima:2017cxr]
[18-313]
Neutrino masses, leptogenesis and dark matter from small lepton number violation?, Asmaa Abada, Giorgio Arcadi, Valerie Domcke, Michele Lucente, JCAP 1712 (2017) 024, arXiv:1709.00415.
[Abada:2017ieq]
[18-314]
From high-scale leptogenesis to low-scale one-loop neutrino mass generation, Hang Zhou, Pei-Hong Gu, Nucl.Phys. B927 (2018) 184-195, arXiv:1708.04207.
[Zhou:2017lrt]
[18-315]
Hot Leptogenesis from Thermal Dark Matter, Nicolas Bernal, Chee Sheng Fong, JCAP 1710 (2017) 042, arXiv:1707.02988.
[Bernal:2017zvx]
[18-316]
Leptogenesis and composite heavy neutrinos with gauge mediated interactions, Simone Biondini, Orlando Panella, Eur.Phys.J. C77 (2017) 644, arXiv:1707.00844.
[Biondini:2017fut]
[18-317]
Neutrino mass generation and leptogenesis via pseudo-Nambu-Goldstone Higgs portal, Tommi Alanne, Aurora Meroni, Kimmo Tuominen, Phys.Rev.D 96 (2017) 095015, arXiv:1706.10128.
[Alanne:2017sip]
[18-318]
Inflation and Leptogenesis in a $U(1)$-enhanced supersymmetric model, Y. H. Ahn, Phys.Rev. D100 (2019) 015002, arXiv:1706.09707.
[Ahn:2017dpf]
[18-319]
Spontaneous mirror left-right symmetry breaking for leptogenesis parametrized by Majorana neutrino mass matrix, Pei-Hong Gu, JHEP 1710 (2017) 016, arXiv:1706.07706.
[Gu:2017mkm]
[18-320]
A Model of Dark Matter, Leptogenesis, and Neutrino Mass from the $B-L$ Violation just above the Electroweak Scale, Wei-Min Yang, arXiv:1706.07235, 2017.
[Yang:2017qlg]
[18-321]
Generalized $\mathbb{Z}_2\times \mathbb{Z}_2$ in Scaling neutrino Majorana mass matrix and baryogenesis via flavored leptogenesis, Roopam Sinha, Rome Samanta, Ambar Ghosal, JHEP 1712 (2017) 030, arXiv:1706.00946.
[Sinha:2017rjj]
[18-322]
Full analytic solution of $SO(10)$-inspired leptogenesis, Pasquale Di Bari, Michele Re Fiorentin, JHEP 1710 (2017) 029, arXiv:1705.01935.
[DiBari:2017uka]
[18-323]
Baryogenesis from L-violating Higgs-doublet decay in the density-matrix formalism, Thomas Hambye, Daniele Teresi, Phys.Rev. D96 (2017) 015031, arXiv:1705.00016.
[Hambye:2017elz]
[18-324]
Initial condition for baryogenesis via neutrino oscillation, Takehiko Asaka, Shintaro Eijima, Hiroyuki Ishida, Kosuke Minogawa, Tomoya Yoshii, Phys.Rev. D96 (2017) 083010, arXiv:1704.02692.
[Asaka:2017rdj]
[18-325]
Neutrino Mass, Leptogenesis and FIMP Dark Matter in a ${\rm U}(1)_{\rm B-L}$ Model, Anirban Biswas, Sandhya Choubey, Sarif Khan, Eur.Phys.J. C77 (2017) 875, arXiv:1704.00819.
[Biswas:2017tce]
[18-326]
Fermion number violating effects in low scale leptogenesis, Shintaro Eijima, Mikhail Shaposhnikov, Phys.Lett. B771 (2017) 288-296, arXiv:1703.06085.
[Eijima:2017anv]
[18-327]
Baryogenesis at a Lepton-Number-Breaking Phase Transition, Andrew J. Long, Andrea Tesi, Lian-Tao Wang, JHEP 1710 (2017) 095, arXiv:1703.04902.
[Long:2017rdo]
[18-328]
Symmetry restoration due to preheating and lepton number asymmetry, Daijiro Suematsu, Phys.Rev. D96 (2017) 055015, arXiv:1703.02740.
[Suematsu:2017iki]
[18-329]
Lepton asymmetry rate from quantum field theory: NLO in the hierarchical limit, Dietrich Bodeker, Marc Sangel, JCAP 1706 (2017) 052, arXiv:1702.02155.
[Bodeker:2017deo]
[18-330]
Implications of residual CP symmetry for leptogenesis in two right-handed neutrino model, Cai-Chang Li, Gui-Jun Ding, Phys.Rev. D96 (2017) 075005, arXiv:1701.08508.
[Li:2017zmk]
[18-331]
Neutrino masses, mixing, and leptogenesis in an S3 model, Arturo Alvarez Cruz, Myriam Mondragon, arXiv:1701.07929, 2017.
[Cruz:2017add]
[18-332]
Non-thermal leptogenesis with distinct CP violation and minimal dark matter, Hang Zhou, Pei-Hong Gu, JCAP 1701 (2017) 030, arXiv:1612.06759.
[Zhou:2016jyp]
[18-333]
Reheating and Leptogenesis after Pati-Salam F-term Subcritical Hybrid Inflation, B. Charles Bryant, Zijie Poh, Stuart Raby, arXiv:1612.04382, 2016.
[Bryant:2016sjj]
[18-334]
Origin of CP violation for leptogenesis in seesaw, Pei-Hong Gu, arXiv:1612.04344, 2016.
[Gu:2016otg]
[18-335]
Dark Matter and Leptogenesis and Neutrino Mass from the TeV-scale $U(1)_{B-L}$ Violation, Wei-Min Yang, arXiv:1612.02661, 2016.
[Yang:2016kyy]
[18-336]
Affleck-Dine Leptogenesis with Varying Peccei-Quinn Scale, Kyu Jung Bae, Howard Baer, Koichi Hamaguchi, Kazunori Nakayama, JHEP 1702 (2017) 017, arXiv:1612.02511.
[Bae:2016zym]
[18-337]
Calculable Cosmological CP Violation and Resonant Leptogenesis, Avtandil Achelashvili, Zurab Tavartkiladze, Phys.Rev. D96 (2017) 015015, arXiv:1611.07956.
[Achelashvili:2016trx]
[18-338]
Seesaw Scale and CP Phases in a Minimal Model of Leptogenesis, Siyeon Kim, J.Korean Phys.Soc. 69 (2016) 1638-1643, arXiv:1611.04572.
[Siyeon:2016wro]
[18-339]
Naturalness, Vacuum Stability and Leptogenesis in the Minimal Seesaw Model, Gulab Bambhaniya, P. S. Bhupal Dev, Srubabati Goswami, Subrata Khan, Werner Rodejohann, Phys.Rev. D95 (2017) 095016, arXiv:1611.03827.
[Bambhaniya:2016rbb]
[18-340]
High-scale leptogenesis with three-loop neutrino mass generation and dark matter, Pei-Hong Gu, JHEP 1704 (2017) 159, arXiv:1611.03256.
[Gu:2016xno]
[18-341]
Mixed Inert Scalar Triplet Dark Matter, Radiative Neutrino Masses and Leptogenesis, Wen-Bin Lu, Pei-Hong Gu, Nucl.Phys. B924 (2017) 279-311, arXiv:1611.02106.
[Lu:2016dbc]
[18-342]
Baryon asymmetry via leptogenesis in a neutrino mass model with complex scaling, Rome Samanta, Mainak Chakraborty, Probir Roy, Ambar Ghosal, JCAP 1703 (2017) 025, arXiv:1610.10081.
[Samanta:2016hcj]
[18-343]
Testing the low scale seesaw and leptogenesis, Marco Drewes, Bjorn Garbrecht, Dario Gueter, Juraj Klaric, JHEP 1708 (2017) 018, arXiv:1609.09069.
[Drewes:2016jae]
[18-344]
Baryogenesis via leptonic CP-violating phase transition, Silvia Pascoli, Jessica Turner, Ye-Ling Zhou, Phys.Lett. B780 (2018) 313-318, arXiv:1609.07969.
[Pascoli:2016gkf]
[18-345]
Revisiting gravitino dark matter in thermal leptogenesis, Masahiro Ibe, Motoo Suzuki, Tsutomu T. Yanagida, JHEP 1702 (2017) 063, arXiv:1609.06834.
[Ibe:2016gir]
[18-346]
Leptogenesis in a $\Delta(27) \times SO(10)$ SUSY GUT, Fredrik Bjorkeroth, Francisco J. de Anda, Ivo de Medeiros Varzielas, Stephen F. King, JHEP 1701 (2017) 077, arXiv:1609.05837.
[Bjorkeroth:2016lzs]
[18-347]
Leptogenesis and neutral gauge bosons, Julian Heeck, Daniele Teresi, Phys. Rev. D94 (2016) 095024, arXiv:1609.03594.
[Heeck:2016oda]
[18-348]
Unifying inflation with the axion, dark matter, baryogenesis and the seesaw mechanism, Guillermo Ballesteros, Javier Redondo, Andreas Ringwald, Carlos Tamarit, Phys.Rev.Lett. 118 (2017) 071802, arXiv:1608.05414.
[Ballesteros:2016euj]
[18-349]
The reheating era leptogenesis in models with seesaw mechanism, Yuta Hamada, Koji Tsumura, Daiki Yasuhara, Phys.Rev. D95 (2017) 103505, arXiv:1608.05256.
[Hamada:2016npz]
[18-350]
Leptogenesis after Chaotic Sneutrino Inflation and the Supersymmetry Breaking Scale, Fredrik Bjorkeroth, Stephen F. King, Kai Schmitz, Tsutomu T. Yanagida, Nucl. Phys. B916 (2017) 688-708, arXiv:1608.04911.
[Bjorkeroth:2016qsk]
[18-351]
Standard Coupling Unification in SO(10), Hybrid Seesaw Neutrino Mass and Leptogenesis, Dark Matter, and Proton Lifetime Predictions, M. K. Parida, Bidyut Prava Nayak, Rajesh Satpathy, Ram Lal Awasthi, JHEP 1704 (2017) 075, arXiv:1608.03956.
[Parida:2016hln]
[18-352]
Common Origin of Neutrino Mass, Dark Matter and Dirac Leptogenesis, Debasish Borah, Arnab Dasgupta, JCAP 1612 (2016) 034, arXiv:1608.03872.
[Borah:2016zbd]
[18-353]
CP asymmetry in heavy Majorana neutrino decays at finite temperature: the hierarchical case, Simone Biondini, Nora Brambilla, Antonio Vairo, JHEP 1609 (2016) 126, arXiv:1608.01979.
[Biondini:2016arl]
[18-354]
Leptogenesis in a neutrino mass model coupled with inflaton, Daijiro Suematsu, Phys.Lett. B760 (2016) 538-543, arXiv:1606.07884.
[Suematsu:2016vgz]
[18-355]
Leptogenesis from Oscillations of Heavy Neutrinos with Large Mixing Angles, Marco Drewes, Bjorn Garbrecht, Dario Gueter, Juraj Klaric, JHEP 1612 (2016) 150, arXiv:1606.06690.
[Drewes:2016gmt]
[18-356]
Unifying leptogenesis, dark matter and high-energy neutrinos with right-handed neutrino mixing via Higgs portal, Pasquale Di Bari, Patrick Otto Ludl, Sergio Palomares-Ruiz, JCAP 1611 (2016) 044, arXiv:1606.06238.
[DiBari:2016guw]
[18-357]
Neutrinoless double $\beta$ decay and low scale leptogenesis, Marco Drewes, Shintaro Eijima, Phys.Lett. B763 (2016) 72-79, arXiv:1606.06221.
[Drewes:2016lqo]
[18-358]
A consistent model for leptogenesis, dark matter and the IceCube signal, M. Re Fiorentin, V. Niro, N. Fornengo, JHEP 1611 (2016) 022, arXiv:1606.04445.
[ReFiorentin:2016rzn]
[18-359]
Higgs doublet decay as the origin of the baryon asymmetry, Thomas Hambye, Daniele Teresi, Phys. Rev. Lett. 117 (2016) 091801, arXiv:1606.00017.
[Hambye:2016sby]
[18-360]
Dark Matter and Leptogenesis Linked by Classical Scale Invariance, Valentin V. Khoze, Alexis D. Plascencia, JHEP 1611 (2016) 025, arXiv:1605.06834.
[Khoze:2016zfi]
[18-361]
A minimal model of TeV scale WIMPy leptogenesis, Arnab Dasgupta, Chandan Hati, Sudhanwa Patra, Utpal Sarkar, arXiv:1605.01292, 2016.
[Dasgupta:2016odo]
[18-362]
Leptogenesis and gravity: baryon asymmetry without decays, J. I. McDonald, G. M. Shore, Phys.Lett. B766 (2017) 162-169, arXiv:1604.08213.
[McDonald:2016ehm]
[18-363]
Leptogenesis via the 750 GeV pseudoscalar, Alexander Kusenko, Lauren Pearce, Louis Yang, Phys. Rev. D93 (2016) 115005, arXiv:1604.02382.
[Kusenko:2016vcq]
[18-364]
Generation of hypermagnetic helicity and leptogenesis in early universe, V.B. Semikoz, Alexander Yu. Smirnov, D.D. Sokoloff, Phys. Rev. D93 (2016) 103003, arXiv:1604.02273.
[Semikoz:2016lqv]
[18-365]
Non-conservation of the neutrino current in a hot plasma of the early universe, Maxim Dvornikov, Victor B. Semikoz, J.Exp.Theor.Phys. 124 (2017) 731-739, arXiv:1603.07946.
[Dvornikov:2016gdo]
[18-366]
Leptogenesis, radiative neutrino masses and inert Higgs triplet dark matter, Wen-Bin Lu, Pei-Hong Gu, JCAP 1605 (2016) 040, arXiv:1603.05074.
[Lu:2016ucn]
[18-367]
Peccei-Quinn symmetry for Dirac seesaw and leptogenesis, Pei-Hong Gu, JCAP 1607 (2016) 004, arXiv:1603.05070.
[Gu:2016hxh]
[18-368]
A Model for Pseudo-Dirac Neutrinos: Leptogenesis and Ultra-High Energy Neutrinos, Y. H. Ahn, Sin Kyu Kang, C. S. Kim, JHEP 1610 (2016) 092, arXiv:1602.05276.
[Ahn:2016hhq]
[18-369]
Flavor and CP symmetries for leptogenesis and 0nubb decay, Claudia Hagedorn, Emiliano Molinaro, Nucl.Phys. B919 (2017) 404-469, arXiv:1602.04206.
[Hagedorn:2016lva]
[18-370]
Leptogenesis and residual CP symmetry, Peng Chen, Gui-Jun Ding, Stephen F. King, JHEP 1603 (2016) 206, arXiv:1602.03873.
[Chen:2016ptr]
[18-371]
Why three generations?, Masahiro Ibe, Alexander Kusenko, Tsutomu T. Yanagida, Phys.Lett. B758 (2016) 365-369, arXiv:1602.03003.
[Ibe:2016yfo]
[18-372]
TeV scale Leptogenesis from decay of next to lightest Neutralino, Rathin Adhikari, Arnab Dasgupta, Eur.Phys.J.C 81 (2021) 655, arXiv:1602.02684.
[Adhikari:2016yyu]
[18-373]
Lepton asymmetry from mixing and oscillations, Alexander Kartavtsev, Peter Millington, Hendrik Vogel, JHEP 1606 (2016) 066, arXiv:1601.03086.
[Kartavtsev:2015vto]
[18-374]
A possible relation between leptogenesis and PMNS phases, Jihn E. Kim, Bumseok Kyae, Phys. Rev. D94 (2016) 065004, arXiv:1601.00411.
[Covi:2016qla]
[18-375]
Supersymmetric $SO(10)$-inspired leptogenesis and a new $N_2$-dominated scenario, Pasquale Di Bari, Michele Re Fiorentin, JCAP 1603 (2016) 039, arXiv:1512.06739.
[DiBari:2015svd]
[18-376]
Leptogenesis from loop effects in curved spacetime, Jamie I. McDonald, Graham M. Shore, JHEP 1604 (2016) 030, arXiv:1512.02238.
[McDonald:2015iwt]
[18-377]
Leptogenesis parametrized by lepton mass matrices, Pei-Hong Gu, Xiao-Gang He, Eur.Phys.J. C76 (2016) 515, arXiv:1511.03835.
[Gu:2015wkd]
[18-378]
Neutrino dark energy and leptogenesis with TeV scale triplets, Chandan Hati, Utpal Sarkar, Eur.Phys.J. C76 (2016) 236, arXiv:1511.02874.
[Hati:2015hvq]
[18-379]
CP asymmetry in heavy Majorana neutrino decays at finite temperature: the nearly degenerate case, Simone Biondini, Nora Brambilla, Miguel Angel Escobedo, Antonio Vairo, JHEP 1603 (2016) 191, arXiv:1511.02803.
[Biondini:2015gyw]
[18-380]
Affleck-Dine leptogenesis and its backreaction to inflaton dynamics, Masaki Yamada, Phys. Lett. B754 (2016) 208-213, arXiv:1510.08514.
[Yamada:2015rza]
[18-381]
Type-IV Seesaw Mechanism and CP Violation for Leptogenesis, Edison T. Franco, Phys. Rev. D92 (2015) 113010, arXiv:1510.06240.
[Franco:2015pva]
[18-382]
Minimal leptogenesis, Yuta Hamada, Kiyoharu Kawana, Phys.Lett. B763 (2016) 388-392, arXiv:1510.05186.
[Hamada:2015xva]
[18-383]
Completing constrained flavor violation: lepton masses, neutrinos and leptogenesis, James M. Cline, Alfonso Diaz-Furlong, Jing Ren, Phys. Rev. D93 (2016) 036009, arXiv:1510.04688.
[Cline:2015yba]
[18-384]
Leptogenesis scenarios for natural SUSY with mixed axion-higgsino dark matter, Kyu Jung Bae, Howard Baer, Hasan Serce, Yi-Fan Zhang, JCAP 1601 (2016) 012, arXiv:1510.00724.
[Bae:2015efa]
[18-385]
Natural Relaxation, Luca Marzola, Martti Raidal, Mod.Phys.Lett. A31 (2016) 1650215, arXiv:1510.00710.
[Marzola:2015dia]
[18-386]
Exotic see-saw mechanism for neutrini and leptogenesis in a Pati-Salam model, Andrea Addazi, Massimo Bianchi, Giulia Ricciardi, JHEP 02 (2016) 035, arXiv:1510.00243.
[Addazi:2015yna]
[18-387]
Spontaneous CP Violation in Lepton-sector: a common origin for $\theta_{13}$, Dirac CP phase and leptogenesis, Biswajit Karmakar, Arunansu Sil, Phys. Rev. D93 (2016) 013006, arXiv:1509.07090.
[Karmakar:2015jza]
[18-388]
Dilepton events with displaced vertices, double beta decay, and resonant leptogenesis with Type-II seesaw dominance, TeV scale $Z'$ and RH neutrinos, Bidyut Prava Nayak, M. K. Parida, arXiv:1509.06192, 2015.
[Nayak:2015zka]
[18-389]
Fermion Masses and Leptogenesis from The Left-Right Symmetric Model, Wei-Min Yang, arXiv:1509.03716, 2015.
[Yang:2015dca]
[18-390]
Leptogenesis in an SU(5) x A5 Golden Ratio Flavour Model: Addendum, Julia Gehrlein, Serguey T. Petcov, Martin Spinrath, Xinyi Zhang, Nucl. Phys. B899 (2015) 617-630, arXiv:1508.07930.
[Gehrlein:2015dza]
[18-391]
Leptogenesis in $E_6 \times U(1)_A$ SUSY GUT model, Takuya Ishihara, Nobuhiro Maekawa, Mao Takegawa, Masato Yamanaka, JHEP 02 (2016) 108, arXiv:1508.06212.
[Ishihara:2015uua]
[18-392]
Constraining Type I Seesaw with $A_4$ Flavor Symmetry From Neutrino Data and Leptogenesis, Rupam Kalita, Debasish Borah, Phys. Rev. D92 (2015) 055012, arXiv:1508.05466.
[Kalita:2015jaa]
[18-393]
Radiatively-induced gravitational leptogenesis, J. I. McDonald, G. M. Shore, Phys. Lett. B751 (2015) 469-473, arXiv:1508.04119.
[McDonald:2015ooa]
[18-394]
Leptogenesis in GeV scale seesaw models, P. Hernandez, M.Kekic, J. Lopez-Pavon, J. Racker, N. Rius, JHEP 10 (2015) 067, arXiv:1508.03676.
[Hernandez:2015wna]
[18-395]
Leptogenesis from left-handed neutrino production during axion inflation, Peter Adshead, Evangelos I. Sfakianakis, Phys. Rev. Lett. 116 (2016) 091301, arXiv:1508.00881.
[Adshead:2015jza]
[18-396]
Basis invariant description of chemical equilibrium with implications for a recent axionic leptogenesis model, Bowen Shi, Stuart Raby, Phys. Rev. D92 (2015) 085008, arXiv:1507.08392.
[Shi:2015zwa]
[18-397]
Successful $N_2$ leptogenesis with flavour coupling effects in realistic unified models, Pasquale Di Bari, Stephen F. King, JCAP 1510 (2015) 008, arXiv:1507.06431.
[DiBari:2015oca]
[18-398]
Lepton number violation as a key to low-scale leptogenesis, Asmaa Abada, Giorgio Arcadi, Valerie Domcke, Michele Lucente, JCAP 1511 (2015) 041, arXiv:1507.06215.
[Abada:2015rta]
[18-399]
Mass Bounds on Light and Heavy Neutrinos from Radiative MFV Leptogenesis, Apostolos Pilaftsis, Daniele Teresi, Phys. Rev. D92 (2015) 085016, arXiv:1506.08124.
[Pilaftsis:2015bja]
[18-400]
A model realizing inverse seesaw and resonant leptogenesis, Mayumi Aoki, Naoyuki Haba, Ryo Takahashi, PTEP 2015 (2015) 113B03, arXiv:1506.06946.
[Aoki:2015owa]
[18-401]
Leptogenesis via Higgs Relaxation, Louis Yang, Lauren Pearce, Alexander Kusenko, Phys. Rev. D92 (2015) 043506, arXiv:1505.07912.
[Yang:2015ida]
[18-402]
Natural leptogenesis and neutrino masses with two Higgs doublets, Jackson D. Clarke, Robert Foot, Raymond R. Volkas, Phys. Rev. D92 (2015) 033006, arXiv:1505.05744.
[Clarke:2015hta]
[18-403]
Leptogenesis in minimal predictive seesaw models, Fredrik Bjorkeroth, Francisco J. de Anda, Ivo de Medeiros Varzielas, Stephen F. King, JHEP 10 (2015) 104, arXiv:1505.05504.
[Bjorkeroth:2015tsa]
[18-404]
Two Loop Neutrino Model with Dark Matter and Leptogenesis, Shoichi Kashiwase, Hiroshi Okada, Yuta Orikasa, Takashi Toma, Int.J.Mod.Phys. A31 (2016) 1650121, arXiv:1505.04665.
[Kashiwase:2015pra]
[18-405]
Leptogenesis Via Neutrino Production During Higgs Relaxation, Lauren Pearce, Louis Yang, Alexander Kusenko, Marco Peloso, Phys. Rev. D92 (2015) 023509, arXiv:1505.02461.
[Pearce:2015nga]
[18-406]
Addendum to 'Flavour Covariant Transport Equations: an Application to Resonant Leptogenesis', P.S. Bhupal Dev, Peter Millington, Apostolos Pilaftsis, Daniele Teresi, Nucl. Phys. B897 (2015) 749, arXiv:1504.07640.
[Dev:2015wpa]
[18-407]
Spontaneous thermal Leptogenesis via Majoron oscillation, Masahiro Ibe, Kunio Kaneta, Phys. Rev. D92 (2015) 035019, arXiv:1504.04125.
[Ibe:2015nfa]
[18-408]
A Model of Asymmetric Hadronic Dark Matter and Leptogenesis, Wei-Min Yang, arXiv:1503.08899, 2015.
[Yang:2015ssa]
[18-409]
Leptogenesis in the Symmetric Phase of the Early Universe: Baryon Asymmetry and Hypermagnetic Helicity Evolution, Victor B. Semikoz, Alexander Yu. Smirnov, J.Exp.Theor.Phys. 120 (2015) 217-225, arXiv:1503.06758.
[Semikoz:2015wsa]
[18-410]
Flavour always matters in scalar triplet leptogenesis, Stephane Lavignac, Benoit Schmauch, JHEP 1505 (2015) 124, arXiv:1503.00629.
[Lavignac:2015gpa]
[18-411]
Confronting Four Zero Neutrino Yukawa Textures with $N_2^{}$-dominated Leptogenesis, Jue Zhang, Phys. Rev. D91 (2015) 073012, arXiv:1502.04043.
[Zhang:2015qia]
[18-412]
Electroweak naturalness in three-flavour Type I see-saw and implications for leptogenesis, Jackson D. Clarke, Robert Foot, Raymond R. Volkas, Phys. Rev. D91 (2015) 073009, arXiv:1502.01352.
[Clarke:2015gwa]
[18-413]
Leptogenesis in an SU(5) x A5 Golden Ratio Flavour Model, Julia Gehrlein, Serguey T. Petcov, Martin Spinrath, Xinyi Zhang, Nucl. Phys. B896 (2015) 311, arXiv:1502.00110.
[Gehrlein:2015dxa]
[18-414]
Nonthermal CP Violation in Soft Leptogenesis, Rathin Adhikari, Arnab Dasgupta, Chee Sheng Fong, Raghavan Rangarajan, Phys. Rev. D91 (2015) 096001, arXiv:1501.06310.
[Adhikari:2015ysa]
[18-415]
Inflation and leptogenesis in the 3-3-1-1 model, D. T. Huong, P. V. Dong, C. S. Kim, N. T. Thuy, Phys. Rev. D91 (2015) 055023, arXiv:1501.00543.
[Huong:2015dwa]
[18-416]
Tree level Leptogenesis from Kalb-Ramond Torsion Background, M. de Cesare, Nick E. Mavromatos, Sarben Sarkar, Eur. Phys. J. C75 (2015) 514, arXiv:1412.7077.
[deCesare:2014dga]
[18-417]
keV Sterile Neutrino Dark Matter and Low Scale Leptogenesis, Sin Kyu Kang, Ayon Patra, J.Korean Phys.Soc. 69 (2016) 1375-1382, arXiv:1412.4899.
[Kang:2014mea]
[18-418]
Leptogenesis in SO(10), Chee Sheng Fong, Davide Meloni, Aurora Meroni, Enrico Nardi, JHEP 1501 (2015) 111, arXiv:1412.4776.
[Fong:2014gea]
[18-419]
Leptogenesis via axion oscillations after inflation, Alexander Kusenko, Kai Schmitz, Tsutomu T. Yanagida, Phys. Rev. Lett. 115 (2015) 011302, arXiv:1412.2043.
[Kusenko:2014uta]
[18-420]
Decrypting $SO(10)$-inspired leptogenesis, Pasquale Di Bari, Luca Marzola, Michele Re Fiorentin, Nucl. Phys. B893 (2015) 122-157, arXiv:1411.5478.
[DiBari:2014eya]
[18-421]
Phenomenology of Baryogenesis from Lepton-Doublet Mixing, Bjorn Garbrecht, Ignacio Izaguirre, Nucl. Phys. B896 (2015) 412-439, arXiv:1411.2834.
[Garbrecht:2014iia]
[18-422]
Right-handed neutrino production rate at T > 160 GeV, I. Ghisoiu, M. Laine, JCAP 1412 (2014) 032, arXiv:1411.1765.
[Ghisoiu:2014ena]
[18-423]
Kadanoff-Baym Approach to Flavour Mixing and Oscillations in Resonant Leptogenesis, P.S. Bhupal Dev, Peter Millington, Apostolos Pilaftsis, Daniele Teresi, Nucl. Phys. B891 (2015) 128-158, arXiv:1410.6434.
[BhupalDev:2014oar]
[18-424]
An SO(10) $\times$ SO(10)' model for common origin of neutrino masses, ordinary and dark matter-antimatter asymmetries, Pei-Hong Gu, JCAP 1412 (2014) 046, arXiv:1410.5759.
[Gu:2014nga]
[18-425]
A new leptogenesis scenario with predictions on $\sum m_\nu$ and $J_{CP}$, Pei-Hong Gu, Phys.Rev. D96 (2017) 075024, arXiv:1410.5753.
[Gu:2014mga]
[18-426]
Postinflationary Higgs relaxation and the origin of matter-antimatter asymmetry, Alexander Kusenko, Lauren Pearce, Louis Yang, Phys. Rev. Lett. 114 (2015) 061302, arXiv:1410.0722.
[Kusenko:2014lra]
[18-427]
Sterile Neutrino Dark Matter and Low Scale Leptogenesis from a Charged Scalar, Michele Frigerio, Carlos E. Yaguna, Eur.Phys.J. C75 (2015) 31, arXiv:1409.0659.
[Frigerio:2014ifa]
[18-428]
Neutrino Mixing and Leptogenesis in $\mu-\tau$ Symmetry, E. I. Lashin, N. Chamoun, C. Hamzaoui, S. Nasri, Phys. Rev. D91 (2015) 113014, arXiv:1408.5042.
[Lashin:2014wpa]
[18-429]
Perturbations to $\mu-\tau$ Symmetry, Leptogenesis and Lepton Flavour Violation with Type II Seesaw, Manikanta Borah, Debasish Borah, Mrinal Kumar Das, Sudhanwa Patra, Phys. Rev. D90 (2014) 095020, arXiv:1408.3191.
[Borah:2014bda]
[18-430]
Leptogenesis Constraints on the Mass of Right-handed Gauge Bosons, P. S. Bhupal Dev, Chang-Hun Lee, R. N. Mohapatra, Phys. Rev. D90 (2014) 095012, arXiv:1408.2820.
[BhupalDev:2014hro]
[18-431]
Leptogenesis and the Higgs Portal, Matthias Le Dall, Adam Ritz, Phys. Rev. D90 (2014) 096002, arXiv:1408.2498.
[LeDall:2014too]
[18-432]
Flavored leptogenesis in broken cyclic symmetric model, Biswajit Adhikary, Mainak Chakraborty, Ambar Ghosal, Phys. Rev. D93 (2016) 113001, arXiv:1407.6173.
[Adhikary:2014qba]
[18-433]
Nonzero $\theta_{13}$ and Leptogenesis in a Type-I See-saw Model with $A_4$ Symmetry, Biswajit Karmakar, Arunansu Sil, Phys. Rev. D91 (2015) 013004, arXiv:1407.5826.
[Karmakar:2014dva]
[18-434]
Strong Washout Approximation to Resonant Leptogenesis, Bjorn Garbrecht, Florian Gautier, Juraj Klaric, JCAP 1409 (2014) 033, arXiv:1406.4190.
[Garbrecht:2014aga]
[18-435]
Post-Sphaleron baryogenesis and $n-\bar{n}$ oscillation in non-SUSY SO(10) GUT with gauge coupling unification and proton decay, Sudhanwa Patra, Prativa Pritimita, Eur.Phys.J. C74 (2014) 3078, arXiv:1405.6836.
[Patra:2014goa]
[18-436]
The Dark Side of $\theta_{13}$, Leptogenesis and Inflation in Type-I Seesaw, Wei-Chih Huang, JHEP 1411 (2014) 083, arXiv:1405.5886.
[Huang:2014jaa]
[18-437]
Leptogenesis with a dynamical seesaw scale, D. Aristizabal Sierra, M. Tortola, J. W. F. Valle, A. Vicente, JCAP 1407 (2014) 052, arXiv:1405.4706.
[AristizabalSierra:2014uzi]
[18-438]
Lab-to-Genesis, Laurent Canetti, Marco Drewes, Bjorn Garbrecht, Phys. Rev. D90 (2014) 125005, arXiv:1404.7114.
[Canetti:2014dka]
[18-439]
Leptogenesis in crossing and runaway regimes, A. Hohenegger, A. Kartavtsev, JHEP 1407 (2014) 130, arXiv:1404.5309.
[Hohenegger:2014cpa]
[18-440]
Coherent Flavour Oscillation and CP Violating Parameter in Thermal Resonant Leptogenesis, Satoshi Iso, Kengo Shimada, JHEP 1408 (2014) 043, arXiv:1404.4816.
[Iso:2014afa]
[18-441]
Flavour Covariant Transport Equations: an Application to Resonant Leptogenesis, P. S. Bhupal Dev, Peter Millington, Apostolos Pilaftsis, Daniele Teresi, Nucl. Phys. B886 (2014) 569-664, arXiv:1404.1003.
[BhupalDev:2014pfm]
[18-442]
Commutators of lepton mass matrices associated with seesaw and leptogenesis, Yikun Wang, Zhi-zhong Xing, Phys. Rev. D89 (2014) 097301, arXiv:1404.0109.
[Wang:2014lla]
[18-443]
Neutrino masses, leptogenesis, and sterile neutrino dark matter, Takanao Tsuyuki, Phys. Rev. D90 (2014) 013007, arXiv:1403.5053.
[Tsuyuki:2014aia]
[18-444]
Kubo relations and radiative corrections for lepton number washout, D. Bodeker, M. Laine, JCAP 1405 (2014) 041, arXiv:1403.2755.
[Bodeker:2014hqa]
[18-445]
The Electroweak Vacuum Angle, Pavel Fileviez Perez, Hiren H. Patel, Phys.Lett. B732 (2014) 241, arXiv:1402.6340.
[FileviezPerez:2014xju]
[18-446]
Baryon Asymmetry in Neutrino Mass Models with and without $\theta_{13}$, Ng. K. Francis, arXiv:1401.8186, 2014.
[Francis:2014tea]
[18-447]
Chiral Gravity Waves and Leptogenesis in Inflationary Models with non-Abelian Gauge Fields, Azadeh Maleknejad, Phys. Rev. D90 (2014) 023542, arXiv:1401.7628.
[Maleknejad:2014wsa]
[18-448]
Neutrino mass from neutrinophilic Higgs and leptogenesis, Naoyuki Haba, Osamu Seto, Yuya Yamaguchi, arXiv:1401.6646, 2014.
[Haba:2014ita]
[18-449]
Strong thermal leptogenesis and the absolute neutrino mass scale, Pasquale Di Bari, Sophie King, Michele Re Fiorentin, JCAP 1403 (2014) 050, arXiv:1401.6185.
[DiBari:2014eqa]
[18-450]
Scalar triplet flavored leptogenesis: a systematic approach, D. Aristizabal Sierra, Mikael Dhen, Thomas Hambye, JCAP 1408 (2014) 003, arXiv:1401.4347.
[AristizabalSierra:2014nzr]
[18-451]
More Viable Parameter Space for Leptogenesis, Bjorn Garbrecht, Phys. Rev. D90 (2014) 063522, arXiv:1401.3278.
[Garbrecht:2014bfa]
[18-452]
Baryogenesis through Neutrino Oscillations: A Unified Perspective, Brian Shuve, Itay Yavin, Phys. Rev. D89 (2014) 075014, arXiv:1401.2459.
[Shuve:2014zua]
[18-453]
Leptogenesis and CP violation in SU(5) models with lepton flavor mixing originating from the right-handed sector, Heinrich Pas, Erik Schumacher, Phys. Rev. D89 (2014) 096010, arXiv:1401.2328.
[Pas:2014bra]
[18-454]
Kadanoff-Baym approach to the thermal resonant leptogenesis, Satoshi Iso, Kengo Shimada, Masato Yamanaka, JHEP 1404 (2014) 062, arXiv:1312.7680.
[Iso:2013lba]
[18-455]
Triplet Dark Matter from leptogenesis, Jae Ho Heo, Phys. Rev. D89 (2014) 087704, arXiv:1312.6217.
[Heo:2013xxa]
[18-456]
Falsifying Leptogenesis at the LHC, Frank F. Deppisch, Julia Harz, Martin Hirsch, Phys. Rev. Lett. 112 (2014) 221601, arXiv:1312.4447.
[Deppisch:2013jxa]
[18-457]
Non-relativistic leptogenesis, Dietrich Bodeker, Mirco Wormann, JCAP 1402 (2014) 016, arXiv:1311.2593.
[Bodeker:2013qaa]
[18-458]
Partial $\mu-\tau$ Textures and Leptogenesis, Cherif Hamzaoui, Salah Nasri, Manuel Toharia, Phys. Rev. D89 (2014) 073019, arXiv:1311.2188.
[Hamzaoui:2013twa]
[18-459]
Gravitino LSP and Leptogenesis after the first LHC results, Jan Heisig, JCAP 1404 (2014) 023, arXiv:1310.6352.
[Heisig:2013sva]
[18-460]
Inflation, Leptogenesis, and Yukawa Quasi-Unification within a Supersymmetric Left-Right Model, R. Armillis, G. Lazarides, C. Pallis, Phys. Rev. D89 (2014) 065032, arXiv:1309.6986.
[Armillis:2013fla]
[18-461]
Cloistered Baryogenesis, D. Aristizabal Sierra, Chee Sheng Fong, Enrico Nardi, Eduardo Peinado, JCAP 1402 (2014) 013, arXiv:1309.4770.
[AristizabalSierra:2013lyx]
[18-462]
Hypermagnetic helicity evolution in early universe: leptogenesis and hypermagnetic diffusion, V.B. Semikoz, A.Yu. Smirnov, D.D. Sokoloff, JCAP 1310 (2013) 014, arXiv:1309.4302.
[Semikoz:2013xkc]
[18-463]
Gravitino Leptogenesis, Lawrence M. Krauss, Andrew J. Long, Subir Sabharwal, Phys. Rev. D89 (2014) 043503, arXiv:1309.1454.
[Krauss:2013dia]
[18-464]
WIMPy Leptogenesis With Absorptive Final State Interactions, Jason Kumar, Patrick Stengel, Phys. Rev. D89 (2014) 055016, arXiv:1309.1145.
[Kumar:2013uca]
[18-465]
Mass bounds for baryogenesis from particle decays and the inert doublet model, J. Racker, JCAP 1403 (2014) 025, arXiv:1308.1840.
[Racker:2013lua]
[18-466]
SO(10)-inspired solution to the problem of the initial conditions in leptogenesis, Pasquale Di Bari, Luca Marzola, Nucl. Phys. B877 (2013) 719-751, arXiv:1308.1107.
[DiBari:2013qja]
[18-467]
Thermal right-handed neutrino production rate in the relativistic regime, M. Laine, JHEP 1308 (2013) 138, arXiv:1307.4909.
[Laine:2013lka]
[18-468]
Leptogenesis and Neutrino Oscillations in the Classically Conformal Standard Model with the Higgs Portal, Valentin V. Khoze, Gunnar Ro, JHEP 1310 (2013) 075, arXiv:1307.3764.
[Khoze:2013oga]
[18-469]
Leptogenesis with Lepton-Number-Violating Dirac Neutrinos, Julian Heeck, Phys. Rev. D 88, 076004 (2013) 076004, arXiv:1307.2241.
[Heeck:2013vha]
[18-470]
Cuts, Cancellations and the Closed Time Path: The Soft Leptogenesis Example, Bjorn Garbrecht, Michael J. Ramsey-Musolf, Nucl. Phys. B882 (2014) 145-170, arXiv:1307.0524.
[Garbrecht:2013iga]
[18-471]
A dynamical CP source for CKM, PMNS and Leptogenesis, Y. H. Ahn, Seungwon Baek, Phys. Rev. D88 (2014) 036017, arXiv:1306.4138.
[Vien:2014gza]
[18-472]
Correlations between low energy leptonic CP violation and leptogenesis in the light of recent experiments, H. Zeen Devi, Int.J.Mod.Phys. A29 (2014) 1450104, arXiv:1306.2426.
[Devi:2013qgy]
[18-473]
Neutrino spectral density at electroweak scale temperature, Kohtaroh Miura, Yoshimasa Hidaka, Daisuke Satow, Teiji Kunihiro, Phys. Rev. D88 (2013) 065024, arXiv:1306.1701.
[Miura:2013fxa]
[18-474]
New ways to TeV scale leptogenesis, Chee Sheng Fong, M.C. Gonzalez-Garcia, Enrico Nardi, Eduardo Peinado, JHEP 1308 (2013) 104, arXiv:1305.6312.
[Fong:2013gaa]
[18-475]
Resonant leptogenesis with mild degeneracy, Naoyuki Haba, Osamu Seto, Yuya Yamaguchi, Phys. Rev. D87 (2013) 123540, arXiv:1305.2484.
[Haba:2013pca]
[18-476]
Post-Sphaleron Baryogenesis and an Upper Limit on the Neutron-Antineutron Oscillation Time, K.S. Babu, P.S. Bhupal Dev, Elaine C.F.S. Fortes, R.N. Mohapatra, Phys. Rev. D87 (2013) 115019, arXiv:1303.6918.
[Babu:2013yca]
[18-477]
Scattering Rates For Leptogenesis: Damping of Lepton Flavour Coherence and Production of Singlet Neutrinos, Bjorn Garbrecht, Frank Glowna, Pedro Schwaller, Nucl. Phys. B877 (2013) 1-35, arXiv:1303.5498.
[Garbrecht:2013bia]
[18-478]
Hierarchical Neutrino Masses and Leptogenesis in Type I+II Seesaw Models, Debasish Borah, Mrinal Kumar Das, Phys. Rev. D90 (2014) 015006, arXiv:1303.1758.
[Borah:2013bza]
[18-479]
Right-Handed Neutrino Production at Finite Temperature: Radiative Corrections, Soft and Collinear Divergences, Bjorn Garbrecht, Frank Glowna, Matti Herranen, JHEP 1304 (2013) 099, arXiv:1302.0743.
[Garbrecht:2013gd]
[18-480]
Leptogenesis in a TeV scale neutrino mass model with inverted mass hierarchy, Shoichi Kashiwase, Daijiro Suematsu, Eur.Phys.J. C73 (2013) 2484, arXiv:1301.2087.
[Kashiwase:2013uy]
[18-481]
A Model of Fermion Flavor and Leptogenesis and Cold Dark Matter, Wei-Min Yang, Phys. Rev. D87 (2013) 095003, arXiv:1301.0076.
[Yang:2013ra]
[18-482]
Consequences of f(R)-theories of gravity on gravitational leptogenesis, G. Lambiase, S. Mohanty, L. Pizza, Gen.Rel.Grav. 45 (2013) 1771-1785, arXiv:1212.6026.
[Lambiase:2012tn]
[18-483]
Hidden from View: Neutrino Masses, Dark Matter and TeV-Scale Leptogenesis in a Neutrinophilic 2HDM, Wei Chao, Michael J. Ramsey-Musolf, Phys. Rev. D89 (2014) 033007, arXiv:1212.5709.
[Chao:2012pt]
[18-484]
Dark matter asymmetry in supersymmetric Dirac leptogenesis, Ki-Young Choi, Eung Jin Chun, Chang Sub Shin, Phys.Lett. B723 (2013) 90-94, arXiv:1211.5409.
[Choi:2012ba]
[18-485]
CPT-Violating Leptogenesis induced by Gravitational Defects, Nick E. Mavromatos, Sarben Sarkar, Eur.Phys.J. C73 (2013) 2359, arXiv:1211.0968.
[Mavromatos:2012ii]
[18-486]
Triplet Scalar Dark Matter and Leptogenesis in an Inverse See-Saw Model of Neutrino Mass Generation, Francois-Xavier Josse-Michaux, Emiliano Molinaro, Phys. Rev. D87 (2013) 036007, arXiv:1210.7202.
[Josse-Michaux:2012oqz]
[18-487]
Baryon asymmetry and dark matter from soft leptogenesis, Heidi Kuismanen, Iiro Vilja, Phys. Rev. D87 (2013) 015005, arXiv:1210.4335.
[Kuismanen:2012iz]
[18-488]
Baryogenesis from Mixing of Lepton Doublets, Bjorn Garbrecht, Nucl. Phys. B868 (2013) 557-576, arXiv:1210.0553.
[Garbrecht:2012pq]
[18-489]
Smooth Hybrid Inflation and Non-Thermal Type II Leptogenesis, Shaaban Khalil, Qaisar Shafi, Arunansu Sil, Phys. Rev. D86 (2012) 073004, arXiv:1208.0731.
[Khalil:2012nd]
[18-490]
Leptogenesis and Neutrino Masses in an Inflationary SUSY Pati-Salam Model, C. Pallis, N. Toumbas, arXiv:1207.3730, 2012.
[Pallis:2012zd]
[18-491]
Non-zero $\theta_{13}$ from the Triangular Ansatz and Leptogenesis, H. B. Benaoum, Mod. Phys. Lett. A27 (2012) 1250151, arXiv:1207.1967.
[Benaoum:2012my]
[18-492]
Minimal Flavor Violation in the Minimal $U(1)_{B-L}$ Model and Resonant Leptogenesis, Nobuchika Okada, Yuta Orikasa, Toshifumi Yamada, Phys. Rev. D86 (2012) 076003, arXiv:1207.1510.
[Okada:2012fs]
[18-493]
Leptogenesis from a GeV Seesaw without Mass Degeneracy, Marco Drewes, Bjorn Garbrecht, JHEP 1303 (2013) 096, arXiv:1206.5537.
[Drewes:2012ma]
[18-494]
The Impact of Non-zero $\theta_{13}$ on Neutrino Mass and Leptogenesis in a SUSY SO(10) Model, Swarup Kumar Majee, arXiv:1205.4751, 2012.
[Majee:2012dq]
[18-495]
Bubble Baryogenesis, Clifford Cheung, Alex Dahlen, Gilly Elor, JHEP 09 (2012) 073, arXiv:1205.3501.
[Cheung:2012im]
[18-496]
Leptogenesis with small violation of B-L, J. Racker, Manuel Pena, Nuria Rius, JCAP 1207 (2012) 030, arXiv:1205.1948.
[Racker:2012vw]
[18-497]
TeV Scale Leptogenesis in B-L Model with Alternative Cosmologies, W. Abdallah, D. Delepine, S. Khalil, Phys.Lett. B725 (2013) 361-367, arXiv:1205.1503.
[Abdallah:2012nm]
[18-498]
Neutrino Spin Flavor Precession and Leptogenesis, Juan Barranco, Roberto Cota, David Delepine, Shaaban Khalil, Phys. Rev. D86 (2012) 113009, arXiv:1205.1250.
[Barranco:2012ir]
[18-499]
Leptongenesis in models with keV sterile neutrino dark matter, F. Bezrukov, A. Kartavtsev, M. Lindner, J. Phys. G40 (2013) 095202, arXiv:1204.5477.
[Bezrukov:2012as]
[18-500]
Anarchy and Leptogenesis, Kwang Sik Jeong, Fuminobu Takahashi, JHEP 07 (2012) 170, arXiv:1204.5453.
[Jeong:2012zj]
[18-501]
Neutrino Masses and Leptogenesis from Extra Fermions, Dmitry V. Zhuridov, Int. J. Mod. Phys. A 28 (2013) 1350104, arXiv:1204.4581.
[Zhuridov:2012hb]
[18-502]
Non-Minimal Chaotic Inflation, Peccei-Quinn Phase Transition and non-Thermal Leptogenesis, C. Pallis, Q. Shafi, Phys. Rev. D86 (2012) 023523, arXiv:1204.0252.
[Pallis:2012iw]
[18-503]
Revisiting Leptogenesis in a SUSY SU(5) x T' Model of Flavour, A. Meroni, E. Molinaro, S. T. Petcov, Phys. Lett. B710 (2012) 435-445, arXiv:1203.4435.
[Meroni:2012ze]
[18-504]
Squeezing out predictions with leptogenesis from SO(10), Franco Buccella, Domenico Falcone, Chee Sheng Fong, Enrico Nardi, Giulia Ricciardi, Phys. Rev. D86 (2012) 035012, arXiv:1203.0829.
[Buccella:2012kc]
[18-505]
WIMP Dark Matter from Gravitino Decays and Leptogenesis, Wilfried Buchmuller, Valerie Domcke, Kai Schmitz, Phys. Lett. B713 (2012) 63-67, arXiv:1203.0285.
[Buchmuller:2012bt]
[18-506]
Thermal production of ultrarelativistic right-handed neutrinos: Complete leading-order results, Denis Besak, Dietrich Bodeker, JCAP 1203 (2012) 029, arXiv:1202.1288.
[Besak:2012qm]
[18-507]
Split neutrinos - leptogenesis, dark matter and inflation, Anupam Mazumdar, Stefano Morisi, Phys. Rev. D86 (2012) 045031, arXiv:1201.6189.
[Mazumdar:2012qk]
[18-508]
Leptogenesis from Additional Higgs Doublets, Bjorn Garbrecht, Phys. Rev. D85 (2012) 123509, arXiv:1201.5126.
[Garbrecht:2012qv]
[18-509]
Leptogenesis from first principles in the resonant regime, Mathias Garny, Alexander Kartavtsev, Andreas Hohenegger, Annals Phys. 328 (2013) 26-63, arXiv:1112.6428.
[Garny:2011hg]
[18-510]
Effective Theory of Resonant Leptogenesis in the Closed-Time-Path Approach, Bjorn Garbrecht, Matti Herranen, Nucl. Phys. B861 (2012) 17-52, arXiv:1112.5954.
[Garbrecht:2011aw]
[18-511]
Leptogenesis with heavy neutrino flavours: from density matrix to Boltzmann equations, Steve Blanchet, David A. Jones, Pasquale Di Bari, Luca Marzola, JCAP 1301 (2013) 041, arXiv:1112.4528.
[Blanchet:2011xq]
[18-512]
Technicolor Assisted Leptogenesis with an Ultra-Heavy Higgs Doublet, Hooman Davoudiasl, Ian Lewis, Phys. Rev. D86 (2012) 015024, arXiv:1112.1939.
[Davoudiasl:2011aa]
[18-513]
Leptogenesis in flavor models with type I and II seesaws, D. Aristizabal Sierra, F. Bazzocchi, I. de Medeiros Varzielas, Nucl. Phys. B858 (2012) 196-213, arXiv:1112.1843.
[AristizabalSierra:2011ab]
[18-514]
Leptogenesis via hypermagnetic fields and baryon asymmetry, Maxim Dvornikov, Victor B. Semikoz, JCAP 1202 (2012) 040, arXiv:1111.6876.
[Dvornikov:2011ey]
[18-515]
Scalar Neutrino as Asymmetric Dark Matter: Radiative Neutrino Mass and Leptogenesis, Ernest Ma, Utpal Sarkar, Phys. Rev. D85 (2012) 075015, arXiv:1111.5350.
[Ma:2011zm]
[18-516]
Dirac Leptogenesis with a Non-anomalous $U(1)^{\prime}$ Family Symmetry, Mu-Chun Chen, Jinrui Huang, William Shepherd, JHEP 11 (2012) 059, arXiv:1111.5018.
[Chen:2011sb]
[18-517]
Hard-Thermal-Loop Corrections in Leptogenesis II: Solving the Boltzmann Equations, Clemens Kiessig, Michael Plumacher, JCAP 1209 (2012) 012, arXiv:1111.1235.
[Kiessig:2011ga]
[18-518]
Hard-Thermal-Loop Corrections in Leptogenesis I: CP-Asymmetries, Clemens Kiessig, Michael Plumacher, JCAP 1207 (2012) 014, arXiv:1111.1231.
[Kiessig:2011fw]
[18-519]
Weak Scale Leptogenesis, R-symmetry, and a Displaced Higgs, Keith Rehermann, Christopher M. Wells, arXiv:1111.0008, 2011.
[Rehermann:2011ax]
[18-520]
Renormalisation group improved leptogenesis in family symmetry models, Iain K. Cooper, Stephen F. King, Christoph Luhn, Nucl. Phys. B859 (2012) 159-176, arXiv:1110.5676.
[Cooper:2011rh]
[18-521]
Majorana CP phases in bi-pair neutrino mixing and leptogenesis, Teruyuki Kitabayashi, Masaki Yasue, arXiv:1110.5162, 2011.
[Kitabayashi:2011zp]
[18-522]
Leptogenesis in the presence of exact flavor symmetries, D. Aristizabal Sierra, Federica Bazzocchi, JHEP 03 (2012) 057, arXiv:1110.3781.
[AristizabalSierra:2011pkj]
[18-523]
$\theta_{13}$, CP Violation and Leptogenesis in Minimal Supersymmetric $SU(4)_c \times SU(2)_L \times SU(2)_R$, Nobuchika Okada, Qaisar Shafi, Phys.Rev. D98 (2018) 035044, arXiv:1109.4963.
[Okada:2011ar]
[18-524]
Electroweak Beautygenesis: From $b \to s$ CP-violation to the Cosmic Baryon Asymmetry, Tao Liu, Michael J. Ramsey-Musolf, Jing Shu, Phys. Rev. Lett. 108 (2012) 221301, arXiv:1109.4145.
[Liu:2011jh]
[18-525]
Re-analysing the implications of CPT and unitarity for baryogenesis and leptogenesis, Atri Bhattacharya, Raj Gandhi, Satyanarayan Mukhopadhyay, Phys. Rev. D89 (2014) 116014, arXiv:1109.1832.
[Bhattacharya:2011sy]
[18-526]
Reheating and leptogenesis in brane inflation, Sayantan Choudhury, Supratik Pal, Nucl. Phys. B857 (2012) 85-100, arXiv:1108.5676.
[Choudhury:2011rz]
[18-527]
Asymmetric Inelastic Inert Doublet Dark Matter from Triplet Scalar Leptogenesis, Chiara Arina, Narendra Sahu, Nucl. Phys. B854 (2012) 666-699, arXiv:1108.3967.
[Arina:2011cu]
[18-528]
Non-Minimal Higgs Inflation and non-Thermal Leptogenesis in A Supersymmetric Pati-Salam Model, C. Pallis, N. Toumbas, JCAP 1112 (2011) 002, arXiv:1108.1771.
[Pallis:2011gr]
[18-529]
A Common Framework for Dark Matter, Leptogenesis and Neutrino Masses, Francois-Xavier Josse-Michaux, Emiliano Molinaro, Phys. Rev. D84 (2011) 125021, arXiv:1108.0482.
[Josse-Michaux:2011sjn]
[18-530]
Leptogenesis in the two right-handed neutrino model revisited, S. Antusch, P. Di Bari, D.A. Jones, S.F. King, Phys. Rev. D86 (2012) 023516, arXiv:1107.6002.
[Antusch:2011nz]
[18-531]
Leptogenesis from Soft Supersymmetry Breaking (Soft Leptogenesis), Chee Sheng Fong, M. C. Gonzalez-Garcia, Enrico Nardi, Int. J. Mod. Phys. A26 (2011) 3491-3604, arXiv:1107.5312.
[Fong:2011yx]
[18-532]
Leptogenesis in a SUSY SU(5) x T' Model with Geometrical CP Violation, Mu-Chun Chen, K.T. Mahanthappa, arXiv:1107.3856, 2011.
[Chen:2011tj]
[18-533]
Leptogenesis by curvature coupling of heavy neutrinos, Gaetano Lambiase, Subhendra Mohanty, Phys. Rev. D84 (2011) 023509, arXiv:1107.1213.
[Lambiase:2011by]
[18-534]
New Ways for Leptogenesis versus Neutrino Masses, Dmitry V. Zhuridov, Mod. Phys. Lett. A26 (2011) 2983-2996, arXiv:1107.1087.
[Zhuridov:2011ar]
[18-535]
Thermal leptogenesis in a supersymmetric neutrinophilic Higgs model, Naoyuki Haba, Osamu Seto, Phys. Rev. D84 (2011) 103524, arXiv:1106.5354.
[Haba:2011yc]
[18-536]
Towards leptogenesis at NLO: the right-handed neutrino interaction rate, Alberto Salvio, Paolo Lodone, Alessandro Strumia, JHEP 08 (2011) 116, arXiv:1106.2814.
[Salvio:2011sf]
[18-537]
New Solution for Neutrino Masses and Leptogenesis in Adjoint SU(5), Kristjan Kannike, Dmitry Zhuridov, JHEP 07 (2011) 102, arXiv:1105.4546.
[Kannike:2011fx]
[18-538]
Entropy, Baryon Asymmetry and Dark Matter from Heavy Neutrino Decays, W. Buchmuller, K. Schmitz, G. Vertongen, Nucl. Phys. B851 (2011) 481-532, arXiv:1104.2750.
[Buchmuller:2011mw]
[18-539]
Electromagnetic leptogenesis at the TeV scale, Debajyoti Choudhury, Namit Mahajan, Sudhanwa Patra, Utpal Sarkar, JCAP 1204 (2012) 017, arXiv:1104.1851.
[Choudhury:2011gbi]
[18-540]
Resonant Leptogenesis with nonholomorphic R-Parity violation and LHC Phenomenology, Joydeep Chakrabortty, Sourov Roy, Phys. Rev. D85 (2012) 035014, arXiv:1104.1387.
[Chakrabortty:2011zz]
[18-541]
Leptogenesis in a TeV scale model for neutrino masses, Daijiro Suematsu, Eur. Phys. J. C72 (2012) 1951, arXiv:1103.0857.
[Suematsu:2011va]
[18-542]
Minimal Dark Matter and Leptogenesis, Eung Jin Chun, JHEP 03 (2011) 098, arXiv:1102.3455.
[Chun:2011cc]
[18-543]
Low scale thermal leptogenesis in neutrinophilic Higgs doublet models, Naoyuki Haba, Osamu Seto, Prog. Theor. Phys. 125 (2011) 1155-1169, arXiv:1102.2889.
[Haba:2011ra]
[18-544]
Asymmetric Dark Matter from Leptogenesis, Adam Falkowski, Joshua T. Ruderman, Tomer Volansky, JHEP 05 (2011) 106, arXiv:1101.4936.
[Falkowski:2011xh]
[18-545]
Affleck-Dine leptogenesis in the radiative neutrino mass model, H. Higashi, T. Ishima, D. Suematsu, Int. J. Mod. Phys. A26 (2011) 995-1009, arXiv:1101.2704.
[Higashi:2011qq]
[18-546]
Quantum Leptogenesis I, A. Anisimov, W. Buchmuller, M. Drewes, S. Mendizabal, Annals Phys. 326 (2011) 1998-2038, arXiv:1012.5821.
[Anisimov:2010dk]
[18-547]
Thermal production of relativistic Majorana neutrinos: Strong enhancement by multiple soft scattering, Alexey Anisimov, Denis Besak, Dietrich Bodeker, JCAP 1103 (2011) 042, arXiv:1012.3784.
[Anisimov:2010gy]
[18-548]
Leptogenesis in B-L gauged SUSY with MSSM Higgs sector, Juho Pelto, Iiro Vilja, Heidi Virtanen, Phys. Rev. D83 (2011) 055001, arXiv:1012.3288.
[Pelto:2010vq]
[18-549]
Testing SO(10)-inspired leptogenesis with low energy neutrino experiments, Pasquale Di Bari, Antonio Riotto, JCAP 1104 (2011) 037, arXiv:1012.2343.
[DiBari:2010ux]
[18-550]
Lepton Flavour Violation and theta(13) in Minimal Resonant Leptogenesis, Frank F. Deppisch, Apostolos Pilaftsis, Phys. Rev. D83 (2011) 076007, arXiv:1012.1834.
[Deppisch:2010fr]
[18-551]
Early Universe effective theories: The Soft Leptogenesis and R-Genesis Cases, Chee Sheng Fong, M. C. Gonzalez-Garcia, Enrico Nardi, JCAP 1102 (2011) 032, arXiv:1012.1597.
[Fong:2010bv]
[18-552]
MINOS and Leptogenesis, Chiu Man Ho, Phys.Lett. B702 (2011) 398-401, arXiv:1012.1053.
[Ho:2010jv]
[18-553]
Low-scale Leptogenesis and Dark Matter, Wei-Chih Huang, arXiv:1012.0285, 2010.
[Huang:2010uu]
[18-554]
Leptogenesis at the Electroweak Scale, Boris Kayser, Gino Segre, Phys. Lett. B704 (2011) 570-573, arXiv:1011.6362.
[Kayser:2010fc]
[18-555]
Resonant Leptogenesis in the Minimal B-L Extended Standard Model at TeV, Satoshi Iso, Nobuchika Okada, Yuta Orikasa, Phys. Rev. D83 (2011) 093011, arXiv:1011.4769.
[Iso:2010mv]
[18-556]
Leptogenesis: The Other Cuts, Bjorn Garbrecht, Nucl. Phys. B847 (2011) 350-366, arXiv:1011.3122.
[Garbrecht:2010sz]
[18-557]
CP Violation from Scatterings with Gauge Bosons in Leptogenesis, Chee Sheng Fong, M. C. Gonzalez-Garcia, J. Racker, Phys. Lett. B697 (2011) 463-470, arXiv:1010.2209.
[Fong:2010bh]
[18-558]
Leptogenesis with TeV Scale Inverse Seesaw in SO(10), Steve Blanchet, P. S. Bhupal Dev, R. N. Mohapatra, Phys. Rev. D82 (2010) 115025, arXiv:1010.1471.
[Blanchet:2010kw]
[18-559]
Seesaw and leptogenesis: a triangular ansatz, D. Falcone, Mod. Phys. Lett. A26 (2011) 1375-1379, arXiv:1009.6175.
[Falcone:2010ca]
[18-560]
Type II Seesaw Higgs Triplet as the inflaton for Chaotic Inflation and Leptogenesis, Chian-Shu Chen, Chia-Min Lin, Phys. Lett. B695 (2011) 9-12, arXiv:1009.5727.
[Chen:2010uc]
[18-561]
Aidnogenesis via Leptogenesis and Dark Sphalerons, Mattias Blennow, Basudeb Dasgupta, Enrique Fernandez-Martinez, Nuria Rius, JHEP 03 (2011) 014, arXiv:1009.3159.
[Blennow:2010qp]
[18-562]
Baryogenesis from a right-handed neutrino condensate, Gabriela Barenboim, Javier Rasero, JHEP 03 (2011) 097, arXiv:1009.3024.
[Barenboim:2010nm]
[18-563]
Baryon asymmetry from leptogenesis with four zero neutrino Yukawa textures, Biswajit Adhikary, Ambar Ghosal, Probir Roy, JCAP 1101 (2011) 025, arXiv:1009.2635.
[Adhikary:2010fa]
[18-564]
Standard Model CP-violation and Cold Electroweak Baryogenesis, Anders Tranberg, Phys. Rev. D84 (2011) 083516, arXiv:1009.2358.
[Tranberg:2010af]
[18-565]
Leptogenesis origin of Dirac gaugino dark matter, Eung Jin Chun, Phys. Rev. D83 (2011) 053004, arXiv:1009.0983.
[Chun:2010hz]
[18-566]
Xogenesis, Matthew R. Buckley, Lisa Randall, JHEP 09 (2011) 009, arXiv:1009.0270.
[Buckley:2010ui]
[18-567]
Supersymmetric Leptogenesis, Chee Sheng Fong, M. C. Gonzalez-Garcia, Enrico Nardi, J. Racker, JCAP 1012 (2010) 013, arXiv:1009.0003.
[Fong:2010qh]
[18-568]
Matter and Dark Matter from False Vacuum Decay, W. Buchmuller, K. Schmitz, G. Vertongen, Phys. Lett. B693 (2010) 421-425, arXiv:1008.2355.
[Buchmuller:2010yy]
[18-569]
Leptogenesis, Gravitino Dark Matter and Entropy Production, Jasper Hasenkamp, Jorn Kersten, Phys. Rev. D82 (2010) 115029, arXiv:1008.1740.
[Hasenkamp:2010if]
[18-570]
Flavoured Leptogenesis in the CTP Formalism, Martin Beneke, Bjorn Garbrecht, Christian Fidler, Matti Herranen, Pedro Schwaller, Nucl. Phys. B843 (2011) 177-212, arXiv:1007.4783.
[Beneke:2010dz]
[18-571]
Soft Leptogenesis and Gravitino Dark Matter in Gauge Mediation, Koichi Hamaguchi, Norimi Yokozaki, Phys. Lett. B694 (2011) 398-401, arXiv:1007.3323.
[Hamaguchi:2010cw]
[18-572]
Leptogenesis with Linear, Inverse or Double Seesaw, Pei-Hong Gu, Utpal Sarkar, Phys. Lett. B694 (2010) 226-232, arXiv:1007.2323.
[Gu:2010xc]
[18-573]
Implications of Flavor Dynamics for Fermion Triplet Leptogenesis, D. Aristizabal Sierra, Jernej F. Kamenik, Miha Nemevsek, JHEP 10 (2010) 036, arXiv:1007.1907.
[AristizabalSierra:2010mv]
[18-574]
The problem of the initial conditions in flavoured leptogenesis and the tauon N_2-dominated scenario, Enrico Bertuzzo, Pasquale Di Bari, Luca Marzola, Nucl. Phys. B849 (2011) 521-548, arXiv:1007.1641.
[Bertuzzo:2010et]
[18-575]
Sneutrino Hybrid Inflation and Nonthermal Leptogenesis, Stefan Antusch, Jochen P. Baumann, Valerie F. Domcke, Philipp M. Kostka, JCAP 1010 (2010) 006, arXiv:1007.0708.
[Antusch:2010mv]
[18-576]
Baryogenesis via leptogenesis from quark-lepton symmetry\par and a compact heavy $N_R$ spectrum, F. Buccella, D. Falcone, L. Oliver, Phys. Rev. D83 (2011) 093013, arXiv:1006.5698.
[Buccella:2010jc]
[18-577]
Probing lepton flavor violation with nonzero $U_{e3}$ and leptogenesis through $A_4$ symmetry breaking, Y. H. Ahn, arXiv:1006.2953, 2010.
[Ahn:2010ui]
[18-578]
Examining leptogenesis with lepton flavor violation and the dark matter abundance, Steve Blanchet, Danny Marfatia, Azar Mustafayev, JHEP 11 (2010) 038, arXiv:1006.2857.
[Blanchet:2010td]
[18-579]
Bridging flavour violation and leptogenesis in SU(3) family models, Lorenzo Calibbi, Eung Jin Chun, Liliana Velasco-Sevilla, JHEP 11 (2010) 090, arXiv:1005.5563.
[Calibbi:2010rf]
[18-580]
Quantum corrections to leptogenesis from the gradient expansion, M. Garny, A. Hohenegger, A. Kartavtsev, arXiv:1005.5385, 2010.
[Garny:2010nz]
[18-581]
Leptogenesis in a Hybrid Texture Neutrino Mass Model, S. Dev, Surender Verma, Mod. Phys. Lett. A25 (2010) 2837-2848, arXiv:1005.4521.
[Dev:2010vy]
[18-582]
Large Lepton Asymmetry for Small Baryon Asymmetry and Warm Dark Matter, Pei-Hong Gu, Phys. Rev. D82 (2010) 093009, arXiv:1005.1632.
[Gu:2010dg]
[18-583]
Dark Matter, Baryon Asymmetry, and Spontaneous B and L Breaking, Timothy R. Dulaney, Pavel Fileviez Perez, Mark B. Wise, Phys. Rev. D83 (2011) 023520, arXiv:1005.0617.
[Dulaney:2010dj]
[18-584]
Flavoured soft leptogenesis and natural values of the B term, Chee Sheng Fong, M. C. Gonzalez-Garcia, Enrico Nardi, J. Racker, JHEP 07 (2010) 001, arXiv:1004.5125.
[Fong:2010zu]
[18-585]
Supersymmetric Leptogenesis with a Light Hidden Sector, Andrea De Simone, Mathias Garny, Alejandro Ibarra, Christoph Weniger, JCAP 1007 (2010) 017, arXiv:1004.4890.
[DeSimone:2010tr]
[18-586]
$(L_e-L_{\mu}-L_{\tau})$ discrete symmetry for heavy right-handed neutrinos and degenerate leptogenesis, Riazuddin,, Phys. Rev. D81 (2010) 093003, arXiv:1004.4768.
[Riazuddin:2010ry]
[18-587]
Neutrino decay into fermionic quasiparticles in leptogenesis, Clemens P. Kiessig, Markus H. Thoma, Michael Pluemacher, arXiv:1004.3999, 2010. 6 pages, 3 figures, proceedings of 'Beyond the standard models of particle physics, cosmology and astrophysics', Cape Town, Feb 2010.
[Kiessig:2010ev]
[18-588]
On the Vanishing of the CP Asymmetry in Leptogenesis due to Form Dominance, Sandhya Choubey, S. F. King, Manimala Mitra, Phys. Rev. D82 (2010) 033002, arXiv:1004.3756.
[Choubey:2010vs]
[18-589]
A direct link between neutrinoless double beta decay and leptogenesis in a seesaw model with $S_4$ symmetry, Y. H. Ahn, Sin Kyu Kang, C. S. Kim, T. Phong Nguyen, Phys. Rev. D82 (2010) 093005, arXiv:1004.3469.
[Ahn:2010nw]
[18-590]
On fast CP violating interactions in leptogenesis, Chee Sheng Fong, J. Racker, JCAP 1007 (2010) 001, arXiv:1004.2546.
[Fong:2010up]
[18-591]
Non-thermal leptogenesis in supersymmetric 3-3-1 model with inflationary scenario, D. T. Huong, H. N. Long, J. Phys. G38 (2011) 015202, arXiv:1004.1246.
[Huong:2010km]
[18-592]
Low-Scale Leptogenesis and the Domain Wall Problem in Models with Discrete Flavor Symmetries, Francesco Riva, Phys. Lett. B690 (2010) 443-450, arXiv:1004.1177.
[Riva:2010jm]
[18-593]
A fuller flavour treatment of N_2-dominated leptogenesis, Stefan Antusch, Pasquale Di Bari, David A. Jones, Steve F. King, Nucl. Phys. B856 (2012) 180-209, arXiv:1003.5132.
[Antusch:2010ms]
[18-594]
Decay of a Yukawa fermion at finite temperature and applications to leptogenesis, Clemens P. Kiessig, Michael Plumacher, Markus H. Thoma, Phys. Rev. D82 (2010) 036007, arXiv:1003.3016.
[Kiessig:2010pr]
[18-595]
Non-thermal Leptogenesis in a simple 5D SO(10) GUT, Takeshi Fukuyama, Nobuchika Okada, JCAP 1009 (2010) 024, arXiv:1003.2691.
[Fukuyama:2010hh]
[18-596]
Gauged B-L Leptogenesis, Yuji Kajiyama, Shaaban Khalil, Hiroshi Okada, Ernest Ma, arXiv:1003.0324, 2010.
[Kajiyama:2010iq]
[18-597]
Finite Number Density Corrections to Leptogenesis, Martin Beneke, Bjorn Garbrecht, Matti Herranen, Pedro Schwaller, Nucl. Phys. B838 (2010) 1-27, arXiv:1002.1326.
[Beneke:2010wd]
[18-598]
Medium corrections to the CP-violating parameter in leptogenesis, M. Garny, A. Hohenegger, A. Kartavtsev, Phys. Rev. D81 (2010) 085028, arXiv:1002.0331.
[Garny:2010nj]
[18-599]
Quantum Interference in a Thermal Bath, A. Anisimov, W. Buchmuller, M. Drewes, S. Mendizabal, Phys. Rev. Lett. 104 (2010) 121102, arXiv:1001.3856.
[Anisimov:2010aq]
[18-600]
Non-zero U_{e3} and TeV-Leptogenesis through A_4 symmetry breaking, Y.H. Ahn, Chian-Shu chen, Mod. Phys. Lett. A25 (2010) 1014-1025, arXiv:1001.2869.
[Ahn:2010cc]
[18-601]
Resonant Leptogenesis and Verifiable Seesaw from Large Extra Dimensions, Pei-Hong Gu, Phys. Rev. D81 (2010) 073002, arXiv:1001.1340.
[Gu:2010ye]
[18-602]
Electroweak baryogenesis in the MSSM with vector-like quarks, S. W. Ham, Seong-a Shim, S. K. OH, arXiv:1001.1129, 2010.
[Ham:2010tr]
[18-603]
Thermal leptogenesis in a 5D split fermion scenario with bulk neutrinos, Jukka Maalampi, Iiro Vilja, Heidi Virtanen, Phys. Rev. D82 (2010) 013009, arXiv:0912.4377.
[Maalampi:2009su]
[18-604]
Reconciling leptogenesis with observable mu - > e gamma rates, Steve Blanchet, Thomas Hambye, Francois-Xavier Josse-Michaux, JHEP 04 (2010) 023, arXiv:0912.3153.
[Blanchet:2009kk]
[18-605]
Wash-Out in N_2-dominated leptogenesis, Florian Hahn-Woernle, JCAP 1008 (2010) 029, arXiv:0912.1787.
[Hahn-Woernle:2009okg]
[18-606]
Testable Leptogenesis in extended Standard Model, Sudhanwa Patra, arXiv:0911.4577, 2009.
[Patra:2009bu]
[18-607]
Leptogenesis as a Common Origin for Matter and Dark Matter, Haipeng An, Shao-Long Chen, Rabindra N. Mohapatra, Yue Zhang, JHEP 03 (2010) 124, arXiv:0911.4463.
[An:2009vq]
[18-608]
Flavour leptogenesis with tribimaximal mixings and beyond, H. Zeen Devi, Amal Kr Sarma, N. Nimai Singh, arXiv:0911.2309, 2009.
[Devi:2009cg]
[18-609]
Leptogenesis Bound on Spontaneous Symmetry Breaking of Global Lepton Number, Pei-Hong Gu, Utpal Sarkar, Eur. Phys. J. C71 (2011) 1560, arXiv:0909.5468.
[Gu:2009hn]
[18-610]
Leptogenesis without violation of B-L, M.C. Gonzalez-Garcia, J. Racker, N. Rius, JHEP 11 (2009) 079, arXiv:0909.3518.
[Gonzalez-Garcia:2009cza]
[18-611]
Color Octet Leptogenesis, Marta Losada, Sean Tulin, arXiv:0909.0648, 2009.
[Losada:2009yy]
[18-612]
Constraints on leptogenesis from a symmetry viewpoint, R. Gonzalez Felipe, H. Serodio, Phys. Rev. D81 (2010) 053008, arXiv:0908.2947.
[Felipe:2009rr]
[18-613]
Leptogenesis and Reheating in Complex Hybrid Inflation, Carlos Martinez Prieto, David Delepine, Luis Arturo Urena Lopez, Phys. Rev. D81 (2010) 036001, arXiv:0908.2436.
[Martinez-Prieto:2009rdn]
[18-614]
Tri-Bimaximal Lepton Mixing and Leptogenesis, D. Aristizabal Sierra, F. Bazzocchi, I. de Medeiros Varzielas, L. Merlo, S. Morisi, Nucl. Phys. B827 (2010) 34-58, arXiv:0908.0907.
[AristizabalSierra:2009ex]
[18-615]
Majorana Phases and Leptogenesis in See-Saw Models with A_4 Symmetry, C. Hagedorn, E. Molinaro, S.T. Petcov, JHEP 09 (2009) 115, arXiv:0908.0240.
[Hagedorn:2009jy]
[18-616]
Flavor symmetries, leptogenesis and the absolute neutrino mass scale, E. Bertuzzo, P. Di Bari, F. Feruglio, E. Nardi, JHEP 11 (2009) 036, arXiv:0908.0161.
[Bertuzzo:2009im]
[18-617]
Resonant Dirac leptogenesis on throats, Andreas Bechinger, Gerhart Seidl, Phys. Rev. D81 (2010) 065015, arXiv:0907.4341.
[Bechinger:2009qk]
[18-618]
Non-degenerate Low Energy Leptogenesis, Chao-Qiang Geng, Dmitry V. Zhuridov, arXiv:0907.1462, 2009.
[Geng:2009ru]
[18-619]
Full Boltzmann equations for leptogenesis including scattering, F. Hahn-Woernle, M. Plumacher, Y. Y. Y. Wong, JCAP 0908 (2009) 028, arXiv:0907.0205.
[Hahn-Woernle:2009jyb]
[18-620]
Leptogenesis in model with Friedberg-Lee symmetry, Takeshi Araki, C. Q. Geng, Phys. Lett. B680 (2009) 343-350, arXiv:0906.1903.
[Araki:2009kp]
[18-621]
Neutrino Masses, Leptogenesis and Decaying Dark Matter, Chuan-Hung Chen, Chao-Qiang Geng, Dmitry V. Zhuridov, JCAP 0910 (2009) 001, arXiv:0906.1646.
[Chen:2009gd]
[18-622]
On the full Boltzmann equations for Leptogenesis, J. Garayoa, S. Pastor, T. Pinto, N. Rius, O. Vives, JCAP 0909 (2009) 035, arXiv:0905.4834.
[Garayoa:2009my]
[18-623]
Lepton-mediated electroweak baryogenesis, Daniel J. H. Chung, Bjorn Garbrecht, Michael J. Ramsey-Musolf, Sean Tulin, Phys. Rev. D81 (2010) 063506, arXiv:0905.4509.
[Chung:2009cb]
[18-624]
Neutrino masses, muon g-2, dark matter, lithium problem, and leptogenesis at TeV-scale, Chian-Shu Chen, Chung-Hsien Chou, Phys. Lett. B699 (2011) 68-73, arXiv:0905.3477.
[Chen:2009ata]
[18-625]
Resolution to neutrino masses, baryon asymmetry in leptogenesis and cosmic-ray anomalies, Chuan-Hung Chen, arXiv:0905.3425, 2009.
[Chen:2009zpa]
[18-626]
Lepton Flavor Equilibration and Leptogenesis, D. Aristizabal Sierra, Marta Losada, Enrico Nardi, JCAP 0912 (2009) 015, arXiv:0905.0662.
[AristizabalSierra:2009mq]
[18-627]
Resonant leptogenesis and tribimaximal leptonic mixing with A4 symmetry, G.C. Branco, R. Gonzalez Felipe, M.N. Rebelo, H. Serodio, Phys. Rev. D79 (2009) 093008, arXiv:0904.3076.
[Branco:2009by]
[18-628]
Purely Flavored Leptogenesis, D. Aristizabal Sierra, Luis Alfredo Munoz, Enrico Nardi, Phys. Rev. D80 (2009) 016007, arXiv:0904.3043.
[AristizabalSierra:2009bh]
[18-629]
Probing Resonant Leptogenesis at the LHC, Steve Blanchet, Z. Chacko, Solomon S. Granor, Rabindra N. Mohapatra, Phys. Rev. D82 (2010) 076008, arXiv:0904.2174.
[Blanchet:2009bu]
[18-630]
Low Scale Leptogenesis from Non-Leptonic CP-Phases, Daniel J. H. Chung, Bjorn Garbrecht, Michael J. Ramsey-Musolf, arXiv:0904.1591, 2009.
[Chung:2009eb]
[18-631]
Higgs-dependent Leptogenesis, Yuji Kajiyama, Martti Raidal, arXiv:0903.4893, 2009.
[Kajiyama:2009qj]
[18-632]
Non-Unitary Lepton Mixing Matrix, Leptogenesis and Low Energy CP Violation, Werner Rodejohann, Europhys. Lett. 88 (2009) 51001, arXiv:0903.4590.
[Rodejohann:2009cq]
[18-633]
Probing Supersymmetric Leptogenesis with mu - > e gamma, Alejandro Ibarra, Cristoforo Simonetto, JHEP 08 (2009) 113, arXiv:0903.1776.
[Ibarra:2009bg]
[18-634]
Electron EDM and soft leptogenesis in supersymmetric B-L extension of the standard model, Yuji Kajiyama, Shaaban Khalil, Martti Raidal, Nucl. Phys. B820 (2009) 75-88, arXiv:0902.4405.
[Kajiyama:2009ae]
[18-635]
Casas-Ibarra Parametrization and Unflavored Leptogenesis, Zhi-zhong Xing, Chin. Phys. C34 (2010) 1-6, arXiv:0902.2469.
[Xing:2009vb]
[18-636]
New Ways to Leptogenesis with Gauged B-L Symmetry, K.S. Babu, Yanzhi Meng, Zurab Tavartkiladze, Phys. Lett. B681 (2009) 37-43, arXiv:0901.1044.
[Babu:2009pi]
[18-637]
On Gaugino Contributions to Soft Leptogenesis, Chee Sheng Fong, M.C. Gonzalez-Garcia, JHEP 03 (2009) 073, arXiv:0901.0008.
[Fong:2009iu]
[18-638]
Leptogenesis, Z' bosons, and the reheating temperature of the Universe, J. Racker, E. Roulet, JHEP 03 (2009) 065, arXiv:0812.4285.
[Racker:2008hp]
[18-639]
Neutrino Mass Seesaw at the Weak Scale, the Baryon Asymmetry, and the LHC, Steve Blanchet, Z. Chacko, Rabindra N. Mohapatra, Phys. Rev. D80 (2009) 085002, arXiv:0812.3837.
[Blanchet:2008zg]
[18-640]
Leptogenesis Scenarios via Non-Thermally Produced Right- handed Neutrino and Sneutrino in Supersymmetric Seesaw Model, Masato Senami, Tsutomu Takayama, JCAP 0906 (2009) 007, arXiv:0812.0120.
[Senami:2008yw]
[18-641]
Bridges of Low Energy observables with Leptogenesis in mu- tau Reflection Symmetry, Y. H. Ahn, Sin Kyu Kang, C. S. Kim, T. Phong Nguyen, arXiv:0811.1458, 2008.
[Ahn:2008hy]
[18-642]
Pathways to testable leptogenesis, Pei-Hong Gu, Utpal Sarkar, Mod. Phys. Lett. A25 (2010) 501-509, arXiv:0811.0956.
[Gu:2008yk]
[18-643]
Neutrino masses, leptogenesis and dark matter in hybrid seesaw, Pei-Hong Gu, M. Hirsch, Utpal Sarkar, J.W.F. Valle, Phys. Rev. D79 (2009) 033010, arXiv:0811.0953.
[Gu:2008yj]
[18-644]
Leptogenesis with Composite Neutrinos, Yuval Grossman, Yuhsin Tsai, JHEP 12 (2008) 016, arXiv:0811.0871.
[Grossman:2008xb]
[18-645]
Leptogenesis with an almost conserved lepton number, Takehiko Asaka, Steve Blanchet, Phys. Rev. D78 (2008) 123527, arXiv:0810.3015.
[Asaka:2008bj]
[18-646]
Soft Leptogenesis without singlet, Tatsuru Kikuchi, arXiv:0810.2194, 2008.
[Kikuchi:2008xy]
[18-647]
On the Role of Low-Energy CP Violation in Leptogenesis, Steve Blanchet, Pavel Fileviez Perez, Mod. Phys. Lett. A24 (2009) 1399-1409, arXiv:0810.1301.
[Blanchet:2008ga]
[18-648]
Recent developments in thermal leptogenesis: the role of flavours in various seesaw realisations, Francois-Xavier Josse-Michaux, arXiv:0809.4960, 2008. Ph.D. Thesis.
[Josse-Michaux:2008ttf]
[18-649]
Neutrino Masses, Baryon Asymmetry, Dark Matter and the Moduli Problem - A Complete Framework, Piyush Kumar, JHEP 05 (2009) 083, arXiv:0809.2610.
[Kumar:2008vs]
[18-650]
Successful type I Leptogenesis with SO(10)-inspired mass relations, Pasquale Di Bari, Antonio Riotto, Phys. Lett. B671 (2009) 462-469, arXiv:0809.2285.
[DiBari:2008mp]
[18-651]
A Case of Subdominant/Suppressed 'High Energy' Contribution to the Baryon Asymmetry of the Universe in Flavoured Leptogenesis, E. Molinaro, S. T. Petcov, Phys. Lett. B671 (2009) 60-65, arXiv:0808.3534.
[Molinaro:2008cw]
[18-652]
Successful Leptogenesis in SO(10) Unification with a Left-Right Symmetric Seesaw Mechanism, Asmaa Abada, Pierre Hosteins, Francois-Xavier Josse-Michaux, Stephane Lavignac, Nucl. Phys. B809 (2009) 183-217, arXiv:0808.2058.
[Abada:2008gs]
[18-653]
Neutrino mass and low-scale leptogenesis in a testable SUSY SO(10) model, Swarup Kumar Majee, Mina K. Parida, Amitava Raychaudhuri, Phys. Lett. B668 (2008) 299-302, arXiv:0807.3959.
[Majee:2008mn]
[18-654]
Baryogenesis via Leptogenesis in Adjoint SU(5), Steve Blanchet, Pavel Fileviez Perez, JCAP 0808 (2008) 037, arXiv:0807.3740.
[Blanchet:2008cj]
[18-655]
A New Era of Leptogenesis, Steve Blanchet, arXiv:0807.1408, 2008. PhD thesis.
[Blanchet:2008hg]
[18-656]
Natural inflation at the GUT scale, Subhendra Mohanty, Akhilesh Nautiyal, Phys. Rev. D78 (2008) 123515, arXiv:0807.0317.
[Mohanty:2008ab]
[18-657]
Electromagnetic Leptogenesis, Nicole F. Bell, Boris J. Kayser, Sandy S. C. Law, Phys. Rev. D78 (2008) 085024, arXiv:0806.3307.
[Bell:2008fm]
[18-658]
Inhomogeneous baryogenesis, cosmic antimatter, and dark matter, A.D. Dolgov, M. Kawasaki, N. Kevlishvili, Nucl. Phys. B807 (2009) 229-250, arXiv:0806.2986.
[Dolgov:2008wu]
[18-659]
CP Violation in the SUSY Seesaw: Leptogenesis and Low Energy, Sacha Davidson, Julia Garayoa, Federica Palorini, Nuria Rius, JHEP 09 (2008) 053, arXiv:0806.2832.
[Davidson:2008pf]
[18-660]
Leptogenesis in the minimal extnsion of the Babu-Zee model, C. S. Chen, C. Q. Geng, D. V. Zhuridov, arXiv:0806.2698, 2008.
[Chen:2008ma]
[18-661]
Is leptogenesis falsifiable at LHC?, J.-M. Frere, T. Hambye, G. Vertongen, JHEP 01 (2009) 051, arXiv:0806.0841.
[Frere:2008ct]
[18-662]
Leptogenesis in the Exceptional Supersymmetric Standard Model: flavour dependent lepton asymmetries, S.F. King, R. Luo, D.J. Miller, R. Nevrozov, JHEP 12 (2008) 042, arXiv:0806.0330.
[King:2008qb]
[18-663]
Neutrino Masses, Leptogenesis, and Unification in the Absence of Low Energy Supersymmetry, W. Fischler, R. Flauger, JHEP 09 (2008) 020, arXiv:0805.3000.
[Fischler:2008xm]
[18-664]
Electroweak Resonant Leptogenesis in the Singlet Majoron Model, Apostolos Pilaftsis, Phys. Rev. D78 (2008) 013008, arXiv:0805.1677.
[Pilaftsis:2008qt]
[18-665]
Lepton-flavour violation in the light of leptogenesis and muon g-2, Motoi Endo, Tetsuo Shindou, arXiv:0805.0996, 2008.
[Endo:2008um]
[18-666]
Flavoured Soft Leptogenesis, Chee Sheng Fong, M.C.Gonzalez-Garcia, JHEP 06 (2008) 076, arXiv:0804.4471.
[Fong:2008mu]
[18-667]
Higgs Boson Exempt No-Scale Supersymmetry with a Neutrino Seesaw: Implications for Lepton Flavor Violation and Leptogenesis, Eung Jin Chun, Jason L. Evans, David E. Morrissey, James D. Wells, Phys. Rev. D79 (2009) 015003, arXiv:0804.3050.
[Chun:2008tw]
[18-668]
A new, direct link between the baryon asymmetry and neutrino masses, Michele Frigerio, Pierre Hosteins, Stephane Lavignac, Andrea Romanino, Nucl. Phys. B806 (2009) 84-102, arXiv:0804.0801.
[Frigerio:2008ai]
[18-669]
Supersymmetric Leptogenesis and the Gravitino Bound, G.F. Giudice, L. Mether, A. Riotto, F. Riva, Phys. Lett. B664 (2008) 21-24, arXiv:0804.0166.
[Giudice:2008gu]
[18-670]
The Interplay Between the "Low" and "High" Energy CP-Violation in Leptogenesis, E. Molinaro, S. T. Petcov, Eur. Phys. J. C61 (2009) 93-109, arXiv:0803.4120.
[Molinaro:2009lud]
[18-671]
Nonzero U_{e3}, CP violation and leptogenesis in a see-saw type softly broken A_4 symmetric model, Biswajit Adhikary, Ambar Ghosal, Phys. Rev. D78 (2008) 073007, arXiv:0803.3582.
[Adhikary:2008au]
[18-672]
Baryogenesis via Leptogenesis in an inhomogeneous Universe, A. Kartavtsev, D. Besak, Phys. Rev. D78 (2008) 083001, arXiv:0803.2729.
[Kartavtsev:2008fp]
[18-673]
A Yukawa coupling parameterization for type I + II seesaw formula and applications to lepton flavor violation and leptogenesis, Evgeny Kh. Akhmedov, Werner Rodejohann, JHEP 06 (2008) 106, arXiv:0803.2417.
[Akhmedov:2008tb]
[18-674]
Dirac Leptogenesis in extended nMSSM, Eung Jin Chun, Probir Roy, JHEP 06 (2008) 089, arXiv:0803.1720.
[Chun:2008pg]
[18-675]
CP Violation and Baryogenesis from New Heavy Quarks, Wei-Shu Hou, Chin. J. Phys. 47 (2009) 134, arXiv:0803.1234.
[Hou:2008xd]
[18-676]
Leptogenesis in a perturbative SO(10) model, Tatsuru Kikuchi, JHEP 09 (2008) 045, arXiv:0802.3470.
[Kikuchi:2008ed]
[18-677]
Effects of reheating on leptogenesis, F. Hahn-Woernle, M. Plumacher, Nucl. Phys. B806 (2009) 68-83, arXiv:0801.3972.
[Hahn-Woernle:2008tsk]
[18-678]
Muon-Tau Symmetry and Leptogenesis in the Minimal Seesaw Model, Daniel Wegman Ostrosky, arXiv:0801.3054, 2008.
[Ostrosky:2008qq]
[18-679]
mu-tau symmetry, sterile right-handed neutrinos, and leptogenesis, Riazuddin,, Phys. Rev. D77 (2008) 013005.
[Riazuddin:2008zz]
[18-680]
Radiative Neutrino Mass, Dark Matter and Leptogenesis, Pei-Hong Gu, Utpal Sarkar, Phys. Rev. D77 (2008) 105031, arXiv:0712.2933.
[Gu:2007ug]
[18-681]
B-L Conserved Baryogenesis, Pei-Hong Gu, Utpal Sarkar, Mod. Phys. Lett. A23 (2008) 2047-2051, arXiv:0712.2793.
[Gu:2007qy]
[18-682]
The Minimal Type-II Seesaw Model and Flavor-dependent Leptogenesis, Shu Luo, Zhi-zhong Xing, Int. J. Mod. Phys. A23 (2008) 3412-3415, arXiv:0712.2610.
[Luo:2007mq]
[18-683]
Hypermagnetic Baryogenesis, Kazuharu Bamba, C. Q. Geng, S. H. Ho, Phys. Lett. B664 (2008) 154-156, arXiv:0712.1523.
[Bamba:2007hf]
[18-684]
Non-thermal leptogenesis and gravitino problem in inflaton decay, Grigoris Panotopoulos, JHEP JHEP0712 (2007) 016, arXiv:0712.1430.
[Panotopoulos:2007fh]
[18-685]
Leptogenesis in a seesaw model with Fritzsch type lepton mass matrices, Y. H. Ahn, Sin Kyu Kang, C. S. Kim, Jake Lee, Phys. Rev. D77 (2008) 073009, arXiv:0711.1001.
[Ahn:2007mj]
[18-686]
The (ir)relevance of Initial Conditions to Soft Leptogenesis, Omri Bahat-Treidel, Ze'ev Surujon, JHEP 11 (2008) 046, arXiv:0710.3905.
[Bahat-Treidel:2007zoe]
[18-687]
Low Scale Leptogenesis and Dark Matter Candidates in an Extended Seesaw Model, H. Sung Cheon, Sin Kyu Kang, C. S. Kim, JCAP 0805 (2008) 004, arXiv:0710.2416.
[SungCheon:2007nw]
[18-688]
Triplet Leptogenesis in Left-Right Symmetric Seesaw Models, Tomas Hallgren, Thomas Konstandin, Tommy Ohlsson, JCAP 0801 (2008) 014, arXiv:0710.2408.
[Hallgren:2007nq]
[18-689]
Realistic Neutrinogenesis with Radiative Vertex Correction, Pei-Hong Gu, Hong-Jian He, Utpal Sarkar, Phys. Lett. B659 (2008) 634-639, arXiv:0709.1019.
[Gu:2007mc]
[18-690]
Effects of Lightest Neutrino Mass in Leptogenesis, E. Molinaro, S. T. Petcov, T. Shindou, Y. Takanishi, Nucl. Phys. B797 (2008) 93-116, arXiv:0709.0413.
[Molinaro:2007uv]
[18-691]
Singlet fermion dark matter and electroweak baryogenesis with radiative neutrino mass, K. S. Babu, Ernest Ma, Int. J. Mod. Phys. A23 (2008) 1813-1819, arXiv:0708.3790.
[Babu:2007sm]
[18-692]
Viability of Dirac phase leptogenesis, Alexey Anisimov, Steve Blanchet, Pasquale Di Bari, JCAP 0804 (2008) 033, arXiv:0707.3024.
[Blanchet:2007qs]
[18-693]
Quintessential Kination and Leptogenesis, Eung Jin Chun, Stefano Scopel, JCAP 0710 (2007) 011, arXiv:0707.1544.
[Chun:2007np]
[18-694]
Neutrino masses, mixing and leptogenesis in TeV scale B-L extension of the standard model, M. Abbas, S. Khalil, JHEP 04 (2008) 056, arXiv:0707.0841.
[Abbas:2007ag]
[18-695]
CP violation in scatterings, three body processes and the Boltzmann equations for leptogenesis, Enrico Nardi, Juan Racker, Esteban Roulet, JHEP 09 (2007) 090, arXiv:0707.0378.
[Nardi:2007jp]
[18-696]
Leptogenesis and dark matter unified in a non-SUSY model for neutrino masses, Daijiro Suematsu, Eur. Phys. J. C56 (2008) 379-387, arXiv:0706.2401.
[Suematsu:2007dc]
[18-697]
Cosmological Charge Asymmetry and Rare Processes in Particle Physics, A. D. Dolgov, Frascati Phys.Ser. 44 (2007) 3-11, arXiv:0706.1229.
[Dolgov:2007fu]
[18-698]
Leptogenesis With Many Neutrinos, Marc-Thomas Eisele, Phys. Rev. D77 (2008) 043510, arXiv:0706.0200.
[Eisele:2007ws]
[18-699]
Predictive Model of Inverted Neutrino Mass Hierarchy and Resonant Leptogenesis, K.S. Babu, Abdel G. Bachri, Zurab Tavartkiladze, Int. J. Mod. Phys. A23 (2008) 1679-1696, arXiv:0705.4419.
[Babu:2007zm]
[18-700]
Dirac Neutrinos, Dark Energy and Baryon Asymmetry, Pei-Hong Gu, Hong-Jian He, Utpal Sarkar, JCAP 0711 (2007) 016, arXiv:0705.3736.
[Gu:2007mi]
[18-701]
On Resonant Leptogenesis, Andrea De Simone, Antonio Riotto, JCAP 0708 (2007) 013, arXiv:0705.2183.
[DeSimone:2007pa]
[18-702]
Leptogenesis, Dark Matter and Higgs Phenomenology at TeV, Pei-Hong Gu, Utpal Sarkar, Nucl. Phys. B789 (2008) 245-257, arXiv:0705.1920.
[Gu:2007dr]
[18-703]
Warped Leptogenesis with Dirac Neutrino Masses, Tony Gherghetta, Kenji Kadota, Masahide Yamaguchi, Phys. Rev. D76 (2007) 023516, arXiv:0705.1749.
[Gherghetta:2007au]
[18-704]
Sensitivity of the baryon asymmetry produced by leptogenesis to low energy CP violation, Sacha Davidson, Julia Garayoa, Federica Palorini, Nuria Rius, Phys. Rev. Lett. 99 (2007) 161801, arXiv:0705.1503.
[Davidson:2007va]
[18-705]
Variations on leptogenesis, Diego Aristizabal Sierra, Marta Losada, Enrico Nardi, Phys. Lett. B659 (2008) 328-335, arXiv:0705.1489.
[AristizabalSierra:2007ur]
[18-706]
Neutrino Mixing and Leptogenesis in Type-II Seesaw Scenarios with Left-Right Symmetry, Wei Chao, Shu Luo, Zhi-zhong Xing, Phys. Lett. B659 (2008) 281-289, arXiv:0704.3838.
[Chao:2007rm]
[18-707]
Non-thermal leptogenesis with strongly hierarchical right handed neutrinos, V. Nefer Senoguz, Phys. Rev. D76 (2007) 013005, arXiv:0704.3048.
[Senoguz:2007hu]
[18-708]
Flavour-Dependent Type II Leptogenesis, Stefan Antusch, Phys. Rev. D76 (2007) 023512, arXiv:0704.1591.
[Antusch:2007km]
[18-709]
Remark on the minimal seesaw model and leptogenesis with tri/bi-maximal mixing, Teruyuki Kitabayashi, Phys. Rev. D76 (2007) 033002, arXiv:hep-ph/0703303.
[Kitabayashi:2007bs]
[18-710]
A novel washout effect in the flavored leptogenesis, Tetsuo Shindou, Toshifumi Yamashita, JHEP 09 (2007) 043, arXiv:hep-ph/0703183.
[Shindou:2007se]
[18-711]
Quantum Boltzmann Equations and Leptogenesis, Andrea De Simone, Antonio Riotto, JCAP 0708 (2007) 002, arXiv:hep-ph/0703175.
[DeSimone:2007rw]
[18-712]
Study of flavour dependencies in leptogenesis, F. X. Josse-Michaux, A. Abada, JCAP 0710 (2007) 009, arXiv:hep-ph/0703084.
[Josse-Michaux:2007alz]
[18-713]
Quasi-degenerate neutrinos and leptogenesis from L_mu-L_tau, E. J. Chun, K. Turzynski, Phys. Rev. D76 (2007) 053008, arXiv:hep-ph/0703070.
[Chun:2007vh]
[18-714]
Thermal leptogenesis scenarios in the SO(10)-motivated left-right symmetric model, Yuya Wakabayashi, Prog. Theor. Phys. 117 (2007) 1099-1117, arXiv:hep-ph/0702261.
[Wakabayashi:2007dh]
[18-715]
Relating leptogenesis parameters to light neutrino masses, Guy Engelhard, Yuval Grossman, Yosef Nir, JHEP 07 (2007) 029, arXiv:hep-ph/0702151.
[Engelhard:2007kf]
[18-716]
SO(10) unified models and soft leptogenesis, E. J. Chun, L. Velasco-Sevilla, JHEP 08 (2007) 075, arXiv:hep-ph/0702039.
[Chun:2007ny]
[18-717]
Observable Electron EDM and Leptogenesis, F. R. Joaquim, I. Masina, A. Riotto, Int. J. Mod. Phys. A22 (2007) 6253-6278, arXiv:hep-ph/0701270.
[Joaquim:2007sm]
[18-718]
Leptogenesis implications in models with Abelian family symmetry and one extra real Higgs singlet, Sandy S. C. Law, Raymond R. Volkas, Phys. Rev. D75 (2007) 043510, arXiv:hep-ph/0701189.
[Law:2007jk]
[18-719]
Low Intermediate Scales for Leptogenesis in SUSY SO(10) GUTs, Swarup Kumar Majee, Mina K. Parida, Amitava Raychaudhuri, Utpal Sarkar, Phys. Rev. D75 (2007) 075003, arXiv:hep-ph/0701109.
[Majee:2007uv]
[18-720]
Baryogenesis via left-right asymmetry generation by Affleck-Dine mechanism in Dirac neutrino model, Masato Senami, Tsutomu Takayama, Phys. Rev. D75 (2007) 105004, arXiv:hep-ph/0701103.
[Senami:2007up]
[18-721]
Explaining dark matter, dark energy, neutrino masses and leptogenesis at the TeV scale, Narendra Sahu, Utpal Sarkar, Phys. Rev. D76 (2007) 045014, arXiv:hep-ph/0701062.
[Sahu:2007uh]
[18-722]
Minimal Lepton Flavour Violation and Leptogenesis with exclusively low-energy CP Violation, Selma Uhlig, JHEP 11 (2007) 066, arXiv:hep-ph/0612262.
[Uhlig:2006xf]
[18-723]
Stability and leptogenesis in the left-right symmetric seesaw mechanism, E. K. Akhmedov et al., JHEP 04 (2007) 022, arXiv:hep-ph/0612194.
[Akhmedov:2006yp]
[18-724]
The importance of N2 leptogenesis, Guy Engelhard, Yuval Grossman, Enrico Nardi, Yosef Nir, Phys. Rev. Lett. 99 (2007) 081802, arXiv:hep-ph/0612187.
[Engelhard:2006yg]
[18-725]
Type-II seesaw mass models and baryon asymmetry, Amal Kr. Sarma, H. Zeen Devi, N. Nimai Singh, Nucl. Phys. B765 (2007) 142-153, arXiv:hep-ph/0612143.
[Sarma:2006xk]
[18-726]
A 3 X 2 texture for neutrino oscillations and leptogenesis, Biswajoy Brahmachari, Nobuchika Okada, Phys. Lett. B660 (2008) 508-514, arXiv:hep-ph/0612079.
[Brahmachari:2006es]
[18-727]
Gravitational Leptogenesis, Gaetano Lambiase, Subhendra Mohanty, JCAP 0712 (2007) 008, arXiv:astro-ph/0611905.
[Lambiase:2006md]
[18-728]
On the Impact of Flavour Oscillations in Leptogenesis, Andrea De Simone, Antonio Riotto, JCAP 0702 (2007) 005, arXiv:hep-ph/0611357.
[DeSimone:2006dd]
[18-729]
Leptogenesis and Low Energy CP Violation in Neutrino Physics, S. Pascoli, S.T. Petcov, Antonio Riotto, Nucl. Phys. B774 (2007) 1-52, arXiv:hep-ph/0611338.
[Pascoli:2006ci]
[18-730]
Quantum Zeno effect and the impact of flavor in leptogenesis, S. Blanchet, P. Di Bari, G.G. Raffelt, JCAP 0703 (2007) 012, arXiv:hep-ph/0611337.
[Blanchet:2006ch]
[18-731]
Affleck-Dine baryogenesis in anomaly-mediated SUSY breaking, Masahiro Kawasaki, Kazunori Nakayama, JCAP 0702 (2007) 002, arXiv:hep-ph/0611320.
[Kawasaki:2006yb]
[18-732]
Soft leptogenesis in the inverse seesaw model, J. Garayoa, M. C. Gonzalez-Garcia, N. Rius, JHEP 02 (2007) 021, arXiv:hep-ph/0611311.
[Garayoa:2006xs]
[18-733]
Neutrino Phenomenology, Dark Energy and Leptogenesis from pseudo-Nambu-Goldstone Bosons, C.T. Hill, I. Mocioiu, E.A. Paschos, U. Sarkar, Phys. Lett. B651 (2007) 188-194, arXiv:hep-ph/0611284.
[Hill:2006hj]
[18-734]
Low-Energy Thermal Leptogenesis in an Extended NMSSM Model, Ernest Ma, Narendra Sahu, Utpal Sarkar, J. Phys. G34 (2007) 741-752, arXiv:hep-ph/0611257.
[Ma:2006te]
[18-735]
Towards constraints on the SUSY seesaw from flavour-dependent leptogenesis, S. Antusch, A. M. Teixeira, JCAP 0702 (2007) 024, arXiv:hep-ph/0611232.
[Antusch:2006gy]
[18-736]
Cosmological CPT Violation, Baryo/Leptogenesis And CMB Polarization, Mingzhe Li, Jun-Qing Xia, Hong Li, Xinmin Zhang, Phys. Lett. B651 (2007) 357-362, arXiv:hep-ph/0611192.
[Li:2006ss]
[18-737]
Neutrino Mass, Dark Matter, and Leptogenesis, Ernest Ma, Nucl. Phys. Proc. Suppl. 168 (2007) 347-349, arXiv:hep-ph/0611181.
[Ma:2006ms]
[18-738]
Spontaneous Non-thermal Leptogenesis in High-scale Inflation Models, Motoi Endo, Fuminobu Takahashi, T. T. Yanagida, Phys. Rev. D74 (2006) 123523, arXiv:hep-ph/0611055.
[Endo:2006nj]
[18-739]
Baryogenesis from an Earlier Phase Transition, Jing Shu, Tim M.P. Tait, Carlos E.M. Wagner, Phys. Rev. D75 (2007) 063510, arXiv:hep-ph/0610375.
[Shu:2006mm]
[18-740]
Neutrino Mass and Baryon Asymmetry from Dirac Seesaw, Pei-Hong Gu, Hong-Jian He, JCAP 0612 (2006) 010, arXiv:hep-ph/0610275.
[Gu:2006dc]
[18-741]
Simulations of Cold Electroweak Baryogenesis: Finite time quenches, Anders Tranberg, Jan Smit, Mark Hindmarsh, JHEP 01 (2007) 034, arXiv:hep-ph/0610096.
[Tranberg:2006dg]
[18-742]
CPT-odd Leptogenesis, Pavel A. Bolokhov, Maxim Pospelov, Phys. Rev. D74 (2006) 123517, arXiv:hep-ph/0610070.
[Bolokhov:2006wu]
[18-743]
Connecting Leptogenesis to CP Violation in Neutrino Mixings in a Tri-bimaximal Mixing model, R.N. Mohapatra, Hai-Bo Yu, Phys. Lett. B644 (2007) 346-351, arXiv:hep-ph/0610023.
[Mohapatra:2006se]
[18-744]
$\mu-\tau$ Symmetry and Radiatively Generated Leptogenesis, Y. H. Ahn, C. S. Kim, Sin Kyu Kang, Jake Lee, Phys. Rev. D75 (2007) 013012, arXiv:hep-ph/0610007.
[Ahn:2006rn]
[18-745]
Electric dipole moment constraints on minimal electroweak baryogenesis, Stephan J. Huber, Maxim Pospelov, Adam Ritz, Phys. Rev. D75 (2007) 036006, arXiv:hep-ph/0610003.
[Huber:2006ri]
[18-746]
A new bridge between leptonic CP violation and leptogenesis, G. C. Branco, R. Gonzalez Felipe, F. R. Joaquim, Phys. Lett. B645 (2007) 432-436, arXiv:hep-ph/0609297.
[Branco:2006ce]
[18-747]
Low Scale Seesaw, Electron EDM and Leptogenesis in a Model with Spontaneous CP Violation, Mu-Chun Chen, K.T. Mahanthappa, Phys. Rev. D75 (2007) 015001, arXiv:hep-ph/0609288.
[Chen:2006bv]
[18-748]
Analysis of Leptogenesis in Supersymmetric Triplet Seesaw Model, E.J. Chun, S. Scopel, Phys. Rev. D75 (2007) 023508, arXiv:hep-ph/0609259.
[Chun:2006sp]
[18-749]
Emanations of Dark Matter: Muon Anomalous Magnetic Moment, Radiative Neutrino Mass, and Novel Leptogenesis at the TeV Scale, Thomas Hambye, Kristjan Kannike, Ernest Ma, Martti Raidal, Phys. Rev. D75 (2007) 095003, arXiv:hep-ph/0609228.
[Hambye:2006zn]
[18-750]
Connecting low energy leptonic CP-violation to leptogenesis, S. Pascoli, S. T. Petcov, A. Riotto, Phys. Rev. D75 (2007) 083511, arXiv:hep-ph/0609125.
[Pascoli:2006ie]
[18-751]
Another Look at Minimal Lepton Flavour Violation, $ l_i \to l_j \gamma $, Leptogenesis, and the Ratio $M_\nu / \Lambda_{LFV}$, Gustavo C. Branco et al., JHEP 09 (2007) 004, arXiv:hep-ph/0609067.
[Branco:2006hz]
[18-752]
Soft Leptogenesis in Warped Extra Dimensions, Anibal D. Medina, Carlos E. M. Wagner, JHEP 12 (2006) 037, arXiv:hep-ph/0609052.
[Medina:2006hi]
[18-753]
Flavour-Dependent Leptogenesis with Sequential Dominance, S. Antusch, S.F. King, A. Riotto, JCAP 0611 (2006) 011, arXiv:hep-ph/0609038.
[Antusch:2006cw]
[18-754]
Decay of heavy Majorana neutrinos using the full Boltzmann equation including its implications for leptogenesis, Anders Basboll, Steen Hannestad, JCAP 0701 (2007) 003, arXiv:hep-ph/0609025.
[Basboll:2006yx]
[18-755]
Thermal Gravitino Production and Collider Tests of Leptogenesis, Josef Pradler, Frank Daniel Steffen, Phys. Rev. D75 (2007) 023509, arXiv:hep-ph/0608344.
[Pradler:2006qh]
[18-756]
Hidden Sector Baryogenesis, Bhaskar Dutta, Jason Kumar, Phys. Lett. B643 (2006) 284-289, arXiv:hep-th/0608188.
[Dutta:2006pt]
[18-757]
Baryogenesis, Dark Matter and the Pentagon, T. Banks, S. Echols, J.L. Jones, JHEP 11 (2006) 046, arXiv:hep-ph/0608104.
[Banks:2006xr]
[18-758]
Thermal leptogenesis in extended supersymmetric seesaw, M. Hirsch et al., Phys. Rev. D75 (2007) 011701, arXiv:hep-ph/0608006.
[Hirsch:2006ft]
[18-759]
Flavor effects on leptogenesis predictions, Steve Blanchet, Pasquale Di Bari, JCAP 0703 (2007) 018, arXiv:hep-ph/0607330.
[Blanchet:2006be]
[18-760]
TeV-scale Leptogenesis and Tri-bimaximal Neutrino Mixing in the Minimal Seesaw Model, Zhi-zhong Xing, Shun Zhou, Phys. Lett. B653 (2007) 278-287, arXiv:hep-ph/0607302.
[Xing:2006ms]
[18-761]
Lepton Flavor Violation and Supersymmetric Dirac Leptogenesis, Brooks Thomas, Manuel Toharia, Phys. Rev. D75 (2007) 013013, arXiv:hep-ph/0607285.
[Thomas:2006gr]
[18-762]
Leptogenesis and low energy CP phases with two heavy neutrinos, Kaushik Bhattacharya, Narendra Sahu, Utpal Sarkar, Santosh K. Singh, Phys. Rev. D74 (2006) 093001, arXiv:hep-ph/0607272.
[Bhattacharya:2006aw]
[18-763]
The Minimal Phantom Sector of the Standard Model: Higgs Phenomenology and Dirac Leptogenesis, D.G. Cerdeno, A. Dedes, T.E.J. Underwood, JHEP 09 (2006) 067, arXiv:hep-ph/0607157.
[Cerdeno:2006ha]
[18-764]
Flux of Primordial Monopoles, Shahida Dar, Qaisar Shafi, Arunansu Sil, Phys. Rev. D74 (2006) 035013, arXiv:hep-ph/0607129.
[Dar:2006cm]
[18-765]
New type of seesaw with MeV sterile neutrinos and low scale leptogenesis, Sin Kyu Kang, C. S. Kim, Phys. Lett. B646 (2007) 248-252, arXiv:hep-ph/0607072.
[Kang:2006sn]
[18-766]
CP violation and Leptogenesis in models with Minimal Lepton Flavour Violation, Vincenzo Cirigliano, Gino Isidori, Valentina Porretti, Nucl. Phys. B763 (2007) 228-246, arXiv:hep-ph/0607068.
[Cirigliano:2006nu]
[18-767]
Post-Sphaleron Baryogenesis, K.S. Babu, R.N. Mohapatra, S. Nasri, Phys. Rev. Lett. 97 (2006) 131301, arXiv:hep-ph/0606144.
[Babu:2006xc]
[18-768]
Non-thermal leptogenesis and baryon asymmetry in different neutrino mass models, G. Panotopoulos, Phys. Lett. B643 (2006) 279-283, arXiv:hep-ph/0606127.
[Panotopoulos:2006wj]
[18-769]
Flavour Matters in Leptogenesis, A. Abada et al., JHEP 09 (2006) 010, arXiv:hep-ph/0605281.
[Abada:2006ea]
[18-770]
Baryogenesis by R-parity violating top quark decays and neutron-antineutron oscillations, A.D. Dolgov, F.R. Urban, Nucl. Phys. B752 (2006) 297-315, arXiv:hep-ph/0605263.
[Dolgov:2006ay]
[18-771]
Baryogenesis in the Two-Higgs Doublet Model, Lars Fromme, Stephan J. Huber, Michael Seniuch, JHEP 11 (2006) 038, arXiv:hep-ph/0605242.
[Fromme:2006cm]
[18-772]
Breaking of $L_\mu$ - $L_\tau$ Flavor Symmetry, Lepton Flavor Violation and Leptogenesis, Toshihiko Ota, Werner Rodejohann, Phys. Lett. B639 (2006) 322-331, arXiv:hep-ph/0605231.
[Ota:2006xr]
[18-773]
Common Origin of Neutrino Mass, Dark Matter, and Baryogenesis, Ernest Ma, Mod. Phys. Lett. A21 (2006) 1777-1782, arXiv:hep-ph/0605180.
[Ma:2006fn]
[18-774]
Charged Lepton Decays $L_i \to L_j + \gamma$, Leptogenesis CP-Violating Parameters and Majorana Phases, S. T. Petcov, T. Shindou, Phys. Rev. D74 (2006) 073006, arXiv:hep-ph/0605151.
[Petcov:2006pc]
[18-775]
Leptogenesis in Realistic SO(10) Models, Xiangdong Ji et al., Phys. Lett. B651 (2007) 195-207, arXiv:hep-ph/0605088.
[Ji:2006tc]
[18-776]
Leptogenesis bound on neutrino masses in left-right symmetric models with spontaneous D-parity violation, Narendra Sahu, Utpal Sarkar, Phys. Rev. D74 (2006) 093002, arXiv:hep-ph/0605007.
[Sahu:2006pf]
[18-777]
Top transport in electroweak baryogenesis, Lars Fromme, Stephan J. Huber, JHEP 03 (2007) 049, arXiv:hep-ph/0604159.
[Fromme:2006wx]
[18-778]
Leptogenesis in a model of Dark Energy and Dark Matter, P. Q. Hung, arXiv:hep-ph/0604063, 2006.
[Hung:2006in]
[18-779]
Estimations of baryon asymmetry for different neutrino mass models, Amal Kr. Sarma, Hijam Zeen Devi, N. Nimai Singh, arXiv:hep-ph/0604040, 2006.
[Sarma:2006zk]
[18-780]
Soft breaking of $L_\mu-L_\tau$ symmetry: Light neutrino spectrum and Leptogenesis, Biswajit Adhikary, Phys. Rev. D74 (2006) 033002, arXiv:hep-ph/0604009.
[Adhikary:2006rf]
[18-781]
Right-Handed Sector Leptogenesis, Michele Frigerio, Thomas Hambye, Ernest Ma, JCAP 0609 (2006) 009, arXiv:hep-ph/0603123.
[Frigerio:2006gx]
[18-782]
Leptogenesis beyond the limit of hierarchical heavy neutrino masses, Steve Blanchet, Pasquale Di Bari, JCAP 0606 (2006) 023, arXiv:hep-ph/0603107.
[Blanchet:2006dq]
[18-783]
Bounds on neutrino masses from baryogenesis in thermal and non-thermal scenarios, Narendra Sahu, arXiv:hep-ph/0602201, 2006. Ph.D thesis.
[Sahu:2006sm]
[18-784]
Phased Breaking of mu-tau symmetry and Leptogenesis, Y. H. Ahn, Sin Kyu Kang, C. S. Kim, Jake Lee, Phys. Rev. D73 (2006) 093005, arXiv:hep-ph/0602160.
[Ahn:2006nu]
[18-785]
Affleck-Dine (Pseudo)-Dirac Neutrinogenesis, Steven Abel, Veronique Page, JHEP 05 (2006) 024, arXiv:hep-ph/0601149.
[Abel:2006hr]
[18-786]
The importance of flavor in leptogenesis, Enrico Nardi, Yosef Nir, Esteban Roulet, Juan Racker, JHEP 0601 (2006) 164, arXiv:hep-ph/0601084.
[Nardi:2006fx]
[18-787]
Flavour Issues in Leptogenesis, A. Abada et al., JCAP 0604 (2006) 004, arXiv:hep-ph/0601083.
[Abada:2006fw]
[18-788]
Baryogenesis via Leptogenesis in presence of cosmic strings, Narendra Sahu, Pijushpani Bhattacharjee, Urjit A Yajnik, Nucl. Phys. B752 (2006) 280-296, arXiv:hep-ph/0512350.
[Sahu:2005vu]
[18-789]
D-term Inflation and Leptogenesis by Right-handed Sneutrino, Kenji Kadota, J. Yokoyama, Phys. Rev. D73 (2006) 043507, arXiv:hep-ph/0512221.
[Kadota:2005mt]
[18-790]
Flavoured leptogenesis: a successful thermal leptogenesis with N_1 mass below 10^8 GeV, O. Vives, Phys. Rev. D73 (2006) 073006, arXiv:hep-ph/0512160.
[Vives:2005ra]
[18-791]
Comparison of Boltzmann Equations with Quantum Dynamics for Scalar Fields, Manfred Lindner, Markus Michael Muller, Phys. Rev. D73 (2006) 125002, arXiv:hep-ph/0512147.
[Lindner:2005kv]
[18-792]
Affleck-Dine baryogenesis and gravitino dark matter, Osamu Seto, Phys. Rev. D73 (2006) 043509, arXiv:hep-ph/0512071.
[Seto:2005pj]
[18-793]
On Higgs and sphaleron effects during the leptogenesis era, Enrico Nardi, Yosef Nir, Juan Racker, Esteban Roulet, JHEP 0601 (2006) 068, arXiv:hep-ph/0512052.
[Nardi:2005hs]
[18-794]
A scenario for leptogenesis at the TeV scale, Asmaa Abada, PoS HEP2005 (2006) 171, arXiv:hep-ph/0512018.
[Abada:2005uy]
[18-795]
Neutrinos in the simplest little Higgs scenario and TeV leptogenesis, Asmaa Abada, Gautam Bhattacharyya, Marta Losada, Phys. Rev. D73 (2006) 033006, arXiv:hep-ph/0511275.
[Abada:2005rt]
[18-796]
The CP-asymmetry in resonant leptogenesis, A. Anisimov, A. Broncano, M. Plumacher, Nucl. Phys. B737 (2006) 176, arXiv:hep-ph/0511248.
[Anisimov:2005hr]
[18-797]
Baryon and lepton number violation rates across the electroweak crossover, Y. Burnier, M. Laine, M. Shaposhnikov, JCAP 0602 (2006) 007, arXiv:hep-ph/0511246.
[Burnier:2005hp]
[18-798]
Generating the Baryon Asymmetry of the Universe in Split Fermion Models, Andrew Coulthurst, Phys. Rev. D73 (2006) 103517, arXiv:hep-ph/0511244.
[Coulthurst:2005hm]
[18-799]
Phenomenology of Dirac Neutrinogenesis in Split Supersymmetry, Brooks Thomas Manuel Toharia, Phys. Rev. D73 (2006) 063512, arXiv:hep-ph/0511206.
[Thomas:2005rs]
[18-800]
Constraints on SUSY Seesaw Parameters from Leptogenesis and Lepton Flavor Violation, F. Deppisch, H. Päs, R. Rückl, A. Redelbach, Phys. Rev. D73 (2006) 033004, arXiv:hep-ph/0511062.
[Deppisch:2005rv]
[18-801]
Baryon and lepton numbers in two scenarios of leptogenesis, A. Kartavtsev, Phys. Rev. D73 (2006) 023514, arXiv:hep-ph/0511059.
[Kartavtsev:2005rs]
[18-802]
Leptogenesis, Yukawa Textures and Weak Basis Invariants, Gustavo C. Branco, M. N. Rebelo, J. I. Silva-Marcos, Phys. Lett. B633 (2006) 345, arXiv:hep-ph/0510412.
[Branco:2005jr]
[18-803]
Space-time curvature coupling of spinors in early universe: Neutrino asymmetry and a possible source of baryogenesis, Ujjal Debnath, Banibrata Mukhopadhyay, Naresh Dadhich, Mod. Phys. Lett. A21 (2006) 399, arXiv:hep-ph/0510351.
[Debnath:2005wk]
[18-804]
Neutrinos in a left-right model with a horizontal symmetry, Ken Kiers et al., Phys. Rev. D73 (2006) 033009, arXiv:hep-ph/0510274.
[Kiers:2005vx]
[18-805]
Models of Baryogenesis via Spontaneous Lorentz Violation, Sean M. Carroll, Jing Shu, Phys. Rev. D73 (2006) 103515, arXiv:hep-ph/0510081.
[Carroll:2005dj]
[18-806]
Dark Matter and the Baryon Asymmetry, Glennys R. Farrar, Gabrijela Zaharijas, Phys. Rev. Lett. 96 (2006) 041302, arXiv:hep-ph/0510079.
[Farrar:2005zd]
[18-807]
Dark matter and leptogenesis in gauged B-L symmetric models embedding $\nu$ MSM, Narendra Sahu, Urjit A Yajnik, Phys. Lett. B635 (2006) 11, arXiv:hep-ph/0509285.
[Sahu:2005fe]
[18-808]
R-parity violation assisted thermal leptogenesis in the seesaw mechanism, Y. Farzan, J. W. F. Valle, Phys. Rev. Lett. 96 (2006) 011601, arXiv:hep-ph/0509280.
[Farzan:2005ez]
[18-809]
Baryon asymmetry in the universe resulting from Lorentz violation, E. Di Grezia, S. Esposito, G. Salesi, Europhys. Lett. 74 (2006) 747-753, arXiv:hep-ph/0508298.
[DiGrezia:2005yx]
[18-810]
Spontaneous Leptogenesis in Brans-Dicke Cosmology, Chi-Yi Chen, You-Gen Shen, Bo Feng, High Energy Phys. Nucl. Phys. 29 (2005) 1033, arXiv:hep-ph/0508059.
[Chen:2005tr]
[18-811]
TeV leptogenesis in Z-prime models and its collider probe, Eung Jin Chun, Phys. Rev. D72 (2005) 095010, arXiv:hep-ph/0508050.
[Chun:2005tg]
[18-812]
TeV Scale Leptogenesis, $\theta_{13}$ And Doubly Charged Particles At LHC, Shahida Dar, Qaisar Shafi, Arunansu Sil, Phys. Lett. B632 (2006) 517, arXiv:hep-ph/0508037.
[Dar:2005hm]
[18-813]
Leptogenesis in Unified Theories with Type II See-Saw, Stefan Antusch, Steve F. King, JHEP 0601 (2006) 117, arXiv:hep-ph/0507333.
[Antusch:2005tu]
[18-814]
Electroweak Baryogenesis, Large Yukawas and Dark Matter, A. Provenza, M. Quiros, P. Ullio, JHEP 0510 (2005) 048, arXiv:hep-ph/0507325.
[Provenza:2005nq]
[18-815]
Thermal leptogenesis in brane world cosmology, Nobuchika Okada, Osamu Seto, Phys. Rev. D73 (2006) 063505, arXiv:hep-ph/0507279.
[Okada:2005kv]
[18-816]
Leptogenesis from reheating after inflation and cosmic string decay, Rachel Jeannerot, Marieke Postma, JCAP 0512 (2005) 006, arXiv:hep-ph/0507162.
[Jeannerot:2005ah]
[18-817]
Probing Physics in the Standard Model and Beyond with Electroweak Baryogenesis and Effective Theories of the Strong Interactions, Christopher Lee, arXiv:hep-ph/0507111, 2005.
[Lee:2005gj]
[18-818]
Leptogenesis and Dark Matter related?, Nicolas Cosme, Laura Lopez Honorez, Michel H.G. Tytgat, Phys. Rev. D72 (2005) 043505, arXiv:hep-ph/0506320.
[Cosme:2005sb]
[18-819]
Electroweak-Scale Resonant Leptogenesis, Apostolos Pilaftsis, Thomas E.J. Underwood, Phys. Rev. D72 (2005) 113001, arXiv:hep-ph/0506107.
[Pilaftsis:2005rv]
[18-820]
Dynamical CP Violation in the Early Universe and Leptogenesis, K.R.S. Balaji, Tirthabir Biswas, Robert H. Brandenberger, David London, Phys. Rev. D72 (2005) 056005, arXiv:hep-ph/0506013.
[Balaji:2005ha]
[18-821]
Baryogenesis and CP-Violating Domain Walls in the Background of a Magnetic Field, L. Campanelli, P. Cea, G. L. Fogli, L. Tedesco, JCAP 0603 (2006) 005, arXiv:astro-ph/0505531.
[Campanelli:2005xy]
[18-822]
Split Fermions Baryogenesis from the Kobayashi-Maskawa Phase, Gilad Perez, Tomer Volansky, Phys. Rev. D72 (2005) 103522, arXiv:hep-ph/0505222.
[Perez:2005yx]
[18-823]
Sneutrino Leptogenesis at the Electroweak Scale, John Ellis, Sin Kyu Kang, arXiv:hep-ph/0505162, 2005.
[Ellis:2005uk]
[18-824]
Decoupling, lepton flavour violation and leptogenesis, Krzysztof Turzynski, arXiv:hep-ph/0505078, 2005.
[Turzynski:2005px]
[18-825]
Cosmological Family Asymmetry and CP violation, T. Fujihara et al., Phys. Rev. D72 (2005) 016006, arXiv:hep-ph/0505076.
[Fujihara:2005pv]
[18-826]
Electroweak Baryogenesis from Late Neutrino Masses, Lawrence J. Hall, Hitoshi Murayama, Gilad Perez, Phys. Rev. Lett. 95 (2005) 111301, arXiv:hep-ph/0504248.
[Hall:2005aq]
[18-827]
Natural soft leptogenesis, Yuval Grossman, Ryuichiro Kitano, Hitoshi Murayama, JHEP 0506 (2005) 058, arXiv:hep-ph/0504160.
[Grossman:2005yi]
[18-828]
Supermassive gravitinos, dark matter, leptogenesis and flat direction baryogenesis, Rouzbeh Allahverdi et al., arXiv:hep-ph/0504102, 2005.
[Allahverdi:2005rh]
[18-829]
Bi-large neutrino mixing see-saw mass matrix with texture zeros and leptogenesis, Wei Chao, Xiao-Gang He, Xue-Qian Li, Commun. Theor. Phys. 45 (2006) 1073-1084, arXiv:hep-ph/0503285.
[Chao:2005td]
[18-830]
Non-thermal leptogenesis via direct inflaton decay without SU(2)(L) triplets, Thomas Dent, George Lazarides, Roberto Ruiz de Austri, Phys. Rev. D72 (2005) 043502, arXiv:hep-ph/0503235.
[Dent:2005gx]
[18-831]
Leptogenesis from Bilinear R-parity Violating Couplings, Ido Ben-Dayan, arXiv:hep-ph/0503232, 2005.
[Ben-Dayan:2005upt]
[18-832]
Electroweak Baryogenesis with Embedded Domain Walls, Robert H. Brandenberger, Wessyl Kelly, Masahide Yamaguchi, Prog. Theor. Phys. 117 (2007) 823-834, arXiv:hep-ph/0503211.
[Brandenberger:2005bx]
[18-833]
Constraint on $B-L$ cosmic string from leptogenesis with degenerate neutrinos, Pei-Hong Gu, Hong Mao, Phys. Lett. B619 (2005) 226, arXiv:hep-ph/0503126.
[Gu:2005gu]
[18-834]
Neutrino masses, mixing and leptogenesis in a two Higgs doublet model for the third generation, David Atwood, Shaouly Bar-Shalom, Amarjit Soni, Phys. Lett. B635 (2006) 112, arXiv:hep-ph/0502234.
[Atwood:2005bf]
[18-835]
The baryon content of the Universe, M. Persic, P. Salucci, Mon.Not.Roy.Astron. (2005), arXiv:astro-ph/0502178.
[Persic:1992hci]
[18-836]
S_3 Flavor Symmetry and Leptogenesis, Takeshi Araki, Jisuke Kubo, Emmanuel A. Paschos, Eur. Phys. J. C45 (2006) 465, arXiv:hep-ph/0502164.
[Araki:2005ec]
[18-837]
Seesaw geometry and leptogenesis, Pasquale Di Bari, Nucl. Phys. B727 (2005) 318, arXiv:hep-ph/0502082.
[DiBari:2005st]
[18-838]
Leptogenesis, $\mu-\tau$ Symmetry and $\theta_{13}$, R.N. Mohapatra, S. Nasri, Haibo Yu, Phys. Lett. B615 (2005) 231, arXiv:hep-ph/0502026.
[Mohapatra:2005ra]
[18-839]
Superstring Inspired E6 Model: Constraints Implied by Leptogenesis, A.V. Kartavtsev, J.Phys. G31 (2005) 1191-1206, arXiv:hep-ph/0412196.
[Kartavtsev:2005xu]
[18-840]
Baryogenesis after Hyperextended Inflation, Antonio De Felice, Mark Trodden, Phys. Rev. D72 (2005) 043512, arXiv:hep-ph/0412020.
[DeFelice:2004uv]
[18-841]
Anomaly-induced baryogenesis, Archil Kobakhidze, arXiv:hep-ph/0411380, 2004.
[Kobakhidze:2004hx]
[18-842]
Electroweak baryogenesis and quantum corrections to the triple Higgs boson coupling, Shinya Kanemura, Yasuhiro Okada, Eibun Senaha, Phys. Lett. B606 (2005) 361, arXiv:hep-ph/0411354.
[Kanemura:2004ch]
[18-843]
Relating Leptogenesis to Low Energy Flavor Violating Observables in Models with Spontaneous CP Violation, Mu-Chun Chen, K.T. Mahanthappa, Phys. Rev. D71 (2005) 035001, arXiv:hep-ph/0411158.
[Chen:2004ww]
[18-844]
Neutrino helicity asymmetries in leptogenesis, Luis Bento, Francisco C. Santos, Phys. Rev. D71 (2005) 096001, arXiv:hep-ph/0411023.
[Bento:2004xu]
[18-845]
Leptogenesis and $\mu-\tau$ symmetry, R.N. Mohapatra, S. Nasri, Phys. Rev. D71 (2005) 033001, arXiv:hep-ph/0410369.
[Mohapatra:2004hta]
[18-846]
Electroweak Baryogenesis and New TeV Fermions, Marcela Carena, Ariel Megevand, Mariano Quiros, Carlos E.M. Wagner, Nucl. Phys. B716 (2005) 319, arXiv:hep-ph/0410352.
[Carena:2004ha]
[18-847]
Phenomenological Consequences of Soft Leptogenesis, Tamar Kashti, Phys. Rev. D71 (2005) 013008, arXiv:hep-ph/0410319.
[Kashti:2004vj]
[18-848]
Kinetic description of fermion flavor mixing and CP-violating sources for baryogenesis, Thomas Konstandin, Tomislav Prokopec, Michael G. Schmidt, Nucl. Phys. B716 (2005) 373, arXiv:hep-ph/0410135.
[Konstandin:2004gy]
[18-849]
Gauged B-L symmetry and baryogenesis via leptogenesis at TeV scale, Narendra Sahu, Urjit A. Yajnik, Phys. Rev. D71 (2005) 023507, arXiv:hep-ph/0410075.
[Sahu:2004sb]
[18-850]
A model for leptogenesis at the TeV scale, Asmaa Abada, Habib Aissaoui, Marta Losada, Nucl. Phys. B728 (2005) 55, arXiv:hep-ph/0409343.
[Abada:2004wn]
[18-851]
A New Mechanism For Baryogenesis Living Through Electroweak Era, Hyung Do Kim, Jihn E. Kim, Takuya Morozumi, Phys. Lett. B616 (2005) 108, arXiv:hep-ph/0409001.
[Kim:2004te]
[18-852]
Resonant tau leptogenesis with observable lepton number violation, Apostolos Pilaftsis, Phys. Rev. Lett. 95 (2005) 081602, arXiv:hep-ph/0408103.
[Pilaftsis:2004xx]
[18-853]
Low-scale standard supersymmetric leptogenesis, Martti Raidal, Alessandro Strumia, Krzysztof Turzynski, Phys. Lett. B609 (2005) 351-359, arXiv:hep-ph/0408015.
[Raidal:2004vt]
[18-854]
Leptogenesis in the minimal supersymmetric triplet seesaw model, G. D'Ambrosio et al., Phys. Lett. B604 (2004) 199, arXiv:hep-ph/0407312.
[DAmbrosio:2004rko]
[18-855]
Note about leptogenesis from gravity waves in models of inflation, David H. Lyth, Yeinzon Rodriguez, Carlos Quimbay, arXiv:hep-ph/0406329, 2004.
[Lyth:2004db]
[18-856]
Leptogenesis at the TeV scale, Asmaa Abada, Habib Aissaoui, Marta Losada, arXiv:hep-ph/0406304, 2004.
[Abada:2004vd]
[18-857]
A Minimal Model of Baryogenesis and Its Signatures in CMB, Bo Feng, Hong Li, Mingzhe Li, Xinmin Zhang, Phys. Lett. B620 (2005) 27, arXiv:hep-ph/0406269.
[Feng:2004mq]
[18-858]
Neutrino Mixing and Leptogenesis in Type II Seesaw Mechanism, Wan-lei Guo, Phys. Rev. D70 (2004) 053009, arXiv:hep-ph/0406268.
[Guo:2004mp]
[18-859]
Bound on neutrino masses from leptogenesis in type-II see-saw models, Narendra Sahu, S. Uma sankar, Phys. Rev. D71 (2005) 013006, arXiv:hep-ph/0406065.
[Sahu:2004ny]
[18-860]
Universal Neutrino Mass Hierarchy and Cosmological Baryon Number Asymmetry, Zhi-zhong Xing, Phys. Rev. D70 (2004) 071302, arXiv:hep-ph/0406047.
[Xing:2004ii]
[18-861]
Type II Leptogenesis and the Neutrino Mass Scale, Stefan Antusch, Steve F. King, Phys. Lett. B597 (2004) 199, arXiv:hep-ph/0405093.
[Antusch:2004xy]
[18-862]
Leptogenesis with triplet Higgs boson, Peihong Gu, Xiaojun Bi, Phys. Rev. D70 (2004) 063511, arXiv:hep-ph/0405092.
[Gu:2004xx]
[18-863]
Symmetric Mass Matrix with Two Zeros in SUSY SO(10) GUT, Lepton Flavor Violations and Leptogenesis, Masako Bando, Satoru Kaneko, Midori Obara, Morimitu Tanimoto, Prog.Theor.Phys. 112 (2004) 533, arXiv:hep-ph/0405071.
[Bando:2004hi]
[18-864]
The Kinetic Equation for Electroweak Baryogenesis, Jitesh Bhatt, Raghavan Rangarajan, Phys. Rev. D70 (2004) 127301, arXiv:hep-ph/0404284.
[Bhatt:2004cq]
[18-865]
Minimal seesaw model with tri/bi-maximal mixing and leptogenesis, Sanghyeon Chang, Sin Kyu Kang, Kim Siyeon, Phys. Lett. B597 (2004) 78, arXiv:hep-ph/0404187.
[Chang:2004wy]
[18-866]
Resonant leptogenesis in a predictive SO(10) grand unified model, Carl H. Albright, S.M. Barr, Phys. Rev. D70 (2004) 033013, arXiv:hep-ph/0404095.
[Albright:2004ws]
[18-867]
Low-scale leptogenesis and soft supersymmetry breaking, L. Boubekeur, T. Hambye, G. Senjanovic, Phys. Rev. Lett. 93 (2004) 111601, arXiv:hep-ph/0404038.
[Boubekeur:2004ez]
[18-868]
Late Leptogenesis from Radiative Soft Terms, Eung Jin Chun, Phys. Rev. D69 (2004) 117303, arXiv:hep-ph/0404029.
[Chun:2004eq]
[18-869]
Can One Phase Induce All CP Violations Including Leptogenesis?, Yoav Achiman, Phys. Lett. B599 (2004) 75, arXiv:hep-ph/0403309.
[Achiman:2004qf]
[18-870]
Inverted hybrid inflation and leptogenesis, V. N. Senoguz, Q. Shafi, Phys. Lett. B596 (2004) 8, arXiv:hep-ph/0403294.
[Senoguz:2004ky]
[18-871]
Gravitational Leptogenesis and Neutrino Mass Limit, Hong Li, Mingzhe Li, Xinmin Zhang, Phys. Rev. D70 (2004) 047302, arXiv:hep-ph/0403281.
[Li:2004hh]
[18-872]
Protecting the primordial baryon asymmetry in the SU(2)_{L} triplet Higgs model compatible with KamLAND and WMAP, K. Hasegawa, Phys. Rev. D70 (2004) 054002, arXiv:hep-ph/0403272.
[Hasegawa:2004bx]
[18-873]
Type II See-Saw Mechanism, Deviations from Bimaximal Neutrino Mixing and Leptogenesis, W. Rodejohann, Phys. Rev. D70 (2004) 073010, arXiv:hep-ph/0403236.
[Rodejohann:2004cg]
[18-874]
Viable Supersymmetry and Leptogenesis with Anomaly Mediation, Masahiro Ibe, Ryuichiro Kitano, Hitoshi Murayama, Tsutomu Yanagida, Phys. Rev. D70 (2004) 075012, arXiv:hep-ph/0403198.
[Ibe:2004tg]
[18-875]
TeV scale resonant leptogenesis from supersymmetry breaking, Thomas Hambye, John March-Russell, Stephen M. West, JHEP 0407 (2004) 070, arXiv:hep-ph/0403183.
[Hambye:2004jf]
[18-876]
Gravitational Baryogenesis, Hooman Davoudiasl et al., Phys. Rev. Lett. 93 (2004) 201301, arXiv:hep-ph/0403019.
[Davoudiasl:2004gf]
[18-877]
Leptonic CP violation phases using an ansatz for the neutrino mass matrix and application to leptogenesis, Salah Nasri, Joseph Schechter, Sherif Moussa, Phys. Rev. D70 (2004) 053005, arXiv:hep-ph/0402176.
[Nasri:2004rm]
[18-878]
Electroweak Baryogenesis in a Supersymmetric U(1)' Model, Junhai Kang, Paul Langacker, Tianjun Li, Tao Liu, Phys. Rev. Lett. 94 (2005) 061801, arXiv:hep-ph/0402086.
[Kang:2004pp]
[18-879]
Degenerate minimal see-saw and leptogenesis, Krzysztof Turzynski, Phys. Lett. B589 (2004) 135, arXiv:hep-ph/0401219.
[Turzynski:2004xy]
[18-880]
Leptogenesis from a sneutrino condensate revisited, Rouzbeh Allahverdi, Manuel Drees, Phys. Rev. D69 (2004) 103522, arXiv:hep-ph/0401054.
[Allahverdi:2004ix]
[18-881]
Leptogenesis in the type III seesaw mechanism, Carl H. Albright, S.M. Barr, Phys. Rev. D69 (2004) 073010, arXiv:hep-ph/0312224.
[Albright:2003xb]
[18-882]
Constraints on neutrino masses from leptogenesis models, Thomas Hambye et al., Nucl. Phys. B695 (2004) 169, arXiv:hep-ph/0312203.
[Hambye:2003rt]
[18-883]
Transport equations for chiral fermions to order \hbar and electroweak baryogenesis, T. Prokopec, M. G. Schmidt, S. Weinstock, Annals Phys. 314 (2004) 208, arXiv:hep-ph/0312110.
[Prokopec:2004ic]
[18-884]
Leptogenesis and a Jarlskog Invariant, Sacha Davidson, Ryuichiro Kitano, JHEP 0403 (2004) 020, arXiv:hep-ph/0312007.
[Davidson:2003yk]
[18-885]
Leptogenesis in seesaw models with a twofold-degenerate neutrino Dirac mass matrix, W. Grimus, L. Lavoura, J. Phys. G30 (2004) 1073, arXiv:hep-ph/0311362.
[Grimus:2003sf]
[18-886]
Hierarchical Matrices in the See-Saw Mechanism, large Neutrino Mixing and Leptogenesis, W. Rodejohann, Eur. Phys. J. C32 (2004) 235, arXiv:hep-ph/0311142.
[Rodejohann:2003gz]
[18-887]
TeV Scale Leptogenesis With Heavy Neutrinos, S. Dar, S. Huber, V. N. Senoguz, Q. Shafi, Phys. Rev. D69 (2004) 077701, arXiv:hep-ph/0311129.
[Dar:2003cr]
[18-888]
Radiatively induced leptogenesis in a minimal seesaw model, R. Gonzalez Felipe, F. R. Joaquim, B. M. Nobre, Phys. Rev. D70 (2004) 085009, arXiv:hep-ph/0311029.
[GonzalezFelipe:2003fi]
[18-889]
Thermal leptogenesis in a model with mass varying neutrinos, X.-J. Bi, P. Gu, X. Wang, X. Zhang, Phys. Rev. D69 (2004) 113007, arXiv:hep-ph/0311022.
[Bi:2003yr]
[18-890]
Calculable CP-violating Phases in the Minimal Seesaw Model of Leptogenesis and Neutrino Mixing, W.-L. Guo, Z.-Z. Xing, Phys. Lett. B583 (2004) 163, arXiv:hep-ph/0310326.
[Guo:2003cc]
[18-891]
Structure of Cosmological CP Violation via Neutrino Seesaw, V. Barger, D. A. Dicus, H.-J. He, T. Li, Phys. Lett. B583 (2004) 173, arXiv:hep-ph/0310278.
[Barger:2003gt]
[18-892]
Towards a complete theory of thermal leptogenesis in the SM and MSSM, G. F. Giudice et al., Nucl. Phys. B685 (2004) 89, arXiv:hep-ph/0310123.
[Giudice:2003jh]
[18-893]
Late Reheating, Hadronic Jets and Baryogenesis, Takehiko Asaka, Dmitri Grigoriev, Vadim Kuzmin, Mikhail Shaposhnikov, Phys. Rev. Lett. 92 (2004) 101303, arXiv:hep-ph/0310100.
[Asaka:2003vt]
[18-894]
Resonant Leptogenesis, A. Pilaftsis, T. E. J. Underwood, Nucl. Phys. B692 (2004) 303, arXiv:hep-ph/0309342.
[Pilaftsis:2003gt]
[18-895]
Protecting the primordial baryon asymmetry in the seesaw model compatible with WMAP and KamLAND, K. Hasegawa, Phys. Rev. D69 (2004) 013002, arXiv:hep-ph/0309098.
[Hasegawa:2003vh]
[18-896]
Primordial Lepton Family Asymmtries in Seesaw Model, T. Endoh, T. Morozumi, Z. Xiong, Prog. Theor. Phys. 111 (2004) 123, arXiv:hep-ph/0308276.
[Endoh:2003mz]
[18-897]
Soft Leptogenesis, G. D'Ambrosio, G. F. Giudice, M. Raidal, Phys. Lett. B575 (2003) 75, arXiv:hep-ph/0308031.
[DAmbrosio:2003nfv]
[18-898]
CMB constraints on non-thermal leptogenesis, A. Mazumdar, Phys. Lett. B580 (2004) 7, arXiv:hep-ph/0308020.
[Mazumdar:2003wm]
[18-899]
Neutrino Masses, Baryogenesis and Bilinear R-parity Violation, A.G. Akeroyd, E. J. Chun, M. A. Diaz, D.-W. Jung, Phys. Lett. B582 (2004) 64, arXiv:hep-ph/0307385.
[Akeroyd:2003pb]
[18-900]
Leptogenesis from Supersymmetry Breaking, Y. Grossman, T. Kashti, Y. Nir, E. Roulet, Phys. Rev. Lett. 91 (2003) 251801, arXiv:hep-ph/0307081.
[Grossman:2003jv]
[18-901]
Hierarchical Neutrino Mass Matrices, CP violation and Leptogenesis, L. Velasco-Sevilla, JHEP 0310 (2003) 035, arXiv:hep-ph/0307071.
[Velasco-Sevilla:2003fny]
[18-902]
Leptogenesis with four gauge singlets, A. Abada, M. Losada, Nucl. Phys. B673 (2003) 319, arXiv:hep-ph/0306180.
[Abada:2003rh]
[18-903]
Limits on $T_{\rm reh}$ for thermal leptogenesis with hierarchical neutrino masses, P. H. Chankowski, K. Turzynski, Phys. Lett. B570 (2003) 198, arXiv:hep-ph/0306059.
[Chankowski:2003rr]
[18-904]
Probing the seesaw mechanism with neutrino data and leptogenesis, E. Kh. Akhmedov, M. Frigerio, A. Yu. Smirnov, JHEP 0309 (2003) 021, arXiv:hep-ph/0305322.
[Akhmedov:2003dg]
[18-905]
Leptogenesis with supersymmetric Higgs triplets in TeV region, M. Senami, K. Yamamoto, Int. J. Mod. Phys. A21 (2006) 1291, arXiv:hep-ph/0305202.
[Senami:2003jn]
[18-906]
Leptogenesis in Neutrino Textures with Two Zeros, S. Kaneko, M. Katsumata, M. Tanimoto, JHEP 0307 (2003) 025, arXiv:hep-ph/0305014.
[Kaneko:2003cy]
[18-907]
Baryogenesis at the electroweak phase transition, Nicholas Petropoulos, arXiv:hep-ph/0304275, 2003.
[Petropoulos:2003pm]
[18-908]
Lopsided Mass Matrices and Leptogenesis in SO(10) GUT, T. Asaka, Phys. Lett. B562 (2003) 291, arXiv:hep-ph/0304124.
[Asaka:2003fp]
[18-909]
Baryogenesis in a flat direction with neither baryon nor lepton charge, Takeshi Chiba, Fuminobu Takahashi, Masahide Yamaguchi, Phys. Rev. Lett. 92 (2004) 011301, arXiv:hep-ph/0304102.
[Chiba:2003vp]
[18-910]
Coherent Baryogenesis, Bjorn Garbrecht, Tomislav Prokopec, Michael G. Schmidt, Phys. Rev. Lett. 92 (2004) 061303, arXiv:hep-ph/0304088.
[Garbrecht:2003mn]
[18-911]
The Neutrino Mass Window for Baryogenesis, W. Buchmuller, P. Di Bari, M. Plumacher, Nucl. Phys. B665 (2003) 445, arXiv:hep-ph/0302092.
[Buchmuller:2003gz]
[18-912]
From weak-scale observables to leptogenesis, S. Davidson, JHEP 0303 (2003) 037, arXiv:hep-ph/0302075.
[Davidson:2003cq]
[18-913]
On the Connection of Leptogenesis with Low Energy CP Violation and LFV Charged Lepton Decays, S. Pascoli, S. T. Petcov, W. Rodejohann, Phys. Rev. D68 (2003) 093007, arXiv:hep-ph/0302054.
[Pascoli:2003uh]
[18-914]
Cosmological Baryon Asymmetry and Neutrinos: Baryogenesis via Leptogenesis in Supersymmetric Theories, K. Hamaguchi, arXiv:hep-ph/0212305, 2002.
[Hamaguchi:2002vc]
[18-915]
Manifest CP Violation from Majorana Phases, A. de Gouvea, B. Kayser, R. Mohapatra, Phys. Rev. D67 (2003) 053004, arXiv:hep-ph/0211394.
[deGouvea:2002gf]
[18-916]
GUT Scale And Leptogenesis From 5D Inflation, B. Kyae, Q. Shafi, Phys. Lett. B556 (2003) 97, arXiv:hep-ph/0211059.
[Kyae:2003wm]
[18-917]
Minimal Scenarios for Leptogenesis and CP Violation, G. C. Branco et al., Phys. Rev. D67 (2003) 073025, arXiv:hep-ph/0211001.
[Branco:2002xf]
[18-918]
Leptogenesis in a prompt decay scenario, . Bento, arXiv:hep-ph/0210274, 2002.
[Bento:2002rz]
[18-919]
The Effective Lagrangian for the Seesaw Model of Neutrino Mass and Leptogenesis, A. Broncano, M. B. Gavela, E. Jenkins, Phys. Lett. B552 (2003) 177, arXiv:hep-ph/0210271.
[Broncano:2002rw]
[18-920]
Neutrino Mass Matrix with Two Zeros and Leptogenesis, S. Kaneko, M. Tanimoto, Phys. Lett. B551 (2003) 127, arXiv:hep-ph/0210155.
[Kaneko:2002yp]
[18-921]
Leptogenesis via multiscalar coherent evolution with supersymmetric neutrino see-saw, M. Senami, K. Yamamoto, Phys. Rev. D67 (2003) 095005, arXiv:hep-ph/0210073.
[Senami:2002jg]
[18-922]
A bound on neutrino masses from baryogenesis, W. Buchmuller, P. Di Bari, M. Plumacher, Phys. Lett. B547 (2002) 128-132, arXiv:hep-ph/0209301.
[Buchmuller:2002jk]
[18-923]
Leptogenesis within a predictive G(223)/SO(10) framework, J. C. Pati, arXiv:hep-ph/0209160, 2002.
[Pati:2002pe]
[18-924]
CP violation in neutrino oscillation and leptogenesis, T. Endoh, S. Kaneko, S. K. Kang, T. Morozumi, M. Tanimoto, Phys. Rev. Lett. 89 (2002) 231601, arXiv:hep-ph/0209020.
[Endoh:2002wm]
[18-925]
Non-thermal leptogenesis with almost degenerate superheavy neutrinos, R. Allahverdi, A. Mazumdar, Phys. Rev. D67 (2003) 023509, arXiv:hep-ph/0208268.
[Allahverdi:2002gz]
[18-926]
Leptogenesis at Low Scale, L. Boubekeur, arXiv:hep-ph/0208003, 2002.
[Boubekeur:2002jn]
[18-927]
Baryogenesis and Gravitino Dark Matter in Gauge-Mediated Supersymmetry-Breaking Models, Masaaki Fujii, T. Yanagida, Phys. Rev. D66 (2002) 123515, arXiv:hep-ph/0207339.
[Fujii:2002yx]
[18-928]
Leptogenesis without CP Violation at Low Energies, M. N. Rebelo, Phys. Rev. D67 (2003) 013008, arXiv:hep-ph/0207236.
[Rebelo:2002wj]
[18-929]
Leptogenesis, mass hierarchies and low energy parameters, W. Rodejohann, Phys. Lett. B542 (2002) 100-110, arXiv:hep-ph/0207053.
[Rodejohann:2002hx]
[18-930]
$\mu$-term as the origin of lepton number asymmetry, D. Suematsu, J. Phys. G31 (2005) 445, arXiv:hep-ph/0207039.
[Suematsu:2002hh]
[18-931]
Non-thermal Leptogenesis from the Heavier Majorana Neutrinos, T. Asaka, H. B. Nielsen, Y. Takanishi, Nucl. Phys. B647 (2002) 252-274, arXiv:hep-ph/0207023.
[Asaka:2002zu]
[18-932]
Leptogenesis and low-energy phases, A. Ibarra S. Davidson, Nucl. Phys. B648 (2003) 345-375, arXiv:hep-ph/0206304.
[Davidson:2002em]
[18-933]
Observable Consequences of Partially Degenerate Leptogenesis, J. R. Ellis, M. Raidal, T. Yanagida, Phys. Lett. B546 (2002) 228-236, arXiv:hep-ph/0206300.
[Ellis:2002eh]
[18-934]
Realistic Dirac Leptogenesis, A. Pierce H. Murayama, Phys. Rev. Lett. 89 (2002) 271601, arXiv:hep-ph/0206177.
[Murayama:2002je]
[18-935]
Cosmic Microwave Background, Matter-Antimatter Asymmetry and Neutrino Masses, W. Buchmuller, P. Di Bari, M. Plumacher, Nucl. Phys. B643 (2002) 367-390, arXiv:hep-ph/0205349.
[Buchmuller:2002rq]
[18-936]
Flat manifold leptogenesis in the supersymmetric standard model, M. Senami, K. Yamamoto, Phys. Rev. D66 (2002) 035006, arXiv:hep-ph/0205041.
[Senami:2002kn]
[18-937]
A lower bound on the right-handed neutrino mass from leptogenesis, S. Davidson, A. Ibarra, Phys. Lett. B535 (2002) 25-32, arXiv:hep-ph/0202239.
[Davidson:2002qv]
[18-938]
Leptogenesis with Almost Degenerate Majorana Neutrinos, Masaaki Fujii, K. Hamaguchi, T. Yanagida, Phys. Rev. D65 (2002) 115012, arXiv:hep-ph/0202210.
[Fujii:2002jw]
[18-939]
Leptogenesis from sneutrino-dominated early universe, Koichi Hamaguchi, Hitoshi Murayama, T. Yanagida, Phys. Rev. D65 (2002) 043512, arXiv:hep-ph/0109030.
[Hamaguchi:2001gw]
[18-940]
Affleck-Dine leptogenesis with triplet Higgs, M. Senami, K. Yamamoto, Phys. Lett. B524 (2002) 332-341, arXiv:hep-ph/0105054.
[Senami:2001qn]
[18-941]
Baryogenesis via neutrino oscillations, E. Kh. Akhmedov, V. A. Rubakov, A. Yu. Smirnov, Phys. Rev. Lett. 81 (1998) 1359-1362, arXiv:hep-ph/9803255.
[Akhmedov:1998qx]
[18-942]
Baryogenesis via leptogenesis, M. A. Luty, Phys. Rev. D45 (1992) 455-465.
[Luty:1992un]
[18-943]
Baryogenesis without grand unification, M. Fukugita, T. Yanagida, Phys. Lett. B174 (1986) 45.
[Fukugita:1986hr]
[18-944]
Mechanisms for cosmological baryon production, D. V. Nanopoulos, Steven Weinberg, Phys. Rev. D20 (1979) 2484.
[Nanopoulos:1979gx]
[18-945]
Cosmological production of baryons, Steven Weinberg, Phys. Rev. Lett. 42 (1979) 850-853.
[Weinberg:1979bt]

19 - Theory - Leptogenesis and Baryogenesis - Talks

[19-1]
Dynamical Generation of the Baryon Asymmetry from a Scale Hierarchy, Jae Hyeok Chang, Kwang Sik Jeong, Chang Hyeon Lee, Chang Sub Shin, arXiv:2401.13734, 2024.
[Chang:2024xjd]
[19-2]
Light sterile neutrino and leptogenesis, Ki-Young Jung, Kim Siyeon, J.Korean Phys.Soc. 81 (2022) 1211-1224, arXiv:2205.13860. NEUTRINO 2022.
[Jung:2022bgu]
[19-3]
Gravitational waves from neutrino mass genesis, Pasquale Di Bari, PoS CORFU2021 (2022) 064, arXiv:2205.05744. Corfu Summer Institute 2021.
[DiBari:2022zhe]
[19-4]
Sterile Neutrino Dark Matter and Leptogenesis in Left-Right Symmetric Theories, David Dunsky, Lawrence J. Hall, Keisuke Harigaya, arXiv:2105.08065, 2021. 2021 EW session of the 55th Rencontres de Moriond.
[Dunsky:2021yaj]
[19-5]
$\nu$ Electroweak Baryogenesis, S. Rosauro-Alcaraz, arXiv:2105.01452, 2021. 2021 EW session of the 55th Rencontres de Moriond.
[Rosauro-Alcaraz:2021fbf]
[19-6]
Testability of leptogenesis with three RH-neutrinos below the electroweak scale, Michele Lucente, arXiv:1906.11869, 2019. Rencontres de Moriond EW 2019, 16-23 March 2019 in La Thuile, Italy.
[Lucente:2019fhl]
[19-7]
Quantum Anomalies, Running Vacuum and Leptogenesis: an Interplay, Spyros Basilakos, Nick E. Mavromatos, Joan Sola, PoS CORFU2018 (2019) 044, arXiv:1905.05685. Corfu2018, Corfu (Greece) and HEP2019, Athens (Greece).
[Basilakos:2019wxu]
[19-8]
Freeze-in leptogenesis with 3 right-handed neutrinos, Michele Lucente, Asmaa Abada, Giorgio Arcadi, Valerie Domcke, Marco Drewes, Juraj Klaric, PoS ICHEP2018 (2018) 306, arXiv:1811.08292. 39th International Conference on High Energy Physics (ICHEP2018), 4-11 July 2018, Seoul, Korea.
[Lucente:2018uaj]
[19-9]
WIMPy Leptogenesis in extended Scotogenic Model, Debasish Borah, Arnab Dasgupta, Sin Kyu Kang, PoS ICHEP2018 (2019) 929, arXiv:1811.02094. 39th International Conference on High Energy Physics, ICHEP 2018, Seoul, Korea.
[Borah:2018enf]
[19-10]
B-L Higgs Inflation in Supergravity With Several Consequences, C. Pallis, PoS CORFU2017 (2018) 086, arXiv:1804.07038. Corfu Summer Institute 2017.
[Pallis:2018acu]
[19-11]
Creating the Baryon Asymmetry from Lepto-Bubbles, Silvia Pascoli, Jessica Turner, Ye-Ling Zhou, arXiv:1704.08322, 2017. NuPhys 2016.
[Pascoli:2017glr]
[19-12]
Leptogenesis after Inflation in a Pati-Salam Model, Stuart Raby, AIP Conf.Proc. 1900 (2017) 020009, arXiv:1703.02558. CETUP' 2016 Conference, Lead, SD.
[Raby:2017trf]
[19-13]
Effects Of leptonic non-unitarity on lepton flavor violation, neutrino oscillation, leptogenesis and lightest neutrino mass, Gayatri Ghosh, Kalpana Bora, Springer Proc.Phys. 203 (2018) 309-311, arXiv:1612.09047. XXII DAE BRNS High energy physics symposium, 12 - 16 December, 2016, Delhi University, Delhi, India.
[Ghosh:2016xpw]
[19-14]
Leptogenesis: Improving predictions for experimental searches, Marco Drewes, Bjorn Garbrecht, Dario Gueter, Juraj Klaric, PoS ICHEP2016 (2017) 514, arXiv:1611.08504. ICHEP2016, August 3-10 2016, Chicago, USA.
[Drewes:2016fjh]
[19-15]
On the relation between the CP phases in the PMNS matrix, CP-violation with sterile neutrinos and leptogenesis, Marco Drewes, Bjorn Garbrecht, Dario Gueter, Juraj Klaric, arXiv:1611.04769, 2016. 18th International Workshop on Neutrino Factories and Future Neutrino Facilities Search (NuFact16) Quy Nhon, Vietnam, August 21-27, 2016.
[Drewes:2016blc]
[19-16]
Lepton number symmetry as a way to testable leptogenesis, M. Lucente, A. Abada, G. Arcadi, V. Domcke, arXiv:1605.05328, 2016. 51st Rencontres de Moriond EW 2016, 12-19 March 2016 in La Thuile, Italy.
[Lucente:2016zbs]
[19-17]
Leptogenesis in natural low-scale seesaw mechanisms, Michele Lucente, PoS EPS-HEP2015 (2015) 393, arXiv:1510.04611. The European Physical Society Conference on High Energy Physics, 22-29 July 2015 in Vienna, Austria.
[Lucente:2015tda]
[19-18]
Novel Scenarios for Majorana Neutrino Mass Generation and Leptogenesis from Kalb-Ramond Torsion, Nick E. Mavromatos, PoS PLANCK2015 (2015) 082, arXiv:1510.02457. Planck 2015, 18th International Conference From the Planck Scale to the Electroweak Scale, 25-29 May 2015,Ioannina, Greece.
[Mavromatos:2015afa]
[19-19]
How to avoid unnatural hierarchical thermal leptogenesis, Jackson D. Clarke, PoS PLANCK2015 (2015) 026, arXiv:1509.07242. 18th International Conference From the Planck Scale to the Electroweak Scale (2015).
[Clarke:2015aea]
[19-20]
Higgs relaxation and the matter-antimatter asymmetry of the universe, Alexander Kusenko, arXiv:1507.06007, 2015. 50th Rencontres de Moriond session, 'Electroweak interactions and unified theories', La Thuile, March 14-21, 2015.
[Kusenko:2015nta]
[19-21]
Leptogenesis during Axion Relaxation after Inflation, Kai Schmitz, arXiv:1503.08908, 2015. 2nd Toyama International Workshop on Higgs as a Probe of New Physics (HPNP 2015), February 11-15, 2015.
[Schmitz:2015nqa]
[19-22]
TeV Scale Lepton Number Violation and Baryogenesis, P. S. Bhupal Dev, Chang-Hun Lee, R. N. Mohapatra, J. Phys. Conf. Ser. 631 (2015) 012007, arXiv:1503.04970. DISCRETE 2014, London.
[BhupalDev:2015khe]
[19-23]
Flavour effects in Resonant Leptogenesis from semi-classical and Kadanoff-Baym approaches, P. S. Bhupal Dev, Peter Millington, Apostolos Pilaftsis, Daniele Teresi, J. Phys. Conf. Ser. 631 (2015) 012087, arXiv:1502.07987. DISCRETE 2014, London.
[BhupalDev:2015oxc]
[19-24]
Strong thermal Leptogenesis: an exploded view of the low energy neutrino parameters in the SO(10)-inspired model, Luca Marzola, arXiv:1410.5565, 2014. XXX International Workshop on High Energy Physics 'Particle and Astroparticle Physics, Gravitation and Cosmology: Predictions, Observations and New Projects', June 23-27 2014, Protvino, Russia.
[Marzola:2014bga]
[19-25]
Flavour Covariant Formalism for Resonant Leptogenesis, P. S. Bhupal Dev, Peter Millington, Apostolos Pilaftsis, Daniele Teresi, Nucl.Part.Phys.Proc. 273-275 (2016) 268-274, arXiv:1409.8263. ICHEP 2014, Valencia, Spain.
[BhupalDev:2014sxe]
[19-26]
Effective field theories: from Cosmology to Quark Gluon Plasma, Simone Biondini, Frascati Phys.Ser. 59 (2014) 14-18, arXiv:1409.0511. 4th Young Researchers Workshop 'Physics Challenges in the LHC Era', Frascati, May 12 and 15, 2014.
[Biondini:2014xna]
[19-27]
Impact of Lepton Number Violation at the LHC on Models of Leptogenesis, Frank F. Deppisch, Julia Harz, arXiv:1408.5351, 2014. LHCP 2014.
[Deppisch:2014hva]
[19-28]
Neutrino parameters and the $N_2$-dominated scenario of leptogenesis, Michele Re Fiorentin, Sophie E. King, J. Phys. Conf. Ser. 598 (2015) 012027, arXiv:1405.2318. NuPhys2013 Conference: Prospects in Neutrino Physics, 19-20 December 2013, IOP, London.
[ReFiorentin:2014uwn]
[19-29]
WIMPy Leptogenesis, Patrick Stengel, arXiv:1402.0930, 2014. 10th International Symposium on Cosmology and Particle Astrophysics (CosPA2013).
[Stengel:2014jta]
[19-30]
Unifying Asymmetric Inert Fermion Doublet Dark Matter and Leptogenesis with Neutrino Mass, Narendra Sahu, arXiv:1212.3951, 2012. Recontres du Vietnam,July 15-21, 'Beyond the SM of Particle Physics', Quinon, Vietnam.
[Sahu:2012cg]
[19-31]
Scalar triplet leptogenesis without right-handed neutrino decoupling, D. Aristizabal Sierra, Nucl. Phys. Proc. Suppl. 237-238 (2013) 43-45, arXiv:1212.3302. Neutrino Oscillation Workshop 2012 (NOW 2012), Conca Specchiulla (Otranto, Lecce, Italy), September 9-16, 2012.
[AristizabalSierra:2012pv]
[19-32]
Thermal right-handed neutrino self-energy in the non-relativistic regime, M. Laine, arXiv:1209.2869, 2012. Frontiers in Perturbative Quantum Field Theory, 10-12 September 2012, Bielefeld, Germany.
[Laine:2012nq]
[19-33]
Validity of quasi-degenerate neutrino mass models and their predictions on baryogenesis, Ng. K. Francis, N. Nimai Singh, Nucl. Phys. B863 (2012) 19-32, arXiv:1206.3420. 25th International Conference on neutrino physics and Astrophysics, Kyoto, Japan, July 2012.
[Francis:2012jj]
[19-34]
Dark Matter and Leptogenesis in the Inverse Seesaw, Francois-Xavier Josse-Michaux, Emiliano Molinaro, PoS EPS-HEP2011 (2011) 102, arXiv:1111.5036. 2011 Europhysics Conference on High Energy Physics-HEP 2011, July 21-27, 2011, Grenoble, Rhone-Alpes France.
[Josse-Michaux:2011wby]
[19-35]
Lepton mixing induced by flavour symmetry and Leptogenesis constraints, Ivo de Medeiros Varzielas, Fortsch. Phys. 59 (2011) 1083-1087, arXiv:1103.3476. Corfu Summer Institute 2010.
[deMedeirosVarzielas:2011ctm]
[19-36]
Two Questions About Neutrinos, Boris Kayser, arXiv:1012.4469, 2010. 22nd Rencontres de Blois.
[Kayser:2010xb]
[19-37]
Flavour in Soft Leptogenesis, Chee Sheng Fong, Frascati Phys.Ser. 51 (2010) 67-72, arXiv:1010.0369. 2nd Young Researchers Workshop 'Physics Challenges in the LHC Era', Frascati, May 10 and 13, 2010.
[Fong:2010nq]
[19-38]
Leptogenesis constraints from flavour symmetry induced lepton mixing, Ivo de Medeiros Varzielas, PoS ICHEP2010 (2010) 295, arXiv:1009.6232. ICHEP 2010.
[deMedeirosVarzielas:2010lgh]
[19-39]
Supersymmetric leptogenesis and light hidden sectors, Christoph Weniger, J. Phys. Conf. Ser. 259 (2010) 012075, arXiv:1009.5865. PASCOS, Valencia, 19-23 July 2010.
[Weniger:2010vw]
[19-40]
Leptogenesis with Friedberg-Lee Symmetry, Takeshi Araki, C.Q. Geng, Mod. Phys. Lett. A25 (2010) 1004-1013, arXiv:1004.1241. International Workshop on Dark Matter, Dark Energy and Matter-Antimatter Asymmetry, Hsinchu, Taiwan, 20-21 Nov. 2009.
[Araki:2010kj]
[19-41]
Thermal masses in leptogenesis, Clemens P. Kiessig, Michael Plumacher, AIP Conf. Proc. 1200 (2010) 999-1002, arXiv:0910.4872. 4 pages, 2 figures, proceedings of SUSY 20y09.
[Kiessig:2009cm]
[19-42]
On the Interplay Between the 'Low' and 'High' Energy CP-Violation in Leptogenesis, E. Molinaro, S.T. Petcov, PoS EPS-HEP2009 (2009) 291, arXiv:0909.2836. The 2009 Europhysics Conference on High Energy Physics, July 16 - 22, 2009, Krakow, Poland.
[Molinaro:2009an]
[19-43]
Leptogenesis and its Electromagnetic Variant, Boris Kayser, arXiv:0907.2664, 2009. 2009 Rencontres de Moriond on Electroweak Interactions and Unified Theories.
[Kayser:2009vf]
[19-44]
Purely Flavored Leptogenesis at the TeV Scale, Luis Alfredo Munoz, Frascati Phys.Ser. 48 (2009) 13-18, arXiv:0906.3457. Young Researchers Workshop 'Physics Challenges in the LHC Era', Frascati, May 11 and 14, 2009.
[Munoz:2009ir]
[19-45]
Can LHC disprove Leptogenesis ?, G. Vertongen, arXiv:0905.3661, 2009. XLIVth Rencontres de Moriond, Electroweak Interactions And Unified Theories, La Thuile, Aosta Valley, Italy, 7-14 Mar 2007.
[Vertongen:2009pn]
[19-46]
Leptogenesis and Low-energy Observables, Gustavo C. Branco, M. N. Rebelo, Nucl. Phys. Proc. Suppl. 188 (2009) 325-328, arXiv:0902.0162. NOW 2008: Neutrino Oscillation Workshop, 6-13 Sep 2008, Conca Specchiulla (Otranto), Lecce, Italy.
[Branco:2009mb]
[19-47]
CP Violation and Lightest Neutrino Mass Effects in Thermal Leptogenesis, E. Molinaro, S. T. Petcov, T. Shindou, Y. Takanishi, J. Phys. Conf. Ser. 171 (2009) 012077, arXiv:0901.3524. DISCRETE'08, Symposium on Prospects in the Physics of Discrete Symmetries, IFIC, Valencia, Spain, 11-16 December 2008.
[Molinaro:2009iv]
[19-48]
Leptogenesis and LHC Physics with Type III See-Saw, Shao-Long Chen, Xiao-Gang He, Int. J. Mod. Phys. Conf. Ser. 01 (2011) 18-27, arXiv:0901.1264. COSPA2008, APCTP, Pohang, Korea, 28/10 - 1/11, 2008.
[Chen:2009vx]
[19-49]
Leptogenesis in Complex Hybrid Inflation, Carlos Martinez Prieto, AIP Conf. Proc. 1083 (2008) 136-143, arXiv:0810.5166. AIP Conference Proceedings of the III International Meeting on Gravitation and Cosmology, Morelia, Mexico, May 26-30, 2008.
[Martinez-Prieto:2008xjt]
[19-50]
Leptogenesis in the E$_6$SSM: Flavour Dependent Lepton Asymmetries, S. F. King, R. Luo, D. J. Miller, R. Nevzorov, AIP Conf. Proc. 1078 (2009) 509-511, arXiv:0808.3739. SUSY08.
[King:2008gw]
[19-51]
Quantum Boltzmann equations in resonant leptogenesis, Andrea De Simone, arXiv:0805.2354, 2008. 43rd Rencontres de Moriond - EW session, La Thuile (Italy), 1-8 March 2008.
[DeSimone:2008ez]
[19-52]
The see-saw mechanism: neutrino mixing, leptogenesis and lepton flavor violation, Werner Rodejohann, Pramana 72 (2009) 217-227, arXiv:0804.3925. 10th Workshop In High Energy Physics Phenomenology (WHEPP 10), January 2008, Chennai, India.
[Rodejohann:2008xp]
[19-53]
Leptonic CP Violation and Leptogenesis, M. N. Rebelo, arXiv:0712.1930, 2007. 6th International Heidelberg Conference on Dark Matter in Astro and Particle Physics, Sydney, Australia, 24-28 Sep 2007.
[Rebelo:2007rv]
[19-54]
Spontaneous Lorentz Violation and Baryogenesis, Jing Shu, arXiv:0711.2519, 2007. 4th Meeting on CPT and Lorentz Symmetry (CPT 07), Bloomington, Indiana, August 8-11.
[Shu:2007wi]
[19-55]
Leptogenesis in SO(10) models with a left-right symmetric seesaw mechanism, A. Abada, P. Hosteins, F. -X. Josse-Michaux, S. Lavignac, arXiv:0710.5802, 2007. SUSY07.
[Abada:2007em]
[19-56]
Stability and leptogenesis in left-right symmetric seesaw models, Tomas Hallgren, arXiv:0710.2438, 2007. SUSY07.
[Hallgren:2007pk]
[19-57]
The Role of Lepton Flavours in Thermal Leptogenesis, F.X. Josse-Michaux, arXiv:0710.1978, 2007. XLIInd Rencontres de Moriond on Electroweak Interactions and Unified Theories, La Thuile, March 10-17, 2007.
[Josse-Michaux:2007crw]
[19-58]
Dirac phase leptogenesis, Steve Blanchet, J. Phys. Conf. Ser. 120 (2008) 022007, arXiv:0710.0570. TAUP 07 conference, Sep. 11-15, Sendai, Japan.
[Blanchet:2007qs]
[19-59]
Leptogenesis with exclusively low-energy CP Violation in the Context of Minimal Lepton Flavour Violation, Selma Uhlig, J. Phys. Conf. Ser. 110 (2008) 072045, arXiv:0709.4624. EPS HEP 2007, Manchester (UK).
[Uhlig:2007xe]
[19-60]
TeV scale model for neutrino masses, dark matter and leptogenesis, Narendra Sahu, AIP Conf. Proc. 939 (2007) 294-297, arXiv:0706.0948. International workshop on theoretical high energy physics (IWTHEP), Roorkee, 2007.
[Sahu:2007sc]
[19-61]
Recent Issues in Leptogenesis, Enrico Nardi, arXiv:0706.0487, 2007. XLII Rencontres de Moriond, La Thuile, Aosta Valley, Italy, March 10 - 17, 2007.
[Nardi:2007cf]
[19-62]
Flavoured Leptogenesis, Sacha Davidson, arXiv:0705.1590, 2007. Venice Neutrino Telescopes Conference.
[Davidson:2007xu]
[19-63]
Flavor effects in thermal leptogenesis, Steve Blanchet, Pasquale Di Bari, Nucl. Phys. Proc. Suppl. 168 (2007) 372-374, arXiv:hep-ph/0702089. NOW 2006, Conca Specchiulla, Sep. 9-16, 2006.
[Blanchet:2007hv]
[19-64]
Topics in Leptogenesis, Enrico Nardi, AIP Conf. Proc. 917 (2007) 82-89, arXiv:hep-ph/0702033. 6th Latin American Symposium on High Energy Physics (VI-SILAFAE), Puerto Vallarta, Mexico, November 1-8, 2006.
[Nardi:2007fs]
[19-65]
Gravi-Leptogenesis: Leptogenesis from Gravity Waves in Pseudo-scalar Driven Inflation Models, S. H. Alexander, M. Peskin, M. M. Sheikh-Jabbari, eConf C0605151 (2006) 0022, arXiv:hep-ph/0701139. IPM School and Conference on Lepton and Hadron Physics (IPM-LHP06), Tehran, Iran.
[Alexander:2006lty]
[19-66]
Seesaw mechanism and leptogenesis, D. Falcone, arXiv:hep-ph/0612041, 2006. Laboratoire de Physique Theorique, Orsay, France.
[Falcone:2006qi]
[19-67]
Leptogenesis and Gravitino Dark Matter, Wilfried Buchmuller, AIP Conf. Proc. 903 (2007) 56-64, arXiv:hep-ph/0611368. SUSY06, Irvine.
[Buchmuller:2006nj]
[19-68]
Electroweak Baryogenesis in the nMSSM, Thomas Konstandin, AIP Conf. Proc. 903 (2007) 689-692, arXiv:hep-ph/0610405. SUSY06, the 14th International Conference on Supersymmetry and the Unification of Fundamental Interactions, UC Irvine, California, 12-17 June 2006.
[Konstandin:2006nt]
[19-69]
Relating Leptogenesis to Low Energy CP Violation, Mu-Chun Chen, K.T. Mahanthappa, AIP Conf. Proc. 903 (2007) 303-306, arXiv:hep-ph/0610373. 14th International Conference on Supersymmetry and Unification of Fundamental Interactions (SUSY'06), Irvine, CA, 12-17 June 2006.
[Chen:2006gc]
[19-70]
Inflation, Strings, CMB anisotropies and Leptogenesis, Rachel Jeannerot, arXiv:hep-ph/0610295, 2006. Rencontres de Moriond 'Contents and Structures of the Universe', La Thuile, Italy, March 18-25, 2006.
[Jeannerot:2006dy]
[19-71]
Low scale leptogenesis with an SU(2)_L singlet scalar, Michele Frigerio, eConf C0605151 (2006) 0021, arXiv:hep-ph/0610211. IPM Conference on Lepton and Hadron Physics, Tehran, Iran, May 15-20, 2006.
[Frigerio:2006xv]
[19-72]
Minimal Lepton Flavour Violation and leptogenesis, V. Porretti, Conf.Proc. C060726 (2006) 304-307, arXiv:hep-ph/0610194. ICHEP06, Moscow, July 26 - August 2, 2006.
[Porretti:2006sh]
[19-73]
Aspects of matter-antimatter asymmetries in Astrophysics and relativistic heavy ion collisions, Fabio L. Braghin, arXiv:hep-ph/0609242, 2006. XXVVI Physics In Collisions (PIC), Buzios, Brasil, July 2006.
[Braghin:2006hh]
[19-74]
(Pseudo)-Dirac neutrinos and leptogenesis, Steven Abel, Veronique Page, AIP Conf. Proc. 878 (2006) 341-346, arXiv:hep-ph/0609140. Dark Side of the Universe Conference 2006 (DSU2006), Madrid, Spain, 20-24 June 2006.
[Abel:2006nv]
[19-75]
Baryogenesis by Heavy Quarks: Q-genesis, Jihn E. Kim, AIP Conf. Proc. 881 (2007) 65-72, arXiv:hep-ph/0608283. CICHEP-II.
[Kim:2006pb]
[19-76]
Simulations of Cold Electroweak Baryogenesis, Anders Tranberg, Jan Smit, Mark Hindmarsh, Nucl. Phys. A785 (2007) 102-105, arXiv:hep-ph/0608167. International Conference on Strong and Electroweak Matter (SEWM 2006), Upton, New York, 10-13 May 2006.
[Tranberg:2006nv]
[19-77]
Baryogenesis in the MSSM, nMSSM and NMSSM, Stephan J. Huber, Thomas Konstandin, Tomislav Prokopec, Michael G. Schmidt, Nucl. Phys. A785 (2007) 206-209, arXiv:hep-ph/0608017. 7th Conference on Strong and Electroweak Matter (SEWM06), Brookhaven National Laboratory, May 10-13, 2006.
[Huber:2006ma]
[19-78]
Supersymmetric Lepton Flavor Violation and Leptogenesis, S. Albino, F. Deppisch, R. Rückl, arXiv:hep-ph/0606226, 2006. XLIst Rencontres de Moriond, Electroweak Interactions and Unified Theories, La Thuile, Italy, March 11-18, 2006.
[Albino:2006xe]
[19-79]
Leptogenesis from right-handed neutrino decays to right-handed leptons, Thomas Hambye, arXiv:hep-ph/0606182, 2006. 41st Rencontres de Moriond on Electroweak Interactions and Unified Theories, La Thuile, Aosta Valley, Italy, 11-18 Mar 2006.
[Hambye:2006gk]
[19-80]
Relating leptogenesis and dark matter, Michel H.G. Tytgat, arXiv:hep-ph/0606140, 2006. 40th Rencontres de Moriond, Electroweak Interactions and Unified Theories, March 11 - 18, 2006.
[Tytgat:2006wy]
[19-81]
Observable Neutron-Anti-Neutron Oscillation, Baryogenesis and High Scale Seesaw, R. N. Mohapatra, Pramana 67 (2006) 783-792, arXiv:hep-ph/0605289. WHEPP9 symposium in Bhubaneswar, India; January, 2006.
[Mohapatra:2006ei]
[19-82]
LFV radiative Decays and Leptogenesis in the SUSY seesaw model, S. T. Petcov, T. Shindou, arXiv:hep-ph/0605204, 2006. XLIst Rencontres de Moriond, Electroweak Interactions and Unified Theories, La Thuile, Italy, 11-18 March 2006.
[Petcov:2006bn]
[19-83]
Neutrinos, leptonic CP violation and the origin of matter, F.R. Joaquim, arXiv:hep-ph/0512132, 2005. 'Symposium in Honour of Gustavo C. Branco: CP Violation and the Flavour Puzzle', Lisbon, Portugal, 19-20 July 2005.
[Joaquim:2005ke]
[19-84]
Fermion Mixing and Soft Leptogenesis in a SUSY SO(10) x SU(2)_F Model, Mu-Chun Chen, K.T. Mahanthappa, PoS HEP2005 (2006) 356, arXiv:hep-ph/0510296. EPS International Europhysics Conference on High Energy Physics (EPS-HEP2005), Lisbon, Portugal, 21-27 Jul 2005.
[Mahanthappa:2005fe]
[19-85]
Non-thermal Leptogenesis and a Prediction of Inflaton Mass in a Supersymmetric SO(10) Model, Takeshi Fukuyama, Tatsuru Kikuchi, Toshiyuki Osaka, JCAP 0506 (2005) 005, arXiv:hep-ph/0503201.
[Fukuyama:2005us]
[19-86]
Leptonic CP Violation and Baryon Asymmetry, M. N. Rebelo, arXiv:hep-ph/0502099, 2005. Fifth International Heidelberg Conference on Dark Matter In Astro And Particle Physics (DARK2004) at Texas A&M University, College Station, TX, USA October 3 - 9, 2004.
[Rebelo:2005wg]
[19-87]
Radiative leptogenesis in minimal seesaw models, F.R. Joaquim, Nucl. Phys. Proc. Suppl. 145 (2005) 276, arXiv:hep-ph/0501221. NOW 2004: Neutrino Oscillation Workshop, Conca Specchiulla, Otranto, Italy, 11-17 Sep 2004.
[Joaquim:2005zv]
[19-88]
Various realizations of leptogenesis and neutrino mass constraints, Thomas Hambye, arXiv:hep-ph/0412053, 2004. International Conference on the Seesaw Mechanism, Paris, France, 10-11 June 2004.
[Hambye:2004fn]
[19-89]
Neutrino Mass Models and Leptogenesis, S.F. King, Phys. Scripta T121 (2005) 178, arXiv:hep-ph/0411345. 10th International Symposium on Particles, Strings and Cosmology (Pascos04), Northeastern University, Boston, August 16-22, 2004 and Nobel Symposium 129 on Neutrino Physics, Haga Slott, Enkoping, Sweden, August 19-24, 2004.
[King:2004wd]
[19-90]
Bi-maximal mixing at GUT, the low energy data and the leptogenesis, S. Kanemura et al., Nucl. Phys. Proc. Suppl. 149 (2005) 357, arXiv:hep-ph/0411239. NuFact04, Osaka, Japan, July 26 - August 1, 2004.
[Kanemura:2004wy]
[19-91]
Seesaw mechanism and the baryon asymmetry, M. Raidal, arXiv:hep-ph/0410362, 2004. Seesaw25, Paris, June 10-11, 2004.
[Raidal:2004hk]
[19-92]
Electroweak Baryogenesis in the Next-to-MSSM, Shuichiro Tao, arXiv:hep-ph/0410246, 2004. 12th Int. Conference on Supersymmetry and Unification of Fundamental Interactions, SUSY04, Tsukuba, Japan, June 2004.
[Tao:2004my]
[19-93]
Coherent Baryogenesis and Nonthermal Leptogenesis: A comparison, Bjorn Garbrecht, Tomislav Prokopec, Michael G. Schmidt, arXiv:hep-ph/0410132, 2004. Strong and Electroweak Matter 2004 (SEWM2004), Helsinki, Finland, June 16-19, 2004.
[Garbrecht:2004gv]
[19-94]
Parametrizations of the Seesaw, or, can the Seesaw be tested?, Sacha Davidson, arXiv:hep-ph/0409339, 2004. Seesaw'25.
[Davidson:2004wi]
[19-95]
Implications of Running Neutrino Parameters for Leptogenesis and for Testing Model Predictions, Stefan Antusch, arXiv:hep-ph/0409229, 2004. 10th International Symposium on Particles, Strings and Cosmology (Pascos04), Northeastern University, Boston, August 16-22, 2004.
[Antusch:2004yf]
[19-96]
Cold Electroweak Baryogenesis, Jan Smit, arXiv:hep-ph/0409005, 2004. Strong and ElectroWeak Matter 2004.
[Smit:2004ti]
[19-97]
Gauge dilution in leptogenesis, N. Cosme, arXiv:hep-ph/0406283, 2004. XXXIXth Rencontres de Moriond, Electroweak Interactions and Unified Theories, La Thuile, Italy.
[Cosme:2004ra]
[19-98]
Leptogenesis, neutrino mixing data and the absolute neutrino mass scale, P. Di Bari, arXiv:hep-ph/0406115, 2004. 39th Rencontres de Moriond on Electroweak Interactions and Unified Theories, La Thuile, Aosta Valley, Italy, 21-28 Mar 2004.
[DiBari:2004en]
[19-99]
Models of maximal atmospheric neutrino mixing and leptogenesis, W. Grimus, L. Lavoura, arXiv:hep-ph/0405261, 2004. NOON2004, February 11-15, 2004, Tokyo, Japan.
[Grimus:2004cv]
[19-100]
Neutrino Masses and GUT Baryogenesis, J.A. Lopez-Perez, N. Rius, PoS AHEP2003 (2003) AHEP2003/048, arXiv:hep-ph/0404124. AHEP2003, Valencia, Spain, October 2003.
[Lopez-Perez:2003eqn]
[19-101]
Inflation and Leptogenesis in Five Dimensional SO(10), Bumseok Kyae, Qaisar Shafi, arXiv:hep-ph/0312257, 2003. 2nd Workshop on 'Physics Beyond The Standard Model', Ain Shams Univ., Cairo, Egypt, Feb. 17-20, 2003.
[Kyae:2003dh]
[19-102]
Oscillations and leptogenesis: what can we learn about right-handed neutrinos?, Michele Frigerio, arXiv:hep-ph/0312023, 2003. XV IFAE, Lecce (Italy), April 2003; IV NANP Conference, Dubna (Russia), June 2003; VIII TAUP Workshop, Seattle (USA), September 2003.
[Frigerio:2003zc]
[19-103]
Neutrino Data, CP violation and Cosmological Implications, M. N. Rebelo, arXiv:hep-ph/0311226, 2003. 4th International Conference on Physics Beyond the Standard Model: Beyond the Desert (BEYOND 03), Castle Ringberg, Tegernsee, Germany, 9-14 June 2003.
[Rebelo:2003qe]
[19-104]
Constraints on lepton flavour violation and leptogenesis, Martti Raidal, arXiv:hep-ph/0311115, 2003. Moriond 2003, EW session, March 2003.
[Raidal:2003cb]
[19-105]
Cosmology and CP Violation, Gustavo C. Branco, eConf C030603 (2003) VEN05, arXiv:hep-ph/0309215. Flavor Physics And CP Violation (FPCP 2003) 3-6 June 2003, Paris, France.
[Branco:2003hj]
[19-106]
Leptogenesis, E.A. Paschos, Pramana 62 (2004) 359, arXiv:hep-ph/0308261. IXth International Symposium on Particles, Strings and Cosmology at the Tata Institute of Fundamental Research, Mumbai (Bombay), India, during 3-8 January 2003.
[Paschos:2003jc]
[19-107]
Leptogenesis: a Link between the Matter-Antimatter Asymmetry and Neutrino Physics, J. Orloff, arXiv:hep-ph/0307351, 2003. XXXVIII Rencontres de Moriond: Electroweak Interactions and Unified Theories, Les Arcs, France, 15-22 March 2003.
[Orloff:2003bg]
[19-108]
Neutrinos and matter-antimatter asymmetry of the universe, Wilfried Buchmuller, arXiv:hep-ph/0306047, 2003. Neutrino Telescopes, Venice, March 2003.
[Buchmuller:2003jr]
[19-109]
From neutrino oscillations to baryogenesis, D. Falcone, arXiv:hep-ph/0305333, 2003. Fourth International School of Physics 'Bruno Pontecorvo', Capri, May 26-29, 2003.
[Falcone:2003jq]
[19-110]
An effective theory for Leptogenesis, A.Broncano, arXiv:hep-ph/0305131, 2003. XXXVIII Rencontres de Moriond (Electroweak Session).
[Broncano:2003ux]
[19-111]
Weak-scale implications of thermal leptogenesis in SUSY, Sacha Davidson, arXiv:hep-ph/0304120, 2003. Moriond 2003.
[Davidson:2003fj]
[19-112]
Leptogenesis with Left-Right domain walls, U. A. Yajnik, J. Cline, M. Rabikumar, Pramana 62 (2004) 771, arXiv:hep-ph/0304020.
[Yajnik:2003up]
[19-113]
News on leptogenesis, P. Di Bari, Aip Conf. Proc. 655 (2003) 208, arXiv:hep-ph/0211175. Third Tropical Workshop: Neutrinos, Branes and Cosmology, 19-23 August 2002, San Juan, Puerto Rico.
[DiBari:2002wi]
[19-114]
Tests of Leptogenesis at Low Energy, Thomas Hambye, arXiv:hep-ph/0210048, 2002. 14th Rencontres de Blois: Matter - Anti-matter Asymmetry, Blois, France, 17-22 June 2002.
[Hambye:2002nw]
[19-115]
Connecting Link Between Leptogenesis and Oscillations, Paul H. Frampton, Aip Conf. Proc. 655 (2003) 128, arXiv:hep-ph/0209273. Third Tropical Workshop on Particles and Cosmology. San Juan, Puerto Rico, August 2002.
[Frampton:2002ms]
[19-116]
Leptogenesis and Low energy CP violation, a link, T. Endoh, S. Kaneko, S. K. Kang, T. Morozumi, M. Tanimoto, J. Phys. G29 (2003) 1877, arXiv:hep-ph/0209098. 4th Nufac02, July 1-6, 2002.
[Endoh:2002sk]
[19-117]
Leptogenesis and CP Violation in Neutrino Oscillations, Zhi-zhong Xing, Nucl. Phys. Proc. Suppl. 117 (2003) 43-46, arXiv:hep-ph/0209066. ICHEP 2002, Amsterdam.
[Xing:2002yq]
[19-118]
Baryogenesis in the wake of inflation, Alexander Kusenko, arXiv:hep-ph/0112009, 2001. International Workshop on Particle Physics and the Early Universe (COSMO-01), Rovaniemi, Finland, 30 Aug - 4 Sep 2001.
[Kusenko:2001ji]

20 - Theory - Mirror World

[20-1]
CP Properties of Leptons in Mirror Mechanism, Igor T. Dyatlov, Phys.Atom.Nucl. 82 (2019) 144-152, arXiv:1812.02403.
[Dyatlov:2018koj]
[20-2]
Structures of Neutrino Mass Spectrum and Lepton Mixing: Results of Violated Mirror Symmetry, Igor T. Dyatlov, Phys.Atom.Nucl. 80 (2017) 679-689, arXiv:1703.00722.
[Dyatlov:2017amd]
[20-3]
On a Mirror Structure of Matter Fields, Rasulkhozha S. Sharafiddinov, arXiv:1612.01828, 2016.
[Sharafiddinov:2016iqq]
[20-4]
Spontaneous violation of mirror symmetry, Igor T. Dyatlov, Phys. Atom. Nucl. 78 (2015) 956-962, arXiv:1509.07280.
[Dyatlov:2015dea]
[20-5]
Quark and lepton mixing matrices: manifestations of a violated mirror symmetry, I.T. Dyatlov, Phys.Atom.Nucl. 78 (2015) 485, arXiv:1502.01501.
[Dyatlov:2015pwa]
[20-6]
Mirror left-right symmetry, Pei-Hong Gu, Phys. Lett. B713 (2012) 485-489, arXiv:1201.3551.
[Gu:2012in]
[20-7]
Neutrino mixing and masses in a left-right model with mirror fermions, R. Gaitan, A. Hernandez-Galeana, J. M. Rivera-Rebolledo, P. Fernandez de Cordoba, Eur. Phys. J. C72 (2012) 1859, arXiv:1201.3155.
[Gaitan:2012wf]
[20-8]
Mirror fermions, triplet Higgs and electroweak-scale Majorana mass M_R, P. Q. Hung, Phys. Lett. B649 (2007) 275-279, arXiv:hep-ph/0612004.
[Hung:2006ap]
[20-9]
Neutrino masses and mixing parameters in a left-right model with mirror fermions, R. Gaitan, A. Hernandez-Galeana, J. M. Rivera-Rebolledo, P. Fernandez de Córdoba, Eur.Phys.J.C (2006), arXiv:hep-ph/0605249.
[Gaitan:2006cu]

21 - Phenomenology

[21-1]
The $N_{\rm eff}$ at CMB challenges $U(1)_X$ light gauge boson scenarios, Dilip Kumar Ghosh, Purusottam Ghosh, Sk Jeesun, Rahul Srivastava, arXiv:2404.10077, 2024.
[Ghosh:2024cxi]
[21-2]
Neutrino dipole portal at a high energy $\mu$-collider, Daniele Barducci, Alessandro Dondarini, arXiv:2404.09609, 2024.
[Barducci:2024kig]
[21-3]
Constraints on the $X17$ boson from IceCube searches for non-standard interactions of neutrinos, Rikard Enberg, Yasar Hicyilmaz, Stefano Moretti, Carlos Perez de los Heros, Harri Waltari, arXiv:2404.04717, 2024.
[Enberg:2024ofo]
[21-4]
A plethora of long-range neutrino interactions probed by DUNE and T2HK, Sanjib Kumar Agarwalla, Mauricio Bustamante, Masoom Singh, Pragyanprasu Swain, arXiv:2404.02775, 2024.
[Agarwalla:2024ylc]
[21-5]
Introducing scalar leptoquarks into a 3-3-1 model to solve the $(g-2)_\mu $ puzzle, A. Doff, C. A. de S. Pires, arXiv:2403.19338, 2024.
[Doff:2024cap]
[21-6]
Minimal decaying dark matter: from cosmological tensions to neutrino signatures, Lea Fuss, Mathias Garny, Alejandro Ibarra, arXiv:2403.15543, 2024.
[Fuss:2024dam]
[21-7]
The electric dipole moment in a model for neutrino mass, dark matter and baryon asymmetry of the Universe, Kazuki Enomoto, Shinya Kanemura, Sora Taniguchi, arXiv:2403.13613, 2024.
[Enomoto:2024jyc]
[21-8]
Collider imprint of vector-like leptons in light of anomalous magnetic moment and neutrino data, Parham Dehghani, Mariana Frank, Benjamin Fuks, arXiv:2403.11862, 2024.
[Dehghani:2024lgz]
[21-9]
Rare $B$ and $K$ decays in a scotogenic model, Chuan-Hung Chen, Cheng-Wei Chiang, arXiv:2403.02897, 2024.
[Chen:2024cll]
[21-10]
On Lepton Flavor Violation and Dark Matter in Scotogenic model with Trimaximal Mixing, Tapender, Surender Verma, Sanjeev Kumar, arXiv:2402.16491, 2024.
[Tapender:2024ktc]
[21-11]
Neutrino phenomenology and keV dark matter in 2HDM with $A_4$ symmetry, V. V. Vien, arXiv:2402.13967, 2024.
[Vien:2024egc]
[21-12]
Holographic phenomenology via overlapping degrees of freedom, Oliver Friedrich, ChunJun Cao, Sean Carroll, Gong Cheng, Ashmeet Singh, arXiv:2402.11016, 2024.
[Friedrich:2024wps]
[21-13]
Light vector mediators at direct detection experiments, Valentina De Romeri, Dimitrios K. Papoulias, Christoph A. Ternes, arXiv:2402.05506, 2024.
[DeRomeri:2024dbv]
[21-14]
Testing the Number of Neutrino Species with a Global Fit of Neutrino Data, Manuel Ettengruber, Alan Zander, Philipp Eller, arXiv:2402.00490, 2024.
[Ettengruber:2024fcq]
[21-15]
Dirac or Majorana: Higgs-$Z^\prime$ probe to investigate neutrino nature, ShivaSankar K. A., Arindam Das, Kei Yagyu, arXiv:2402.00392, 2024.
[A:2024shl]
[21-16]
New Constraints on Gauged U(1)$_{L_\mu-L_\tau}$ Models via $Z-Z'$ Mixing, Kento Asai, Coh Miyao, Shohei Okawa, Koji Tsumura, arXiv:2401.17613, 2024.
[Asai:2024pzx]
[21-17]
SN1987A constraints to BSM models with extra neutral bosons near the trapping regime: $U(1)_{L_\mu-L_\tau}$ model as an illustrative example, Kwang-Chang Lai, Chun Sing Jason Leung, Guey-Lin Lin, arXiv:2401.16023, 2024.
[Lai:2024mse]
[21-18]
Heavy Neutral Leptons in Gauged $U(1)_{L_\mu-L_\tau}$ at Muon Collider, Ru-Yi He, Jia-Qi Huang, Jin-Yuan Xu, Fa-Xin Yang, Zhi-Long Han, Feng-Lan Shao, arXiv:2401.14687, 2024.
[He:2024dwh]
[21-19]
Effects on neutrino propagation in space-time foam of D-branes revisited, Chengyi Li, Bo-Qiang Ma, arXiv:2401.05867, 2024.
[Li:2024crc]
[21-20]
Hubble Tension and Cosmological Imprints of $U(1)_X$ Gauge Symmetry: $U(1)_{B_3 - 3 L_i}$ as a case study, Dilip Kumar Ghosh, Purusottam Ghosh, Sk Jeesun, Rahul Srivastava, arXiv:2312.16304, 2023.
[2312.16304]
[21-21]
Fermion Masses, Neutrino Mixing and Higgs-Mediated Flavor Violation in 3HDM with $S_3$ Permutation Symmetry, K. S. Babu, Yongcheng Wu, Shiyuan Xu, arXiv:2312.15828, 2023.
[Babu:2023oih]
[21-22]
Thermal Relic Right-Handed Neutrino Dark Matter, Yu Cheng, Jie Sheng, Tsutomu T. Yanagida, arXiv:2312.15637, 2023.
[Cheng:2023ver]
[21-23]
Tension between neutrino masses and gauge coupling unification in natural grand unified theories, Nobuhiro Maekawa, Taiju Tanii, arXiv:2312.14214, 2023.
[Maekawa:2023sme]
[21-24]
Limits on heavy neutral leptons, $Z'$ bosons and majorons from high-energy supernova neutrinos, Kensuke Akita, Sang Hui Im, Mehedi Masud, Seokhoon Yun, arXiv:2312.13627, 2023.
[Akita:2023iwq]
[21-25]
Neutrino masses from new Weinberg-like operators: Phenomenology of TeV scalar multiplets, Alessio Giarnetti, Juan Herrero-Garcia, Simone Marciano, Davide Meloni, Drona Vatsyayan, arXiv:2312.13356, 2023.
[Giarnetti:2023xtq]
[21-26]
Light Dirac neutrino portal dark matter with gauged $U(1)_{B-L}$ symmetry, Debasish Borah, Nayan Das, arXiv:2312.06777, 2023.
[Das:2023yhv]
[21-27]
Two Texture Zeros for Dirac Neutrinos in a Diagonal charged Lepton basis, Yessica Lenis, John D. Gomez, William A. Ponce, Richard H. Benavides, arXiv:2312.02797, 2023.
[Lenis:2023lgq]
[21-28]
Dark Matter Interpretation of Neutron Multiplicity Anomalies, Thomas Ward, Wladyslaw H. Trzaska, arXiv:2312.00814, 2023. TAUP 2023.
[Ward:2023pgw]
[21-29]
A closer look at the $U(1)_{B-L}$ explanation of the ATOMKI nuclear anomalies, P. M. Ferreira, B. L. Goncalves, F. R. Joaquim, JHEP 04 (2024) 003, arXiv:2311.18004.
[Ferreira:2023buj]
[21-30]
Neutrinos for TeV Neutralinos, Carsten Rott, Pearl Sandick, Ben Sheff, arXiv:2311.14802, 2023.
[Rott:2023inm]
[21-31]
Explaining ATOMKI, $(g-2)_\mu$, and MiniBooNE anomalies with light mediators in $U(1)_H$ extended model, Sumit Ghosh, Pyungwon Ko, arXiv:2311.14099, 2023.
[Ghosh:2023dgk]
[21-32]
Flipped SU(5): unification, proton decay, fermion masses and gravitational waves, Stephen F. King, George K. Leontaris, Ye-Ling Zhou, JHEP 03 (2024) 006, arXiv:2311.11857.
[King:2023wkm]
[21-33]
Complementary LHC searches for UV resonances of the $0\nu\beta\beta$ decay operators, Gang Li, Jiang-Hao Yu, Xiang Zhao, Phys.Rev.D 109 (2024) 055012, arXiv:2311.10079.
[Li:2023wfi]
[21-34]
Decoding Fermion Mass Pattern from Mass Hierarchy, Ying Zhang, arXiv:2311.09044, 2023.
[Zhang:2023emq]
[21-35]
Probing Dirac Neutrino Properties with Dilepton Signature, Wan-Lun Xu, Zhi-Long Han, Yi Jin, Honglei Li, Zongyang Lu, Zhao-Xia Meng, arXiv:2311.07109, 2023.
[Xu:2023hyb]
[21-36]
Two-zero textures for Dirac Neutrinos, Yessica Lenis, R. Martinez-Ramirez, Eduardo Peinado, William A. Ponce, arXiv:2311.06431, 2023.
[Lenis:2023wyr]
[21-37]
Relaxing cosmological constraints on current neutrino masses, Vitor da Fonseca, Tiago Barreiro, Nelson J. Nunes, Phys.Rev.D 109 (2024) 063517, arXiv:2311.01803.
[daFonseca:2023ury]
[21-38]
Neutrino mixing model for best-fit values of ${\theta}_{12}$ and ${\theta}_{13}$, Yuta Hyodo, Teruyuki Kitabayashi, arXiv:2310.17941, 2023.
[Hyodo:2023sku]
[21-39]
The $\nu_{R}$-philic scalar dark matter, Xun-Jie Xu, Siyu Zhou, Junyu Zhu, JCAP 04 (2024) 012, arXiv:2310.16346.
[Xu:2023xva]
[21-40]
Long-lived neutral fermions at the DUNE near detector, Julian Y. Gunther, Jordy de Vries, Herbi K. Dreiner, Zeren Simon Wang, Guanghui Zhou, JHEP 01 (2024) 108, arXiv:2310.12392.
[Gunther:2023vmz]
[21-41]
Scotogenic $U(1)_{L_{\mu}-L_{\tau}}$ origin of $(g-2)_\mu$, W-mass anomaly and 95 GeV excess, Debasish Borah, Satyabrata Mahapatra, Partha Kumar Paul, Narendra Sahu, Phys.Rev.D 109 (2024) 055021, arXiv:2310.11953.
[Borah:2023hqw]
[21-42]
On Dark Matter Self-interaction via Single Neutrino Exchange Potential, Yue Zhang, Phys.Dark Univ. 44 (2024) 101434, arXiv:2310.10743.
[Zhang:2023mcv]
[21-43]
Constraints on a Generalization of Geometric Quantum Mechanics from Neutrino and $B^0$-$\overline{B^0}$ Oscillations, Nabin Bhatta, Djordje Minic, Tatsu Takeuchi, JHEP 02 (2024) 031, arXiv:2310.07457.
[Bhatta:2023biy]
[21-44]
Feeton ($B-L$ Gauge Boson) Dark Matter for the 511-keV Gamma-Ray Excess and the Prediction of Low-energy Neutrino Flux, Yu Cheng, Weikang Lin, Jie Sheng, Tsutomu T. Yanagida, arXiv:2310.05420, 2023.
[Cheng:2023wiz]
[21-45]
Singlet-doublet fermion dark matter with Dirac neutrino mass, $(g-2)_\mu$ and $\Delta N_{\rm eff}$, Debasish Borah, Satyabrata Mahapatra, Dibyendu Nanda, Sujit Kumar Sahoo, Narendra Sahu, arXiv:2310.03721, 2023.
[Borah:2023dhk]
[21-46]
Predictions from scoto-seesaw with $A_4$ modular symmetry, Ranjeet Kumar, Priya Mishra, Mitesh Kumar Behera, Rukmani Mohanta, Rahul Srivastava, Phys.Lett.B 853 (2024) 138635, arXiv:2310.02363.
[Kumar:2023moh]
[21-47]
Singlet-doublet Dirac fermion dark matter from Peccei-Quinn symmetry, Robinson Longas, Andres Rivera, Cristian Ruiz, David Suarez, arXiv:2309.15052, 2023.
[Longas:2023bvq]
[21-48]
Unveiling Neutrino Mysteries with $\Delta(27)$ Symmetry, Manash Dey, Subhankar Roy, arXiv:2309.14769, 2023.
[Dey:2023bfa]
[21-49]
Inflation and Higgs Phenomenology in a Model Unifying the DFSZ Axion with the Majoron, Juhi Dutta, Michael Matlis, Gudrid Moortgat-Pick, Andreas Ringwald, arXiv:2309.10857, 2023.
[Dutta:2023lbw]
[21-50]
Anomaly-free dark matter models with one-loop neutrino masses and a gauged U(1) symmetry, T. de Boer, M. Klasen, S. Zeinstra, JHEP 01 (2024) 013, arXiv:2309.06920.
[deBoer:2023phz]
[21-51]
Cosmological Implications of Gauged $U(1)_{B-L}$ on $\Delta N_{m eff}$ in the CMB and BBN, Haidar Esseili, Graham D. Kribs, arXiv:2308.07955, 2023.
[Esseili:2023ldf]
[21-52]
New Constraint on Dark Photon at T2K Off-Axis Near Detector, Takeshi Araki, Kento Asai, Tomoya Iizawa, Hidetoshi Otono, Takashi Shimomura, Yosuke Takubo, JHEP 11 (2023) 056, arXiv:2308.01565.
[Araki:2023xgb]
[21-53]
Longer-Lived Mediators from Charged Mesons and Photons at Neutrino Experiments, Bhaskar Dutta, Aparajitha Karthikeyan, Doojin Kim, Phys.Rev.D 109 (2024) 075029, arXiv:2308.01491.
[Dutta:2023fnl]
[21-54]
Swampland criteria and neutrino generation in a non-cold dark matter universe, Martiros Khurshudyan, Astrophysics 66 (2023) 423-440, arXiv:2308.01233.
[Khurshudyan:2023cim]
[21-55]
R-parity Conserving Minimal SUSY U(1)$_{X}$ Model, Satsuki Oda, Nobuchika Okada, Nathan Papapietro, Dai-suke Takahashi, arXiv:2307.16480, 2023.
[Oda:2023dqj]
[21-56]
Predictions of $m_{ee}$ and neutrino mass from a consistent Froggatt-Nielsen model, Yu-Cheng Qiu, Jin-Wei Wang, Tsutomu T. Yanagida, Phys.Rev.D 108 (2023) 115021, arXiv:2307.16470.
[Qiu:2023igq]
[21-57]
Doubly-charged scalars of the Minimal Left-Right Symmetric Model at Muon Colliders, Mohamed Belfkir, Talal Ahmed Chowdhury, Salah Nasri, Phys.Lett.B 852 (2024) 138605, arXiv:2307.16111.
[Belfkir:2023lot]
[21-58]
Light Neutrinophilic Dark Matter from a Scotogenic Model, Johannes Herms, Sudip Jana, Vishnu P. K., Shaikh Saad, Phys.Lett.B 845 (2023) 138167, arXiv:2307.15760.
[Herms:2023cyy]
[21-59]
Hunting Nonstandard Neutrino Interactions and Leptoquarks in Dark Matter Experiments, Thomas Schwemberger, Volodymyr Takhistov, Tien-Tien Yu, arXiv:2307.15736, 2023.
[Schwemberger:2023hee]
[21-60]
Exploring Freeze-out and Freeze-in Dark Matter via Effective Froggatt-Nielsen Theory, Rusa Mandal, Tom Tong, JCAP 11 (2023) 074, arXiv:2307.14972.
[Mandal:2023jnv]
[21-61]
Parity Solution to the Strong CP Problem and a Unified Framework for Inflation, Baryogenesis, and Dark Matter, K. S. Babu, Rabindra N. Mohapatra, Nobuchika Okada, JHEP 01 (2024) 136, arXiv:2307.14869.
[Babu:2023srr]
[21-62]
Intergenerational gauged $B-L$ model and its implication to muon $g-2$ anomaly and thermal dark matter, Nobuchika Okada, Osamu Seto, Phys.Rev.D 108 (2023) 083504, arXiv:2307.14053.
[Okada:2023mdv]
[21-63]
A neutrino window to scalar leptoquarks: from low energy to colliders, Valentina De Romeri, Victor Martin Lozano, G. Sanchez Garcia, Phys.Rev.D 109 (2024) 055014, arXiv:2307.13790.
[DeRomeri:2023cjt]
[21-64]
Multimessenger search for electrophilic feebly interacting particles from supernovae, Pedro De la Torre Luque, Shyam Balaji, Pierluca Carenza, arXiv:2307.13731, 2023.
[DelaTorreLuque:2023huu]
[21-65]
A $\nu$ window onto leptoquarks?, Matthew Kirk, Shohei Okawa, Keyun Wu, JHEP 12 (2023) 093, arXiv:2307.11152.
[Kirk:2023fin]
[21-66]
Probing for chiral $Z^\prime$ gauge boson through scattering measurement experiments, Kento Asai, Arindam Das, Jinmian Li, Takaaki Nomura, Osamu Seto, arXiv:2307.09737, 2023.
[Asai:2023xxl]
[21-67]
Supercooling in Radiative Symmetry Breaking: Theory Extensions, Gravitational Wave Detection and Primordial Black Holes, Alberto Salvio, JCAP 12 (2023) 046, arXiv:2307.04694.
[Salvio:2023ynn]
[21-68]
Searching for heavy neutral lepton and lepton number violation through VBS at high-energy muon colliders, Tong Li, Chang-Yuan Yao, Man Yuan, JHEP 09 (2023) 131, arXiv:2306.17368.
[Li:2023lkl]
[21-69]
Neutrino magnetic moment and XENON1T excess, inert doublet dark matter in a Type-III radiative scenario, Shivaramakrishna Singirala, Dinesh Kumar Singha, Rukmani Mohanta, Phys.Rev.D 108 (2023) 095048, arXiv:2306.14801.
[Singirala:2023zos]
[21-70]
Left-Right Symmetry at FCC-hh, Miha Nemevsek, Fabrizio Nesti, Phys.Rev.D 108 (2023) 015030, arXiv:2306.12104.
[Nemevsek:2023hwx]
[21-71]
Probing Zee-Babu states at Muon Colliders, Talal Ahmed Chowdhury, Adil Jueid, Salah Nasri, Shaikh Saad, Phys.Rev.D 109 (2024) 075011, arXiv:2306.01255.
[Jueid:2023qcf]
[21-72]
Lepton flavor violating decays $l_j\rightarrow l_i \gamma\gamma$, Ming-Yue Liu, Shu-Min Zhao, Yi-Tong Wang, Xi Wang, Xin-Xin Long, Tong-Tong Wang, Hai-Bin Zhang, Tai-Fu Feng, Nucl.Phys.B 999 (2024) 116429, arXiv:2305.10663.
[Liu:2023uee]
[21-73]
Effects of Kaluza-Klein Neutrinos on $R_{D}$ and $R_{D^{*}}$, Janus Capellan Aban, Chuan-Ren Chen, Chrisna Setyo Nugroho, Phys.Lett.B 848 (2024) 138304, arXiv:2305.10305.
[Aban:2023pgq]
[21-74]
Exploring Models with Modular Symmetry in Neutrino Oscillation Experiments, Priya Mishra, Mitesh Kumar Behera, Papia Panda, Monojit Ghosh, Rukmani Mohanta, JHEP 09 (2023) 144, arXiv:2305.08576.
[Mishra:2023ekx]
[21-75]
Flavor-dependent long-range neutrino interactions in DUNE & T2HK: alone they constrain, together they discover, Masoom Singh, Mauricio Bustamante, Sanjib Kumar Agarwalla, JHEP 08 (2023) 101, arXiv:2305.05184.
[Singh:2023nek]
[21-76]
Minimal model inspired by family number and dark matter, Duong Van Loi, Cao H. Nam, Phung Van Dong, Phys.Rev.D 108 (2023) 095018, arXiv:2305.04681.
[VanLoi:2023pkt]
[21-77]
Present and future constraints on flavor-dependent long-range interactions of high-energy astrophysical neutrinos, Sanjib Kumar Agarwalla, Mauricio Bustamante, Sudipta Das, Ashish Narang, JHEP 08 (2023) 113, arXiv:2305.03675.
[Agarwalla:2023sng]
[21-78]
Linear seesaw mechanism from dark sector, A. E. Carcamo Hernandez, Vishnudath K. N., Jose W. F. Valle, arXiv:2305.02273, 2023.
[CarcamoHernandez:2023ncd]
[21-79]
Gravitational waves from a scotogenic two-loop neutrino mass model, Cesar Bonilla et al., arXiv:2305.01964, 2023.
[Bonilla:2023aij]
[21-80]
Neutron decay into a Dark Sector via Leptoquarks, Sara Khatibi, Phys.Rev.D 108 (2023) 055029, arXiv:2305.01727.
[Khatibi:2023fwv]
[21-81]
Precision CMB constraints on eV-scale bosons coupled to neutrinos, Stefan Sandner, Miguel Escudero, Samuel J. Witte, Eur.Phys.J.C 83 (2023) 709, arXiv:2305.01692.
[Sandner:2023ptm]
[21-82]
Discovering the Origin of Neutrino Masses at SHiP, Seyda Ipek, Douglas Tuckler, Phys.Rev.D 108 (2023) 015004, arXiv:2305.00017.
[Ipek:2023jdp]
[21-83]
Exploring the flavor structure of quarks and leptons with reinforcement learning, Satsuki Nishimura, Coh Miyao, Hajime Otsuka, JHEP 12 (2023) 021, arXiv:2304.14176.
[Nishimura:2020nre]
[21-84]
Keeping it Simple: Simplified Frameworks for Long-Lived Particles at Neutrino Facilities, Brian Batell, Wenjie Huang, Kevin J. Kelly, JHEP 08 (2023) 092, arXiv:2304.11189.
[Batell:2023mdn]
[21-85]
Constraints on NJL four-fermion effective interactions from neutrinoless double beta decay, Luca Pacioselli, Orlando Panella, Matteo Presilla, She-Sheng Xue, JHEP 11 (2023) 054, arXiv:2304.08042.
[Pacioselli:2023yol]
[21-86]
Lepton universality violation in the MF331 model, P. N. Thu, N. T. Duy, A. E. Carcamo Hernandez, D. T. Huong, PTEP 2023 (2023) 123B01, arXiv:2304.03003.
[Thu:2023xai]
[21-87]
Anomalous Tau Neutrino Appearance from Light Mediators in Short-Baseline Neutrino Experiments, P. S. Bhupal Dev, Bhaskar Dutta, Tao Han, Doojin Kim, Phys.Lett.B 850 (2024) 138500, arXiv:2304.02031.
[Dev:2023rqb]
[21-88]
Implications of NSI constraints from ANTARES and IceCube on a simplified $Z^\prime$ model, J. M. Cabarcas, A. Parada, Nestor Quintero, Phys.Lett.B 848 (2024) 138339, arXiv:2304.01388.
[Cabarcas:2023dkj]
[21-89]
SN1987A cooling due to Plasmon-Plasmon scattering in the Randall-Sundrum Model, Manish Kumar Sharma, Saumyen Kundu, Prasanta Kumar Das, Phys. Dark Univ. 40 (2023) 101218, arXiv:2304.00380.
[Sharma:2023zqb]
[21-90]
Connecting $(g-2)_\mu$ to neutrino mass, A. L. Cherchiglia, G. De Conto, C. C. Nishi, JHEP 08 (2023) 170, arXiv:2304.00038.
[Cherchiglia:2023utd]
[21-91]
Zee-model predictions for lepton flavor violation, Julian Heeck, Anil Thapa, Phys.Lett.B 841 (2023) 137910, arXiv:2303.13383.
[Heeck:2023iqc]
[21-92]
Beyond the Inert Doublet: imprints of Scotogenic Yukawa interactions at FCC-ee, Carlo Marzo, Aurora Melis, arXiv:2303.12232, 2023.
[Marzo:2023uxv]
[21-93]
Modular $A_4$ symmetry in 3+1 active-sterile neutrino masses and mixings, Mayengbam Kishan Singh, S. Robertson Singh, N. Nimai Singh, arXiv:2303.10922, 2023.
[Singh:2023jke]
[21-94]
Flavonic dark matter, Gauhar Abbas, Rathin Adhikari, Eung Jin Chun, Phys.Rev.D 108 (2023) 115035, arXiv:2303.10125.
[Abbas:2023ion]
[21-95]
An $SU(5)\times U(1)^\prime$ SUSY GUT with a 'vector-like chiral' fourth family to fit all low energy data, including the muon $g-2$, Harshal Kulkarni, Stuart Raby, JHEP 05 (2023) 152, arXiv:2303.07209.
[Kulkarni:2023fyq]
[21-96]
Probing generalized neutrino interactions with DUNE Near Detector, Pantelis Melas, Dimitrios K. Papoulias, Niki Saoulidou, JHEP 07 (2023) 190, arXiv:2303.07094.
[Melas:2023olz]
[21-97]
Retrieving texture zeros in 3+1 active-sterile neutrino framework under the action of $A_4$ modular-invariants, Maibam Ricky Devi, arXiv:2303.04900, 2023.
[Devi:2023vpe]
[21-98]
Neutrinoless double-beta decay in the neutrino-extended Standard Model, Wouter Dekens, Jordy de Vries, Emanuele Mereghetti, Javier Menendez, Pablo Soriano, Guanghui Zhou, Phys.Rev.C 108 (2023) 045501, arXiv:2303.04168.
[Dekens:2023iyc]
[21-99]
Neutrino mass and lepton-asymmetry in Scotogenic model, Sumit Satapathy, arXiv:2303.03959, 2023.
[Satapathy:2023ufz]
[21-100]
Fermion Dark Matter in Dynamical Scotogenic Model, Eung Jin Chun, Abhishek Roy, Sanjoy Mandal, Manimala Mitra, JHEP 08 (2023) 130, arXiv:2303.02681.
[Chun:2023vbh]
[21-101]
Flipped SU(6) Unification of the $SU(3)_c\times SU(3)_L\times U(1)_X$ Model, Fei Wang, Phys.Rev.D 109 (2024) 035019, arXiv:2303.01298.
[Wang:2023bmh]
[21-102]
Stability of the next-to-tribimaximal mixings under radiative corrections with the variation of SUSY breaking scale, Kh. Helensana Devi, K. Sashikanta Singh, N. Nimai Singh, Adv.High Energy Phys. 2023 (2023) 2365316, arXiv:2302.11852.
[HelensanaDevi:2023guk]
[21-103]
Oscillation probabilities for a PT-symmetric non-Hermitian two-state system, Jean Alexandre, Madeleine Dale, John Ellis, Robert Mason, Peter Millington, arXiv:2302.11666, 2023.
[Alexandre:2023afi]
[21-104]
Third-Family Quark-Lepton Unification and Electroweak Precision Tests, Lukas Allwicher, Gino Isidori, Javier M. Lizana, Nudzeim Selimovic, Ben A. Stefanek, JHEP 05 (2023) 179, arXiv:2302.11584.
[Allwicher:2023aql]
[21-105]
Conformal B-L and Pseudo-Goldstone Dark Matter, Rabindra N. Mohapatra, Nobuchika Okada, Phys.Rev.D 107 (2023) 095023, arXiv:2302.11072.
[Mohapatra:2023aei]
[21-106]
The Neutrino Magnetic Moment Portal and Supernovae: New Constraints and Multimessenger Opportunities, Vedran Brdar, Andre de Gouvea, Ying-Ying Li, Pedro A. N. Machado, Phys.Rev.D 107 (2023) 073005, arXiv:2302.10965.
[Brdar:2023tmi]
[21-107]
Dark Matter and $(g-2)_{e,\mu}$ in ISS(2,3) based Gauged $U(1)_{L_{e}-L{\mu}}$ Symmetric Model, Rishu Verma, Ankush, B. C. Chauhan, Phys.Dark Univ. 42 (2023) 101289, arXiv:2302.09282.
[Verma:2023ahz]
[21-108]
Can SUSY relax LNV constraints coming from loop corrections to light neutrino masses on the low-scale Seesaw?, J. Jones-Perez, O. Suarez-Navarro, Phys.Rev.D 107 (2023) 115003, arXiv:2302.08568.
[Jones-Perez:2023med]
[21-109]
A hidden gauged $U(1)$ addressing radiative neutrino mass, dark matter, $(g-2)_{\mu}$, and $H_0$ tension, Ujjal Kumar Dey, Hiroshi Okada, arXiv:2302.07008, 2023.
[Dey:2023xfb]
[21-110]
Leptoquark Search at the Forward Physics Facility, Kingman Cheung, Thong T. Q. Nguyen, C. J. Ouseph, Phys.Rev.D 108 (2023) 036014, arXiv:2302.05461.
[Cheung:2023gwm]
[21-111]
Can Leptonic Mixing Matrix have a Wolfenstein Form?, Ankur Panchal, G. Rajasekaran, Rahul Srivastava, JHEP 07 (2023) 151, arXiv:2302.03878.
[Panchal:2023seb]
[21-112]
Radiative Neutrino Mass with Electroweak Scale Majorana Dark Matter in Scotogenic Model, Avnish, Kirtiman Ghosh, Nucl.Phys.B 1002 (2024) 116524, arXiv:2302.03634.
[Avnish:2023zbl]
[21-113]
Signals of a New Gauge Boson from IceCube and Muon $g-2$, Dan Hooper, Joaquim Iguaz Juan, Pasquale D. Serpico, Phys.Rev.D 108 (2023) 023007, arXiv:2302.03571.
[Hooper:2023fqn]
[21-114]
SMEFT goes dark: Dark Matter models for four-fermion operators, Ricardo Cepedello, Fabian Esser, Martin Hirsch, Veronica Sanz, JHEP 09 (2023) 081, arXiv:2302.03485.
[Cepedello:2023yao]
[21-115]
Testing Neutrino Dipole Portal by Long-lived Particle Detectors at the LHC, Wei Liu, Yu Zhang, Eur.Phys.J.C 83 (2023) 568, arXiv:2302.02081.
[Liu:2023nxi]
[21-116]
Gauged $L_e-L_{\mu}-L_{\tau}$ symmetry, fourth generation, neutrino mass and dark matter, Satyabrata Mahapatra, Rabindra N. Mohapatra, Narendra Sahu, Phys.Lett.B 843 (2023) 138011, arXiv:2302.01784.
[Mahapatra:2023zhi]
[21-117]
Majorana CP violating phases, Chao-Shang Huang, arXiv:2302.01623, 2023.
[Huang:2023tjy]
[21-118]
Right-handed neutrino pair production via second-generation leptoquarks, Arvind Bhaskar, Yash Chaurasia, Kuldeep Deka, Tanumoy Mandal, Subhadip Mitra, Ananya Mukherjee, Phys.Lett.B 843 (2023) 138039, arXiv:2301.11889.
[Bhaskar:2023xkm]
[21-119]
Discrete dark matter mechanism as the source of neutrino mass scales, Cesar Bonilla, Johannes Herms, Omar Medina, Eduardo Peinado, JHEP 06 (2023) 078, arXiv:2301.10811.
[Bonilla:2023pna]
[21-120]
Sterile Neutrino Shape-shifting Caused by Dark Matter, Hooman Davoudiasl, Peter B. Denton, Phys.Rev.D 108 (2023) 035013, arXiv:2301.09651.
[Davoudiasl:2023uiq]
[21-121]
Fermion masses and mixings, FCNCs and $g-2$ muon anomaly in an extended 2HDM with $Q_6$ flavor symmetry, V. V. Vien, H. N. Long, A. E. Carcamo Hernandez, Juan Marchant Gonzalez, arXiv:2301.07811, 2023.
[Vien:2023zid]
[21-122]
Tri-bimaximal-Cabibbo Mixing: Flavour violations in the charged lepton sector, Mathew Thomas Arun, Anirudhan A. Madathil, Eur.Phys.J.C 83 (2023) 484, arXiv:2301.06942.
[ThomasArun:2023gyo]
[21-123]
Systematic study of one-loop realizations of $d=7$ long-range $0\nu\beta\beta$ decay operators, Ping-Tao Chen, Gui-Jun Ding, Chang-Yuan Yao, JHEP 03 (2023) 138, arXiv:2301.02503.
[Chen:2023xaz]
[21-124]
Constraints from the duration of supernova neutrino burst on resonant light gauge boson production by neutrinos, David G. Cerdeno, Marina Cermeno, Yasaman Farzan, Phys.Rev.D 107 (2023) 123012, arXiv:2301.00661.
[Cerdeno:2023kqo]
[21-125]
Eur.Phys.J.C 83 (2023) 44.
[Dreiner:2022zsc]
[21-126]
Neutrinophilic DM annihilation in a model with $U(1)_{L_\mu-L_\tau} \times U(1)_{H}$ gauge symmetry, Keiko I. Nagao, Takaaki Nomura, Hiroshi Okada, Takashi Shimomura, Phys.Rev.D 108 (2023) 055032, arXiv:2212.14528.
[Nagao:2022osm]
[21-127]
Mass Relations, Unification, and Proton Decay in the Mirror GUT Model, Yusuke Shimizu, Shonosuke Takeshita, arXiv:2212.13064, 2022.
[Shimizu:2022wsk]
[21-128]
Constraining scalar leptoquarks using COHERENT data, Roberta Calabrese, Jacob Gunn, Gennaro Miele, Stefano Morisi, Samiran Roy, Pietro Santorelli, Phys.Rev.D 107 (2023) 055039, arXiv:2212.11210.
[Calabrese:2022mnp]
[21-129]
Revamping Kaluza-Klein dark matter in an orbifold theory of flavor, Francisco J. de Anda, Omar Medina, Jose W.F. Valle, Carlos A. Vaquera-Araujo, Phys.Rev.D 108 (2023) 035046, arXiv:2212.09174.
[deAnda:2022rpw]
[21-130]
Probing Lepton Number Violation and Majorana Nature of Neutrinos at the LHC, K. S. Babu, Rahool Kumar Barman, Dorival Goncalves, Ahmed Ismail, arXiv:2212.08025, 2022.
[Babu:2022ycv]
[21-131]
Constraining Non-minimal Dark Sector Scenarios with the COHERENT Neutrino Scattering Data, A. Elpe, E. Akyumuk, T. M. Aliev, L. Selbuz, I. Turan, Phys.Rev.D 107 (2023) 075022, arXiv:2212.06861.
[Elpe:2022hqp]
[21-132]
Phenomenological and cosmological implications of a scotogenic three-loop neutrino mass model, Asmaa Abada, Nicolas Bernal, Antonio E. Carcamo Hernandez, Sergey Kovalenko, Tessio B. de Melo, Takashi Toma, JHEP 03 (2023) 035, arXiv:2212.06852.
[Abada:2022dvm]
[21-133]
Speed Variations of Cosmic Photons and Neutrinos from Loop Quantum Gravity, Hao Li, Bo-Qiang Ma, Phys.Lett.B 836 (2023) 137613, arXiv:2212.04220.
[Li:2022szn]
[21-134]
Minimal spontaneous CP-violating GUT and predictions for leptonic CP phases, Ketan M. Patel, Phys.Rev.D 107 (2023) 075041, arXiv:2212.04095.
[Patel:2022xxu]
[21-135]
A Right-handed Neutrino Portal to the Hidden sector : Active Neutrinos and their Twins in an F-theory model, Junichiro Kawamura, Stuart Raby, JHEP 02 (2023) 239, arXiv:2212.00840.
[Kawamura:2022ygc]
[21-136]
Dineutron decay into sterile anti-neutrinos in neutron stars and its observable consequences, Yongliang Hao, Dongdong Ni, Phys.Rev.D 107 (2023) 035026, arXiv:2211.16163.
[Hao:2022xyj]
[21-137]
Minimal Zee model for lepton \textbackslash{}boldmath{${g-2}$} and $W$-mass shifts, R. Primulando, J. Julio, P. Uttayarat, Phys.Rev.D 107 (2023) 055034, arXiv:2211.16021.
[Primulando:2022vip]
[21-138]
Revisiting the Universal Texture Zero of Flavour: a Markov Chain Monte Carlo Analysis, Jordan Bernigaud, Ivo de Medeiros Varzielas, Miguel Levy, Jim Talbert, Eur.Phys.J.C 83 (2023) 479, arXiv:2211.15700.
[Bernigaud:2022sgk]
[21-139]
Neutrino Non-standard Interactions with arbitrary couplings to u and d quarks, Nicolas Bernal, Yasaman Farzan, Phys.Rev.D 107 (2023) 035007, arXiv:2211.15686.
[Bernal:2022qba]
[21-140]
Observable ${\rm \Delta{N_{eff}}}$ in Dirac Scotogenic Model, Debasish Borah, Pritam Das, Dibyendu Nanda, Eur.Phys.J.C 84 (2024) 140, arXiv:2211.13168.
[Borah:2022enh]
[21-141]
Dark matter and radiative neutrino masses in conversion-driven scotogenesis, Julian Heeck, Jan Heisig, Anil Thapa, Phys.Rev.D 107 (2023) 015028, arXiv:2211.13013.
[Heeck:2022rep]
[21-142]
Physics implications of a combined analysis of COHERENT CsI and LAr data, V. De Romeri, O. G. Miranda, D. K. Papoulias, G. Sanchez Garcia, M. Tortola, J. W. F. Valle, JHEP 04 (2023) 035, arXiv:2211.11905.
[DeRomeri:2022twg]
[21-143]
Probing Left-handed Heavy Neutral Leptons on the Massive Vector Doublet Model, Paulo Areyuna C., Jilberto Zamora-Saa, Alfonso R. Zerwekh, JHEP 02 (2024) 153, arXiv:2211.09753.
[C:2022nuo]
[21-144]
Dipole portal and neutrinophilic scalars at DUNE revisited: the importance of the high-energy neutrino tail, Maksym Ovchynnikov, Thomas Schwetz, Jing-Yu Zhu, Phys.Rev.D 107 (2023) 055029, arXiv:2210.13141.
[Ovchynnikov:2022rqj]
[21-145]
Re-examining $N_{R}$-EFT Upto Dimension Six, Manimala Mitra, Sanjoy Mandal, Rojalin Padhan, Agnivo Sarkar, Michael Spannowsky, Phys.Rev.D 106 (2022) 113008, arXiv:2210.12404.
[Mitra:2022nri]
[21-146]
Completing RHINO, Pasquale Di Bari, Adam Murphy, JHEP 03 (2023) 063, arXiv:2210.10801.
[DiBari:2022dtx]
[21-147]
Probing Freeze-in Dark Matter via Heavy Neutrino Portal, Basabendu Barman, P. S. Bhupal Dev, Anish Ghoshal, Phys.Rev.D 108 (2023) 035037, arXiv:2210.07739.
[Barman:2022scg]
[21-148]
Dark matter in the Scotogenic model with spontaneous lepton number violation, Valentina De Romeri, Jacopo Nava, Miguel Puerta, Avelino Vicente, Phys.Rev.D 107 (2023) 095019, arXiv:2210.07706.
[DeRomeri:2022cem]
[21-149]
A method to explore flavor symmetries of the 3HDM and their implications on lepton masses and mixing, Bartosz Dziewit, Marek Zralek, Joris Vergeest, Piotr Chaber, Symmetry 14 (2022) 185, arXiv:2209.13741.
[Dziewit:2022cci]
[21-150]
Non-standard neutrino interactions in light mediator models at reactor experiments, Bhaskar Dutta, Sumit Ghosh, Tianjun Li, Adrian Thompson, Ankur Verma, JHEP 03 (2023) 163, arXiv:2209.13566.
[Dutta:2022fdt]
[21-151]
Vector-Neutrino Interaction in a Screening Framework, and Neutrino Oscillation, H. Yazdani Ahmadabadi, H. Mohseni Sadjadi, arXiv:2209.13367, 2022.
[YazdaniAhmadabadi:2022wiq]
[21-152]
Neutrinoless Double Beta Decay and $ < \eta > $ Mechanism in the Left-Right Symmetric Model, Takeshi Fukuyama, Toru Sato, JHEP 06 (2023) 049, arXiv:2209.10813.
[Fukuyama:2022naj]
[21-153]
Flavor Structures Of Quarks and Leptons From Flipped SU(5) GUT with $A_4$ Modular Flavor Symmetry, Xiao Kang Du, Fei Wang, JHEP 01 (2023) 036, arXiv:2209.08796.
[Du:2022lij]
[21-154]
Common origin of $\theta_{13}$ and dark matter within the flavor symmetric scoto-seesaw framework, Joy Ganguly, Janusz Gluza, Biswajit Karmakar, JHEP 11 (2022) 074, arXiv:2209.08610.
[Ganguly:2022qxj]
[21-155]
Study the Higgs mass with the effective potential and Higgs decays in the $U(1)_X$SSM, Shu-Min Zhao, Xi Wang, Xing-Xing Dong, Hai-Bin Zhang, Tai-Fu Feng, Symmetry 14 (2022) 2153, arXiv:2209.07094.
[Zhao:2022ymd]
[21-156]
Phenomenology of Scalar Leptoquarks at the LHC in Explaining the Radiative Neutrino Mass, Muon $g-2$ and Lepton Flavour Violating Observables, Snehashis Parashar, Anirban Karan, Avnish, Priyotosh Bandyopadhyay, Kirtiman Ghosh, Phys.Rev.D 106 (2022) 095040, arXiv:2209.05890.
[Parashar:2022wrd]
[21-157]
Explain the $W$-boson mass anomaly in the context of Supersymmetric $U(1)_{Y^{\prime}}\otimes U(1)_{B-L}$ with three identical neutrinos, M. C. Rodriguez, arXiv:2209.04653, 2022.
[Rodriguez:2022hsj]
[21-158]
Plane-wave and wavepacket neutrino flavor oscillations in vacuum in conformal coupling models, Faycal Hammad, Parvaneh Sadeghi, Nicolas Fleury, Phys.Rev.D 106 (2022) 065019, arXiv:2209.03899.
[Hammad:2022azd]
[21-159]
Light Sterile Neutrinos, Left-Right Symmetry, and $0\nu\beta\beta$ Decay, Jordy de Vries, Gang Li, Michael J. Ramsey-Musolf, Juan Carlos Vasquez, JHEP 11 (2022) 056, arXiv:2209.03031.
[deVries:2022nyh]
[21-160]
Neutrino masses, flavor anomalies and muon $\boldsymbol{g-2}$ from dark loops, Ricardo Cepedello, Pablo Escribano, Avelino Vicente, Phys.Rev.D 107 (2023) 035034, arXiv:2209.02730.
[Cepedello:2022xgb]
[21-161]
Enhancement of Direct $CP$ asymmetry in $Z'$ models, Shireen Niteen Gangal, arXiv:2209.02476, 2022.
[Gangal:2022ole]
[21-162]
Connecting dark matter, baryogenesis and neutrinoless double beta decay in a $A_{4}\otimes Z_{8}$ based $\nu$2HDM, Lavina Sarma, Partha Kumar Paul, Mrinal Kumar Das, Int.J.Mod.Phys.A 37 (2022) 2250157, arXiv:2208.14764.
[Sarma:2022qka]
[21-163]
Neutrino Decoherence from Generalised Uncertainty, Indra Kumar Banerjee, Ujjal Kumar Dey, Eur.Phys.J.C 83 (2023) 428, arXiv:2208.12062.
[Banerjee:2022slh]
[21-164]
Quantum Gravitational Decoherence in the 3 Neutrino Flavor Scheme, Dominik Hellmann, Heinrich Pas, Erika Rani, Phys.Rev.D 106 (2022) 083013, arXiv:2208.11754.
[Hellmann:2022cgt]
[21-165]
Out of this world neutrino oscillations, Tony Gherghetta, Andrey Shkerin, Phys.Rev.D 108 (2023) 075018, arXiv:2208.10567.
[Gherghetta:2022ynp]
[21-166]
Texture of Two Vanishing Subtraces in Neutrino Mass Matrix and Current Experimental Tests, A. Ismael, E. I. Lashin, N. Chamoun, Phys.Rev.D 107 (2023) 035017, arXiv:2208.10344.
[Ismael:2022emm]
[21-167]
Muon $g-2$ with $SU(2)_L$ multiplets, Takaaki Nomura, Hiroshi Okada, arXiv:2208.08704, 2022.
[Nomura:2022wck]
[21-168]
Exploring the Neutrino Sector of the Minimal Left-Right Symmetric Model, Gustavo F. S. Alves, Chee Sheng Fong, Luighi P. S. Leal, Renata Zukanovich Funchal, arXiv:2208.07378, 2022.
[Alves:2022yav]
[21-169]
First results of LZ and XENONnT: A comparative study of neutrino properties and light mediators, K. A. ShivaSankar, Anirban Majumdar, Dimitrios K. Papoulias, Hemant Prajapati, Rahul Srivastava, Phys.Lett.B 839 (2023) 137742, arXiv:2208.06415.
[2208.06415]
[21-170]
Sensitivities on dark photon from the Forward Physics Experiments, Kingman Cheung, C. J. Ouseph, JHEP 10 (2022) 196, arXiv:2208.04523.
[Cheung:2022kjd]
[21-171]
Baryon asymmetry and lower bound on right handed neutrino mass in fast expanding Universe: an analytical approach, Mainak Chakraborty, Sourov Roy, JCAP 11 (2022) 053, arXiv:2208.04046.
[Chakraborty:2022gob]
[21-172]
Flavour bounds on the flavon of a minimal $\mathcal{Z}_2 \times \mathcal{Z}_N$ symmetry, Gauhar Abbas, Vatika Singh, Neelam Singh, Ria Sain, Eur.Phys.J.C 83 (2023) 305, arXiv:2208.03733.
[Abbas:2022zfb]
[21-173]
Dark Energy and Neutrino Superfluids, Andrea Addazi, Salvatore Capozziello, Qingyu Gan, Antonino Marciano, Phys.Dark Univ. 37 (2022) 101102, arXiv:2208.03591.
[Addazi:2022kjt]
[21-174]
Dark Matter and Neutrino Masses in a Portalino-like Model, Dugald Hepburn, Stephen M. West, Eur.Phys.J.C 83 (2023) 405, arXiv:2208.02698.
[Hepburn:2022pin]
[21-175]
LSND and MiniBooNE as guideposts to understanding the muon $g-2$ results and the CDF II $W$ mass measurement, Waleed Abdallah, Raj Gandhi, Samiran Roy, Phys.Lett.B 840 (2023) 137841, arXiv:2208.02264.
[Abdallah:2022shy]
[21-176]
WIMP and FIMP Dark Matter in Singlet-Triplet Fermionic Model, Genevieve Belanger, Sandhya Choubey, Rohini M. Godbole, Sarif Khan, Manimala Mitra, Abhishek Roy, JHEP 11 (2022) 133, arXiv:2208.00849.
[Belanger:2022gqc]
[21-177]
A Scotogenic Model with Two Inert Doublets, Amine Ahriche, JHEP 02 (2023) 028, arXiv:2208.00500.
[Ahriche:2022bpx]
[21-178]
Impact of first-order phase transitions on dark matter production in the scotogenic model, Hiroto Shibuya, Takashi Toma, JHEP 11 (2022) 064, arXiv:2207.14662.
[Shibuya:2022xkj]
[21-179]
Neutrino mass and charged lepton flavor violation in an extended left-right symmetric model, Chayan Majumdar, Supriya Senapati, S. Uma Sankar, Urjit A. Yajnik, Nucl.Phys.B 985 (2022) 116009, arXiv:2207.13026.
[Majumdar:2022jur]
[21-180]
Phenomenological implications of sterile neutrinos in the $\mu\nu$SSM and dark matter, Paulina Knees, Daniel E. Lopez-Fogliani, C. Munoz, Astropart.Phys. 151 (2023) 102865, arXiv:2207.10689.
[Knees:2022wbt]
[21-181]
The first string-derived eclectic flavor model with realistic phenomenology, Alexander Baur, Hans Peter Nilles, Saul Ramos-Sanchez, Andreas Trautner, Patrick K. S. Vaudrevange, JHEP 09 (2022) 224, arXiv:2207.10677.
[Baur:2022hma]
[21-182]
Muon ($g-2$) and W-boson mass Anomaly in a Model Based on $Z_4$ Symmetry with Vector like Fermion, Simran Arora, Monal Kashav, Surender Verma, B. C. Chauhan, PTEP 2022 (2022) 113B06, arXiv:2207.08580.
[Arora:2022uof]
[21-183]
Gauged $U(1)_{L_{\mu}-L_{\tau}}$ Symmetry and two-zero Textures of Inverse Neutrino Mass Matrix in light of Muon ($g-2$), Labh Singh, Monal Kashav, Surender Verma, Mod.Phys.Lett.A 37 (2022) 2250202, arXiv:2207.08415.
[Singh:2022tvz]
[21-184]
Chern-Simons axion gravity and neutrino oscillations, Gaetano Lambiase, Leonardo Mastrototaro, Luca Visinelli, JCAP 01 (2023) 011, arXiv:2207.08067.
[Lambiase:2022ucu]
[21-185]
Scale-invariant 3-3-1-1 model with $B-L$ symmetry, Alex G. Dias, Julio Leite, B. L. Sanchez-Vega, Phys.Rev.D 106 (2022) 115008, arXiv:2207.06276.
[Dias:2022hbu]
[21-186]
Anomalous Cyclic in the Neutrino Oscillations, Ekrem Aydiner, Sci.Rep. 13 (2023) 12651, arXiv:2207.05637.
[Aydiner:2022zcx]
[21-187]
The geometric correlations of leptonic mixing parameters, Ding-Hui Xu, Shu-Jun Rong, Adv.High Energy Phys. 2023 (2023) 6057292, arXiv:2207.05371.
[Xu:2022auq]
[21-188]
Five texture zeros in the lepton sector and neutrino oscillations at DUNE, Richard H. Benavides, D. V. Forero, Luis Munoz, Jose M. Munoz, Alejandro Rico, A. Tapia, Phys.Rev.D 107 (2023) 036008, arXiv:2207.04072.
[Benavides:2022hca]
[21-189]
Predicting leptonic CP violation via minimization of neutrino entanglement, Goncalo M. Quinta, Alexandre Sousa, Yasser Omar, arXiv:2207.03303, 2022.
[Quinta:2022sgq]
[21-190]
Imprints of flavor anomalies on neutrino oscillations through dark matter halo, Ashutosh Kumar Alok, Neetu Raj Singh Chundawat, Arindam Mandal, Nucl.Phys.B 991 (2023) 116194, arXiv:2207.02962.
[Alok:2022ihk]
[21-191]
Possibly heteroclite electron Yukawa coupling and small $\triangle a_\mu$ in a hidden Abelian gauge model for neutrino masses, We-Fu Chang, Shih-Hsien Kuo, arXiv:2206.14394, 2022.
[Chang:2022eft]
[21-192]
Dark radiation constraints on portal interactions with hidden sectors, Peter Adshead, Pranjal Ralegankar, Jessie Shelton, JCAP 09 (2022) 056, arXiv:2206.13530.
[Adshead:2022ovo]
[21-193]
Muon ($g-2$) in $U(1)_{L_\mu-L_\tau}$ Scotogenic Model Extended with Vector like Fermion, Simran Arora, Monal Kashav, Surender Verma, B. C. Chauhan, Phys.Scripta 98 (2023) 025304, arXiv:2206.12828.
[Arora:2022hza]
[21-194]
Chiral $Z^\prime$ in FASER, FASER2, DUNE, and ILC beam dump experiments, Kento Asai, Arindam Das, Jinmian Li, Takaaki Nomura, Osamu Seto, Phys.Rev.D 106 (2022) 095033, arXiv:2206.12676.
[Asai:2022zxw]
[21-195]
VISH$\nu$: a unified solution to five SM shortcomings with a protected electroweak scale, Alexei H. Sopov, Raymond R. Volkas, Phys.Dark Univ. 42 (2023) 101381, arXiv:2206.11598.
[Sopov:2022bog]
[21-196]
Neutrinoless double beta decay and the muonium-to-antimuonium transition in models with a doubly charged scalar, Takeshi Fukuyama, Yukihiro Mimura, Yuichi Uesaka, Phys.Rev.D 106 (2022) 055041, arXiv:2206.09691.
[Fukuyama:2022dhe]
[21-197]
Neutrino specific spin-3/2 dark matter, Ashok Goyal, Mohammed Omer Khojali, Mukesh Kumar, Alan S. Cornell, Eur.Phys.J.C 82 (2022) 1002, arXiv:2206.06324.
[Goyal:2022cmz]
[21-198]
Right-handed sneutrino and gravitino multicomponent dark matter in light of neutrino detectors, Jong Soo Kim, Daniel E. Lopez-Fogliani, Andres D. Perez, Roberto Ruiz de Austri, JCAP 04 (2023) 050, arXiv:2206.04715.
[Kim:2022gpl]
[21-199]
Energizing gamma ray bursts via $Z^\prime$ mediated neutrino heating, Tanmay Kumar Poddar, Srubabati Goswami, Arvind Kumar Mishra, Eur.Phys.J.C 83 (2023) 223, arXiv:2206.03485.
[Poddar:2022svz]
[21-200]
On interplay between flavour anomalies and neutrino properties, Felipe F. Freitas, Joao Goncalves, Antonio P. Morais, Roman Pasechnik, Werner Porod, Phys.Rev.D 108 (2023) 115002, arXiv:2206.01674.
[Freitas:2022gqs]
[21-201]
Neutrinoless double beta decay and Sterile dark matter in extended left right symmetric model, Bichitra Bijay Boruah, Nayana Gautam, Mrinal Kumar Das, J.Phys.G 51 (2024) 045002, arXiv:2206.00696.
[Boruah:2022csq]
[21-202]
Charged lepton flavor violating processes in the Grimus-Neufeld model, Vytautas Dudenas, Thomas Gajdosik, Uladzimir Khasianevich, Wojciech Kotlarski, Dominik Stockinger, JHEP 09 (2022) 174, arXiv:2206.00661.
[Dudenas:2022von]
[21-203]
Neutrino Physics in TeV Scale Gravity Theories, Manuel Ettengruber, Phys.Rev.D 106 (2022) 055028, arXiv:2206.00034.
[Ettengruber:2022pxf]
[21-204]
Combined explanations of $B$-physics anomalies, $(g-2)_{e, \mu}$ and neutrino masses by scalar leptoquarks, Shao-Long Chen, Wen-wen Jiang, Ze-Kun Liu, Eur.Phys.J.C 82 (2022) 959, arXiv:2205.15794.
[Chen:2022hle]
[21-205]
The Neutrinoless Double Beta Decay in the Colored Zee-Babu Model, Shao-Long Chen, Yu-Qi Xiao, Nucl.Phys.B 986 (2023) 116041, arXiv:2205.13118.
[Chen:2022rcv]
[21-206]
Sterile Neutrino Portal Dark Matter in $\nu$THDM, Ang Liu, Feng-Lan Shao, Zhi-Long Han, Yi Jin, Honglei Li, arXiv:2205.11846, 2022.
[2205.11846]
[21-207]
Constraining the Active-to-Heavy-Neutrino transitional magnetic moments associated with the $Z'$ interactions at FASER$\nu$, Kingman Cheung, C.J. Ouseph, Eur.Phys.J.C 83 (2023) 593, arXiv:2205.11077.
[Cheung:2022oji]
[21-208]
Axion and FIMP Dark Matter in a $U(1)$ extension of the Standard Model, Laura Covi, Sarif Khan, JCAP 09 (2022) 064, arXiv:2205.10150.
[Covi:2022hqb]
[21-209]
Supersymmetric minimal $U(1)_X$ model at the TeV scale with right-handed Majorana neutrino dark matter, Nobuchika Okada, Desmond Villalba, Phys.Rev.D 108 (2023) 095021, arXiv:2205.09572.
[Okada:2022stw]
[21-210]
Cosmology-friendly time-varying neutrino masses via the sterile neutrino portal, Guo-yuan Huang, Manfred Lindner, Pablo Martinez-Mirave, Manibrata Sen, Phys.Rev.D 106 (2022) 033004, arXiv:2205.08431.
[Huang:2022wmz]
[21-211]
A new viable mass region of Dark matter and Dirac neutrino mass generation in a scotogenic extension of SM, Nilavjyoti Hazarika, Kalpana Bora, Int.J.Mod.Phys.A 38 (2023) 2350051, arXiv:2205.06003.
[Hazarika:2022tlc]
[21-212]
Fermion Mass Hierarchy and Mixing in simplified Grand Gauge-Higgs Unification, Nobuhito Maru, Haruki Takahashi, Yoshiki Yatagai, J.Phys.G 50 (2023) 125007, arXiv:2205.05824.
[Maru:2022hex]
[21-213]
$SU(5)$ grand unification and $W$-boson mass, Goran Senjanovic, Michael Zantedeschi, Phys.Lett.B 837 (2023) 137653, arXiv:2205.05022.
[Senjanovic:2022zwy]
[21-214]
Vector leptoquark $U_3$ and CP violation at T2K, NOvA experiments, Rudra Majhi, Dinesh Kumar Singha, K. N. Deepthi, Rukmani Mohanta, Eur.Phys.J.C 82 (2022) 919, arXiv:2205.04269.
[Majhi:2022wyp]
[21-215]
Leptoquark-vectorlike quark model for $m_W$ (CDF), $(g-2)_\mu$, $R_{K^{(\ast)}}$ anomalies and neutrino mass, Talal Ahmed Chowdhury, Shaikh Saad, Phys.Rev.D 106 (2022) 055017, arXiv:2205.03917.
[Chowdhury:2022dps]
[21-216]
Particle dispersion in the classical vector dark matter background, Eung Jin Chun, Seokhoon Yun, Phys.Rev.D 106 (2022) 095027, arXiv:2205.03617.
[Chun:2022qcg]
[21-217]
Generating CP violation from a modified Fridberg-Lee model, N. Razzaghi, S. M. M. Rasouli, P. Parada, P. V. Moniz, Universe 8 (2022) 448, arXiv:2205.02882.
[Razzaghi:2022khb]
[21-218]
Confronting the prediction of leptonic Dirac CP-violating phase with experiments, Yang Hwan Ahn, Sin Kyu Kang, Raymundo Ramos, Morimitsu Tanimoto, Phys.Rev.D 106 (2022) 095002, arXiv:2205.02796.
[Ahn:2022ufs]
[21-219]
A viable $L_e-L_\mu$ model with $\mu\to e$ violation, Marco Ardu, Fiona Kirk, Eur.Phys.J.C 83 (2023) 394, arXiv:2205.02254.
[Ardu:2022zom]
[21-220]
$W$ boson mass, dark matter and $(g-2)_\ell$ in ScotoZee neutrino mass model, Ritu Dcruz, Anil Thapa, Phys.Rev.D 107 (2023) 015002, arXiv:2205.02217.
[Dcruz:2022dao]
[21-221]
Freeze-in Dark Matter and $\Delta{\rm N}_{\rm eff}$ via Light Dirac Neutrino Portal, Anirban Biswas, Debasish Borah, Nayan Das, Dibyendu Nanda, Phys.Rev.D 107 (2023) 015015, arXiv:2205.01144.
[Biswas:2022vkq]
[21-222]
Investigating Two-zero Textures of Inverse Neutrino Mass Matrix under the Lamp Post of LMA and DLMA Solutions and Symmetry Realization, Labh Singh, Monal Kashav, Surender Verma, Eur.Phys.J.C 82 (2022) 841, arXiv:2205.00765.
[Singh:2022ijf]
[21-223]
Sterile neutrinos, $0\nu\beta\beta$ decay and the W-boson mass anomaly in a Flipped $SU(5)$ from F-theory, Vasileios Basiouris, George K. Leontaris, Eur.Phys.J.C 82 (2022) 1041, arXiv:2205.00758.
[Basiouris:2022wei]
[21-224]
Absolute neutrino mass scale and dark matter stability from flavour symmetry, Salvador Centelles Chulia, Ricardo Cepedello, Omar Medina, JHEP 10 (2022) 080, arXiv:2204.12517.
[ChuliaCentelles:2022ogm]
[21-225]
$Z'$s and sterile neutrinos from heterotic string models: exploring $Z'$ mass exclusion limits, Alon E. Faraggi, Marco Guzzi, Eur.Phys.J.C 82 (2022) 590, arXiv:2204.11974.
[Faraggi:2022emm]
[21-226]
Probing the $\nu_{R}$-philic $Z'$ at DUNE near detectors, Garv Chauhan, P. S. Bhupal Dev, Xun-Jie Xu, Phys.Lett.B 841 (2023) 137907, arXiv:2204.11876.
[Chauhan:2022iuh]
[21-227]
Deviation from Tribimaximal mixing using $A_{4}$ flavour model with five extra scalars, Victoria Puyam, S.Robertson Singh, N. Nimai Singh, arXiv:2204.10122, 2022.
[Puyam:2022mej]
[21-228]
W boson mass in Singlet-Triplet Scotogenic dark matter model, Aditya Batra, ShivaSankar K.A, Sanjoy Mandal, Rahul Srivastava, Int.J.Mod.Phys.A 38 (2023) 2340003, arXiv:2204.09376.
[Batra:2022org]
[21-229]
Scotogenic Dirac neutrino model embedded with leptoquarks: one pathway to addressing all, Shao-Ping Li, Xin-Qiang Li, Xin-Shuai Yan, Ya-Dong Yang, Eur.Phys.J.C 82 (2022) 1078, arXiv:2204.09201.
[Li:2022chc]
[21-230]
Neutrino dipole portal at electron colliders, Yu Zhang, Mao Song, Ran Ding, Liangwen Chen, Phys.Lett.B 829 (2022) 137116, arXiv:2204.07802.
[Zhang:2022spf]
[21-231]
Flavour anomalies and dark matter assisted unification in $SO(10)$ GUT, Purushottam Sahu, Aishwarya Bhatta, Rukmani Mohanta, Shivaramakrishna Singirala, Sudhanwa Patra, JHEP 11 (2022) 029, arXiv:2204.06392.
[Sahu:2022rwq]
[21-232]
Right-handed neutrinos and the CDF II anomaly, Mattias Blennow, Pilar Coloma, Enrique Fernandez-Martinez, Manuel Gonzalez-Lopez, Phys.Rev.D 106 (2022) 073005, arXiv:2204.04559.
[Blennow:2022yfm]
[21-233]
Probing light mediators at the MUonE experiment, Giovanni Grilli di Cortona, Enrico Nardi, Phys.Rev.D 105 (2022) L111701, arXiv:2204.04227.
[GrillidiCortona:2022kbq]
[21-234]
Search for the $Z^\prime$ boson decaying to a right-handed neutrino pair in leptophobic $\mathrm{U(1)}$ models, Mathew Thomas Arun, Arpan Chatterjee, Tanumoy Mandal, Subhadip Mitra, Ananya Mukherjee, Krishna Nivedita, Phys.Rev.D 106 (2022) 095035, arXiv:2204.02949.
[Arun:2022ecj]
[21-235]
Neutrino electromagnetic properties in a Leptoquark model, R. Sanchez-Velez, arXiv:2204.01167, 2022.
[Sanchez-Velez:2022nwm]
[21-236]
Neutrino Condensate Dark Energy from TeV Scale Extra Dimensions, Ujjal Kumar Dey, Utpal Sarkar, Nucl.Phys.B 979 (2022) 115768, arXiv:2204.01141.
[Dey:2022cfg]
[21-237]
Connection of GeV Dark Matter with $(g-2)_\mu$ Anomaly in $U(1)_{L_\mu-L_\tau}$, Kuldeep Deka, Soumya Sadhukhan, Manvinder Pal Singh, arXiv:2203.17122, 2022.
[Deka:2022ltk]
[21-238]
Marriage between neutrino mass and flavor anomalies, J. Julio, Shaikh Saad, Anil Thapa, Phys.Rev.D 106 (2022) 055003, arXiv:2203.15499.
[Julio:2022bue]
[21-239]
Dark Matter and $(g-2)_{\mu,e}$ in radiative Dirac neutrino mass models, Talal Ahmed Chowdhury, Md. Ehsanuzzaman, Shaikh Saad, JCAP 08 (2022) 076, arXiv:2203.14983.
[Chowdhury:2022jde]
[21-240]
A global analysis of $b \to s \ell \ell$ data in heavy and light $Z'$ models, Ashutosh Kumar Alok, Neetu Raj Singh Chundawat, Shireen Gangal, Dinesh Kumar, Eur.Phys.J.C 82 (2022) 967, arXiv:2203.13217.
[Alok:2022pjb]
[21-241]
$U(1)_{T3R}$ Extension of Standard Model: A Sub-GeV Dark Matter Model, Bhaskar Dutta, Sumit Ghosh, Jason Kumar, arXiv:2203.07786, 2022.
[Dutta:2022qvn]
[21-242]
Probing heavy Majorana neutrino pair production at ILC in a $U(1)_{\rm B-L}$ extension of the Standard Model, J. Nakajima, A. Das, K. Fujii, D. Jeans, N. Okada, S. Okada, R. Yonamine, arXiv:2203.06929, 2022.
[Nakajima:2022pkd]
[21-243]
Displaced fat-jets and tracks to probe boosted right-handed neutrinos in the $U(1)_{B-L}$ model, Rojalin Padhan, Manimala Mitra, Suchita Kulkarni, Frank F. Deppisch, Eur.Phys.J.C 82 (2022) 858, arXiv:2203.06114.
[Padhan:2022fak]
[21-244]
Two-zero textures based on $A_4$ symmetry and unimodular mixing matrix, N. Razzaghi, S. M. M. Rasouli, P. Parada, P. V. Moniz, Symmetry 14 (2022) 2410, arXiv:2203.05753.
[Razzaghi:2022jgq]
[21-245]
Minimal realization of light thermal Dark Matter, Johannes Herms, Sudip Jana, Vishnu P.K., Shaikh Saad, Phys.Rev.Lett. 129 (2022) 091803, arXiv:2203.05579.
[Herms:2022nhd]
[21-246]
Non-zero $\theta_{13}$, CP-violation and Neutrinoless Double Beta Decay for Neutrino Mixing in the $A_4\times Z_2\times Z_2^\prime$ Flavor Symmetry Model, Animesh Barman, Ng. K. Francis, Bikash Thapa, Ankur Nath, Int.J.Mod.Phys.A 38 (2023) 2350012, arXiv:2203.05536.
[Barman:2022hyq]
[21-247]
Freeze-In of radiative keV-scale neutrino dark matter from a new $\text{U}(1)_\text{B-L}$, Maximilian Berbig, JHEP 09 (2022) 101, arXiv:2203.04276.
[Berbig:2022nre]
[21-248]
eV Hubble Scale Inflation with Radiative Plateau: Very light Inflaton, Reheating & Dark Matter in B-L Extensions, Anish Ghoshal, Nobuchika Okada, Arnab Paul, Phys.Rev.D 106 (2022) 095021, arXiv:2203.03670.
[Ghoshal:2022zwu]
[21-249]
Sterile neutrino portals to Majorana dark matter: effective operators and UV completions, Leonardo Coito, Carlos Faubel, Juan Herrero-Garcia, Arcadi Santamaria, Arsenii Titov, JHEP 08 (2022) 085, arXiv:2203.01946.
[Coito:2022kif]
[21-250]
Heavy Majorana neutrino pair production from $Z^\prime$ at hadron and lepton colliders, Arindam Das, Sanjoy Mandal, Takaaki Nomura, Sujay Shil, Phys.Rev.D 105 (2022) 095031, arXiv:2202.13358.
[Das:2022rbl]
[21-251]
Phenomenology of a flavoured multiscalar BGL-like model with three generations of massive neutrinos, Pedro M. Ferreira, Felipe F. Freitas, Joao Goncalves, Antonio P. Morais, Roman Pasechnik, Vasileios Vatellis, Phys.Rev.D 106 (2022) 075017, arXiv:2202.13153.
[Ferreira:2022zil]
[21-252]
Phenomenology of Trimaximal mixing with one texture equality, S. Dev, Desh Raj, Adv.High Energy Phys. 2022 (2022) 4952562, arXiv:2202.13070.
[Dev:2022krz]
[21-253]
A Tale of Flavor Anomalies and the Origin of Neutrino Mass, J. Julio, Shaikh Saad, Anil Thapa, JHEP 08 (2022) 270, arXiv:2202.10479.
[Julio:2022ton]
[21-254]
Effective neutrino number shift from keV-vacuum neutrinophilic 2HDM, Shao-Ping Li, Xin-Qiang Li, Xin-Shuai Yan, Ya-Dong Yang, Chin.Phys.C 47 (2023) 043109, arXiv:2202.10250.
[Li:2022yna]
[21-255]
Explaining lepton-flavor non-universality and self-interacting dark matter with $L_\mu-L_\tau$, Julian Heeck, Anil Thapa, Eur.Phys.J.C 82 (2022) 480, arXiv:2202.08854.
[Heeck:2022znj]
[21-256]
Dark Sector as Origin of Light Lepton Mass and Its Phenomenology, Cheng-Wei Chiang, Ryomei Obuchi, Kei Yagyu, JHEP 05 (2022) 070, arXiv:2202.07784.
[Chiang:2022axu]
[21-257]
Heavy Neutrinos at the FCC-hh in the $U(1)_{B-L}$ Model, Wei Liu, Suchita Kulkarni, Frank F. Deppisch, Phys.Rev.D 105 (2022) 095043, arXiv:2202.07310.
[Liu:2022kid]
[21-258]
Probing Neutrino Mass Models through Resonances at Neutrino Telescopes, K.S. Babu, P.S. Bhupal Dev, Sudip Jana, Int.J.Mod.Phys.A 37 (2022) 2230003, arXiv:2202.06975.
[Babu:2022fje]
[21-259]
Constrained Neutrino Mass Matrix and Majorana Phases, Pralay Chakraborty, Manash Dey, Subhankar Roy, J.Phys.G 51 (2024) 015003, arXiv:2202.04874.
[Chakraborty:2022ess]
[21-260]
Neutrino astronomy as a probe of physics beyond the Standard Model: decay of sub-MeV $B$-$L$ gauge boson dark matter, Weikang Lin, Luca Visinelli, Donglian Xu, Tsutomu T. Yanagida, Phys.Rev.D 106 (2022) 075011, arXiv:2202.04496.
[Lin:2022xbu]
[21-261]
Reappraisal of the minimal flavoured $Z^{\prime}$ scenario, Tirtha Sankar Ray, Avirup Shaw, Nucl.Phys.B 986 (2023) 116065, arXiv:2202.04430.
[Ray:2022bxg]
[21-262]
Two-component scalar and fermionic dark matter candidates in a generic U$(1)_X$ model, Arindam Das, Shivam Gola, Sanjoy Mandal, Nita Sinha, Phys.Lett.B 829 (2022) 137117, arXiv:2202.01443.
[Das:2022oyx]
[21-263]
Uncovering a chirally suppressed mechanism of $0\nu\beta\beta$ decay with LHC searches, Michael L. Graesser, Gang Li, Michael J. Ramsey-Musolf, Tianyang Shen, Sebastian Urrutia-Quiroga, JHEP 10 (2022) 034, arXiv:2202.01237.
[Graesser:2022nkv]
[21-264]
Are neutrino oscillation mixings linked to the smallness of solar neutrino scale?, Eduardo Becerra-Garcia, Abdel Perez-Lorenzana, arXiv:2202.00864, 2022.
[Becerra-Garcia:2022gys]
[21-265]
An old theme for new data: Interpreting recent B anomaly data within an extended 331 gauge theory, Andrea Addazi, Giulia Ricciardi, Simone Scarlatella, Rahul Srivastava, Jose W. F. Valle, Phys.Rev.D 106 (2022) 035030, arXiv:2201.12595.
[Addazi:2022frt]
[21-266]
Lepton flavor violation and scotogenic Majorana neutrino mass in a Stueckelberg $U(1)_X$ model, Chuan-Hung Chen, Cheng-Wei Chiang, Takaaki Nomura, Chun-Wei Su, JHEP 09 (2022) 166, arXiv:2201.10759.
[Chen:2022gmk]
[21-267]
Next-to-tribimaximal mixing against CP violation and baryon asymmetry signs, Shao-Ping Li, Yuan-Yuan-Li, Xin-Shuai Yan, Xin Zhang, Phys.Rev.D 105 (2022) 9, arXiv:2201.04977.
[Li:2022bqy]
[21-268]
The Generic $U(1)_X$ Models Inspired from $SO(10)$, Tianjun Li, Qianfei Xiang, Xiangwei Yin, Han Zhou, Phys.Rev.D 106 (2022) 075010, arXiv:2201.03878.
[Li:2022qrl]
[21-269]
Lepton flavor violating $Z$ and Higgs decays in the scotogenic model, Raghavendra Srikanth Hundi, Eur.Phys.J.C 82 (2022) 505, arXiv:2201.03779.
[Hundi:2022iva]
[21-270]
Zee model with quasidegenerate neutrino masses and where to find it, R. Primulando, J. Julio, P. Uttayarat, Eur.Phys.J.C 82 (2022) 253, arXiv:2201.01960.
[Primulando:2022lpj]
[21-271]
Investigating the $Z^\prime$ gauge boson at the future lepton colliders, Xinyue Yin, Honglei Li, Yi Jin, Zhilong Han, Zongyang Lu, Chin.Phys.C 46 (2022) 053106, arXiv:2112.13975.
[Yin:2021rlr]
[21-272]
Neutrinoless Double Beta Decay via Light Neutralinos in R-Parity Violating Supersymmetry, Patrick D. Bolton, Frank F. Deppisch, P. S. Bhupal Dev, JHEP 03 (2022) 152, arXiv:2112.12658.
[Bolton:2021hje]
[21-273]
Scalar Dark Matter and Radiative Dirac neutrino mass in an extended $U(1)_{B-L}$ model, Subhasmita Mishra, Nimmala Narendra, Prafulla Kumar Panda, Nirakar Sahoo, Nucl.Phys.B 981 (2022) 115855, arXiv:2112.12569.
[Mishra:2021ilq]
[21-274]
Lepton Universality Violation by Kaluza-Klein Neutrinos in $b\to s l l$ transition, Janus Capellan Aban, Chuan-Ren Chen, Chrisna Setyo Nugroho, Phys.Lett.B 830 (2022) 137164, arXiv:2112.12477.
[Aban:2021lop]
[21-275]
Widening the $U(1)_{L_\mu- L_\tau}$ $Z^\prime$ mass range for resolving the muon $g-2$ anomaly, Yu Cheng, Xiao-Gang He, Jin Sun, Phys.Lett.B 827 (2022) 136989, arXiv:2112.09920.
[Cheng:2021okr]
[21-276]
Searching for light new physics at the LHC via lepton-number violation, Wafia Bensalem, David London, Daniel Stolarski, Alberto Tonero, JHEP 04 (2022) 049, arXiv:2112.09713.
[Bensalem:2021wfr]
[21-277]
Alternative signatures of the quintuplet fermions at LHC and future linear colliders, Nilanjana Kumar, Vandana Sahdev, Phys.Rev.D 105 (2022) 115016, arXiv:2112.09451.
[Kumar:2021umc]
[21-278]
Light $Z^\prime$ and Dirac fermion dark matter in the $B-L$ model, Newton Nath, Nobuchika Okada, Satomi Okada, Digesh Raut, Qaisar Shafi, Eur.Phys.J.C 82 (2022) 864, arXiv:2112.08960.
[Nath:2021uqb]
[21-279]
Excess of Tau events at SND@LHC, FASER$\nu$ and FASER$\nu$2, Saeed Ansarifard, Yasaman Farzan, Eur.Phys.J.C 82 (2022) 568, arXiv:2112.08799.
[Ansarifard:2021dju]
[21-280]
Systematically Testing Singlet Models for $(g-2)_\mu$, Rodolfo Capdevilla, David Curtin, Yonatan Kahn, Gordan Krnjaic, JHEP 04 (2022) 129, arXiv:2112.08377.
[Capdevilla:2021kcf]
[21-281]
Breaking the conformal freedom of spacetime with supernova neutrino imaging, Joonas Ilmavirta, Gunther Uhlmann, arXiv:2112.07543, 2021.
[Ilmavirta:2021wci]
[21-282]
Singlet-Doublet Self-interacting Dark Matter and Radiative Neutrino Mass, Debasish Borah, Manoranjan Dutta, Satyabrata Mahapatra, Narendra Sahu, Phys.Rev.D 105 (2022) 075019, arXiv:2112.06847.
[Borah:2021rbx]
[21-283]
Neutrino masses and magnetic moments of electron and muon in the Zee Model, Rahool Kumar Barman, Ritu Dcruz, Anil Thapa, JHEP 03 (2022) 183, arXiv:2112.04523.
[Barman:2021xeq]
[21-284]
Probing light vector mediators with coherent scattering at future facilities, Enrico Bertuzzo, Giovanni Grilli di Cortona, Lucas Magno D. Ramos, JHEP 06 (2022) 075, arXiv:2112.04020.
[Bertuzzo:2021opb]
[21-285]
Pandax-4T limits on $Z^\prime$ mass in 3-3-1LHN model, Vinicius Oliveira, C. A. de S. Pires, Phys.Rev.D 106 (2022) 015031, arXiv:2112.03963.
[Oliveira:2021gcw]
[21-286]
$\Delta$L=2 hyperon decays induced by Majorana neutrinos and doubly-charged scalars, G. Hernandez-Tome, G. Lopez-Castro, D. Portillo-Sanchez, Phys.Rev.D 105 (2022) 113001, arXiv:2112.02227.
[Hernandez-Tome:2021byt]
[21-287]
Time- and space-varying neutrino masses from soft topological defects, Gia Dvali, Lena Funcke, Tanmay Vachaspati, Phys.Rev.Lett. 130 (2023) 091601, arXiv:2112.02107.
[Dvali:2021uvk]
[21-288]
A Unified Model for Inflation, pseudo-Goldstone Dark Matter, Neutrino Mass and Baryogenesis, Rabindra N. Mohapatra, Nobuchika Okada, Phys.Rev.D 105 (2022) 035024, arXiv:2112.02069.
[Mohapatra:2021ozu]
[21-289]
Light sterile neutrinos and lepton-number-violating kaon decays in effective field theory, Guanghui Zhou, JHEP 06 (2022) 127, arXiv:2112.00767.
[Zhou:2021lnl]
[21-290]
Short-baseline oscillation scenarios at JUNO and TAO, V.S. Basto-Gonzalez, D.V. Forero, C. Giunti, A.A. Quiroga, C.A. Ternes, Phys.Rev.D 105 (2022) 075023, arXiv:2112.00379.
[Basto-Gonzalez:2021aus]
[21-291]
Dark Matter abundance via thermal decays and leptoquark mediators, Benedetta Belfatto, Dario Buttazzo, Christian Gross, Paolo Panci, Alessandro Strumia, Natascia Vignaroli, Ludovico Vittorio, Ryoutaro Watanabe, JHEP 06 (2022) 084, arXiv:2111.14808.
[Belfatto:2021ats]
[21-292]
Searching for stop LSP at the LHC, Essodjolo Kpatcha, Inaki Lara, Daniel E. Lopez-Fogliani, Carlos Munoz, Natsumi Nagata, Hidetoshi Otono, arXiv:2111.13212, 2021.
[Kpatcha:2021dtm]
[21-293]
Hadrophilic Dark Sectors at the Forward Physics Facility, Brian Batell, Jonathan L. Feng, Max Fieg, Ahmed Ismail, Felix Kling, Roshan Mammen Abraham, Sebastian Trojanowski, Phys.Rev.D 105 (2022) 075001, arXiv:2111.10343.
[Batell:2021snh]
[21-294]
Neutrinoless double-beta decay and lepton flavor violation in discrete flavor symmetric left-right symmetric model, Bichitra Bijay Boruah, Mrinal Kumar Das, Int.J.Mod.Phys.A 37 (2022) 2250026, arXiv:2111.10341.
[Boruah:2021ktk]
[21-295]
Data-driven analysis of a SUSY GUT of flavour, Jordan Bernigaud, Adam K. Forster, Bjorn Herrmann, Stephen F. King, Werner Porod, Samuel J. Rowley, JHEP 05 (2022) 156, arXiv:2111.10199.
[Bernigaud:2021kpw]
[21-296]
Constraining general U(1) interactions from neutrino-electron scattering measurements at DUNE near detector, Kaustav Chakraborty, Arindam Das, Srubabati Goswami, Samiran Roy, JHEP 04 (2022) 008, arXiv:2111.08767.
[Chakraborty:2021apc]
[21-297]
Phenomenology of one zero texture Yukawa matrix in a flavor symmetric scotogenic model, Lavina Sarma, Mrinal Kumar Das, Int.J.Mod.Phys.A 37 (2022) 2250083, arXiv:2111.08263.
[Sarma:2021acj]
[21-298]
Exploring Strange Origin of Dirac Neutrino Masses at Hadron Colliders, Hooman Davoudiasl, Ian M. Lewis, Matthew Sullivan, Phys.Rev.D 105 (2022) 075017, arXiv:2111.08020.
[Davoudiasl:2021nfv]
[21-299]
Probing Neutrino-Portal Dark Matter at the Forward Physics Facility, Kevin J. Kelly, Felix Kling, Douglas Tuckler, Yue Zhang, Phys.Rev.D 105 (2022) 075026, arXiv:2111.05868.
[Kelly:2021mcd]
[21-300]
Dark matter stability at fixed points in a modular $A_4$ symmetry, Tatsuo Kobayashi, Hiroshi Okada, Yuta Orikasa, Phys.Dark Univ. 37 (2022) 101080, arXiv:2111.05674.
[Kobayashi:2021ajl]
[21-301]
The Scale Invariant Scotogenic Model: Dark Matter and the Scalar Sector, Rachik Soualah, Amine Ahriche, Phys.Rev.D 105 (2022) 055017, arXiv:2111.01121.
[Soualah:2021xbn]
[21-302]
Complementarity between neutrinoless double beta decay and collider searches for heavy neutrinos in composite-fermion models, S. Biondini, S. Dell'Oro, R. Leonardi, S. Marcocci, O. Panella, M. Presilla, F. Vissani, arXiv:2111.01053, 2021.
[Biondini:2021vip]
[21-303]
Singlet fermion dark matter and Dirac neutrinos from Peccei-Quinn symmetry, Cristian D. R. Carvajal, Robinson Longas, Oscar Rodriguez, Oscar Zapata, Phys.Rev.D 105 (2022) 015003, arXiv:2110.15167.
[Carvajal:2021fxu]
[21-304]
A $\nu$ scalar in the early universe and $(g-2)_\mu$, Jia Liu, Navin McGinnis, Carlos E.M. Wagner, Xiao-Ping Wang, Phys.Rev.D 105 (2022), arXiv:2110.14665.
[Liu:2021kug]
[21-305]
Thermal keV neutrino dark matter in minimal gauged $B-L$ model with cosmic inflation, Debasish Borah, Suruj Jyoti Das, Abhijit Kumar Saha, Phys.Rev.D 106 (2022) 055010, arXiv:2110.13927.
[Borah:2021inn]
[21-306]
Impact of $b \to s \ell \ell$ anomalies on rare charm decays in non-universal $Z'$ models, Ashutosh Kumar Alok, Neetu Raj Singh Chundawat, Dinesh Kumar, Eur.Phys.J.C 82 (2022) 30, arXiv:2110.12451.
[Alok:2021pdh]
[21-307]
Solutions to the MiniBooNE Anomaly from New Physics in Charged Meson Decays, Bhaskar Dutta, Doojin Kim, Adrian Thompson, Remington T. Thornton, Richard G. Van de Water, Phys.Rev.Lett. 129 (2022) 111803, arXiv:2110.11944.
[Dutta:2021cip]
[21-308]
Muon $g-2$, $B\to K^{(*)}\mu^+ \mu^-$ anomalies, and leptophilic dark matter in $U(1)_{\mu-\tau}$ gauge symmetry, P. Ko, Takaaki Nomura, Hiroshi Okada, JHEP 05 (2022) 098, arXiv:2110.10513.
[Ko:2021lpx]
[21-309]
Effective comparison of neutrino-mass models, Rupert Coy, Michele Frigerio, Phys.Rev.D 105 (2022) 115041, arXiv:2110.09126.
[Coy:2021hyr]
[21-310]
The Dark $Z'$ and Sterile Neutrinos Behind Current Anomalies, A. Hammad, Ahmed Rashed, S. Moretti, Phys.Lett.B 827 (2022) 136945, arXiv:2110.08651.
[Hammad:2021mpl]
[21-311]
Ultra-high-energy neutrino scattering in an anomalous $U(1)$ effective field theory, Chuan-Hung Chen, Cheng-Wei Chiang, Chun-Wei Su, Phys.Lett.B 827 (2022) 136988, arXiv:2110.07517.
[Chen:2021qaf]
[21-312]
Scotogenic majorana neutrino masses in a predictive orbifold theory of flavour, Francisco J. de Anda, Omar Medina, Jose W. F. Valle, Carlos A. Vaquera-Araujo, Phys.Rev.D 105 (2022) 055030, arXiv:2110.06810.
[deAnda:2021jzc]
[21-313]
SO(10) Grand Unification with Minimal Dark Matter and Color Octet Scalars, Gi-Chol Cho, Kana Hayami, Nobuchika Okada, Phys.Rev.D 105 (2022) 015027, arXiv:2110.03884.
[Cho:2021yue]
[21-314]
Dark gauge boson production from neutron stars via nucleon-nucleon bremsstrahlung, Chang Sub Shin, Seokhoon Yun, JHEP 02 (2022) 133, arXiv:2110.03362.
[Shin:2021bvz]
[21-315]
Self-interacting Dark Matter via Right Handed Neutrino Portal, Debasish Borah, Manoranjan Dutta, Satyabrata Mahapatra, Narendra Sahu, Phys.Rev.D 105 (2022) 015004, arXiv:2110.00021.
[Borah:2021pet]
[21-316]
Scotogenesis in Hybrid Textures of Neutrino Mass Matrix and Neutrinoless Double Beta Decay, Ankush, Monal Kashav, Surender Verma, B. C. Chauhan, Phys.Lett.B 824 (2022) 136796, arXiv:2109.14211.
[Ankush:2021opd]
[21-317]
Zee-Babu model in modular $A_4$ symmetry, Hiroshi Okada, Yong-hui Qi, arXiv:2109.13779, 2021.
[Okada:2021aoi]
[21-318]
Non-adiabatic evolution of dark sector in the presence of $U(1)_{L_\mu- L_\tau}$ gauge symmetry, Ananya Tapadar, Sougata Ganguly, Sourov Roy, JCAP 05 (2022) 019, arXiv:2109.13609.
[Tapadar:2021kgw]
[21-319]
Probing the $L_\mu$-$L_\tau$ Gauge Boson at the MUonE Experiment, Kento Asai, Koichi Hamaguchi, Natsumi Nagata, Shih-Yen Tseng, Juntaro Wada, Phys.Rev.D 106 (2022) L051702, arXiv:2109.10093.
[Asai:2021wzx]
[21-320]
Dark Matter, Cosmic Positrons in Alpha Magnetic Spectrometer Experiment and Particle-Cosmology with Yang-Mills Gravity, Jong-Ping Hsu, Leonardo Hsu, Chin.J.Phys. 74 (2021) 1588, arXiv:2109.09235.
[Hsu:2021zge]
[21-321]
Lepton Number Violation: from $0\nu\beta\beta$ Decay to Long-Lived Particle Searches, Gang Li, Michael J. Ramsey-Musolf, Shufang Su, Juan Carlos Vasquez, Phys.Rev.D 105 (2022), arXiv:2109.08172.
[Li:2021fvw]
[21-322]
COHERENT constraints on $Z'$ in 331$\beta$ model, D. T. Binh, L. T. Hue, V. H. Binh, D. V. Soa, H. N. Long, arXiv:2109.08118, 2021.
[Binh:2021iww]
[21-323]
Machine Learning Optimized Search for the $Z'$ from $U(1)_{L_\mu-L_\tau}$ at the LHC, Manuel Drees, Meng Shi, Zhongyi Zhang, arXiv:2109.07674, 2021.
[Drees:2021oew]
[21-324]
Frugal $U(1)_X$ models with non-minimal flavor violation for $b \to s \ell \ell$ anomalies and neutrino mixing, Disha Bhatia, Nishita Desai, Amol Dighe, JHEP 04 (2022) 163, arXiv:2109.07093.
[Bhatia:2021eco]
[21-325]
Measuring neutrino dynamics in NMSSM with a right-handed sneutrino LSP at the ILC, Yi Liu, Stefano Moretti, Harri Waltari, JHEP 01 (2022) 034, arXiv:2109.06802.
[Liu:2021kdq]
[21-326]
Leptonic Scalars and Collider Signatures in a UV-complete Model, P. S. Bhupal Dev, Bhaskar Dutta, Tathagata Ghosh, Tao Han, Han Qin, Yongchao Zhang, JHEP 03 (2022) 068, arXiv:2109.04490.
[Dev:2021axj]
[21-327]
Energy-Dependent Neutrino Mixing Parameters at Oscillation Experiments, K. S. Babu, Vedran Brdar, Andre de Gouvea, Pedro A. N. Machado, Phys.Rev.D 105 (2022) 115014, arXiv:2108.11961.
[Babu:2021cxe]
[21-328]
Roads for Right-handed Neutrino Dark Matter: Fast Expansion, Standard Freeze-out, and Early Matter Domination, Giorgio Arcadi, Jacinto Paulo Neto, Farinaldo S. Queiroz, Clarissa Siqueira, Phys.Rev.D 105 (2022) 035016, arXiv:2108.11398.
[Arcadi:2021doo]
[21-329]
Models of Muonium to Antimuonium Transition, Takeshi Fukuyama, Yukihiro Mimura, Yuichi Uesaka, Phys.Rev.D 105 (2022) 015026, arXiv:2108.10736.
[Fukuyama:2021iyw]
[21-330]
Modular $A_4$ symmetry and light dark matter with gauged $U(1)_{B-L}$, Keiko I. Nagao, Hiroshi Okada, Phys.Dark Univ. 36 (2022) 101039, arXiv:2108.09984.
[Nagao:2021rio]
[21-331]
$SO(10)$ models with $A_4$ modular symmetry, Gui-Jun Ding, Stephen F. King, Jun-Nan Lu, JHEP 11 (2021) 007, arXiv:2108.09655.
[Ding:2021eva]
[21-332]
Paths to proton stability in grand unification, Lisa L. Everett, Oleg Popov, arXiv:2108.09316, 2021.
[Everett:2021mef]
[21-333]
Revisiting the scotogenic model with scalar dark matter, Ivania M. Avila, Giovanna Cottin, Marco A. Diaz, J.Phys.G 49 (2022) 065001, arXiv:2108.05103.
[Avila:2021mwg]
[21-334]
Composite neutrinos and the QCD axion: baryogenesis, dark matter, small Dirac neutrino masses, and vanishing neutron EDM, Sabyasachi Chakraborty, Tae Hyun Jung, Takemichi Okui, Phys.Rev.D 105 (2022) 015024, arXiv:2108.04293.
[Chakraborty:2021fkp]
[21-335]
Exploring Neutrino Masses and Mixing in the Seesaw Model with $L_e - L_\tau$ Gauged Symmetry, Mitesh Kumar Behera, Papia Panda, Priya Mishra, Shivaramakrishna Singirala, Rukmani Mohanta, arXiv:2108.04066, 2021.
[Behera:2021nuk]
[21-336]
Extending the Reach of Leptophilic Boson Searches at DUNE and MiniBooNE with Bremsstrahlung and Resonant Production, Francesco Capozzi, Bhaskar Dutta, Gajendra Gurung, Wooyoung Jang, Ian M. Shoemaker, Adrian Thompson, Jaehoon Yu, Phys.Rev.D 104 (2021) 115010, arXiv:2108.03262.
[Capozzi:2021nmp]
[21-337]
Loop effect with vector mediator in the coherent neutrino-nucleus scattering, Wei Chao, Tong Li, Jiajun Liao, Min Su, Phys.Rev.D 104 (2021) 095017, arXiv:2108.02341.
[Chao:2021bvq]
[21-338]
Filtered asymmetric dark matter during the Peccei-Quinn phase transition, M. Ahmadvand, JHEP 10 (2021) 109, arXiv:2108.00958.
[Ahmadvand:2021vxs]
[21-339]
Two-body lepton-flavour-violating decays in a 2HDM with soft family-lepton-number breaking, Darius Jurciukonis, Luis Lavoura, JHEP 03 (2022) 106, arXiv:2107.14207.
[Jurciukonis:2021izn]
[21-340]
Collider signatures of vector-like fermions from a flavor symmetric 2HDM, Cesar Bonilla, A. E. Carcamo Hernandez, Joao Goncalves, Felipe F. Freitas, Antonio P. Morais, R. Pasechnik, JHEP 01 (2022) 154, arXiv:2107.14165.
[Bonilla:2021ize]
[21-341]
A model of light pseudoscalar dark matter, Shreyashi Chakdar, Dilip Kumar Ghosh, P. Q. Hung, Najimuddin Khan, Dibyendu Nanda, arXiv:2107.12934, 2021.
[Chakdar:2021gpd]
[21-342]
Muon $g-2$ in $U(1)_{\mu-\tau}$ Symmetric Gauged Radiative Neutrino Mass Model, Dong Woo Kang, Jongkuk Kim, Hiroshi Okada, Phys.Lett.B 822 (2021) 136666, arXiv:2107.09960.
[Kang:2021jmi]
[21-343]
Sterile neutrino dark matter catalyzed by a very light dark photon, Gonzalo Alonso-Alvarez, James M. Cline, JCAP 10 (2021) 041, arXiv:2107.07524.
[Alonso-Alvarez:2021pgy]
[21-344]
Dark Lepton Superfluid in Proto-Neutron Stars, Sanjay Reddy, Dake Zhou, Phys.Rev.D 105 (2022) 023026, arXiv:2107.06279.
[Reddy:2021rln]
[21-345]
Dark matter and lepton flavour phenomenology in a singlet-doublet scotogenic model, Maud Sarazin, Jordan Bernigaud, Bjorn Herrmann, JHEP 12 (2021) 116, arXiv:2107.04613.
[Sarazin:2021nwo]
[21-346]
Complementarity between dark matter direct searches and CE$\nu$NS experiments in $U(1)'$ models, Leon M. G. de la Vega, L. J. Flores, Newton Nath, Eduardo Peinado, JHEP 21 (2020) 146, arXiv:2107.04037.
[delaVega:2021wpx]
[21-347]
Zooming in on eV-MeV Scale Sterile Neutrinos in light of Neutrinoless Double Beta Decay, Tapoja Jha, Sarif Khan, Manimala Mitra, Ayon Patra, Phys.Rev.D 105 (2022) 035001, arXiv:2107.03807.
[Jha:2021oxl]
[21-348]
Asymmetric Dark Matter May Not Be Light, Eleanor Hall, Robert McGehee, Hitoshi Murayama, Bethany Suter, Phys.Rev.D 106 (2022) 075008, arXiv:2107.03398.
[Hall:2021zsk]
[21-349]
Searching for light long-lived neutralinos at Super-Kamiokande, Pablo Candia, Giovanna Cottin, Andres Mendez, Victor Munoz, Phys.Rev.D 104 (2021) 055024, arXiv:2107.02804.
[Candia:2021bsl]
[21-350]
Nuclear $0\nu2\beta$ decays in $B-L$ symmetric SUSY model and TeV scale left-right symmetric model, Jin Lei Yang, Chao-Hsi Chang, Tai-Fu Feng, arXiv:2107.01367, 2021.
[Yang:2021ueh]
[21-351]
Non zero $ \theta_{13} $ and $ \delta_{CP} $ in a realistic neutrino mass model with discrete $ A_{4} $ family symmetry and perturbation to Tri-bimaximal mixing via $ z_{2} \times z_{2}$ invariant perturbation in the neutrino sector, Gayatri Ghosh, Nucl.Phys.B 979 (2022) 115759, arXiv:2106.12503.
[Ghosh:2021rmn]
[21-352]
A Light Mediator Relating Neutrino Reactions, I. Alikhanov, E. A. Paschos, Universe 7 (2021) 204, arXiv:2106.12364.
[Alikhanov:2021dhb]
[21-353]
Dequantization of electric charge: Probing scenarios of cosmological multi-component dark matter, Duong Van Loi, Nguyen Manh Duc, Phung Van Dong, arXiv:2106.12278, 2021.
[VanLoi:2021dzv]
[21-354]
Medium effects in supernovae constraints on light mediators, David G. Cerdeno, Marina Cermeno, M. Angeles Perez-Garcia, Elliott Reid, Phys.Rev.D 104 (2021) 063013, arXiv:2106.11660.
[Cerdeno:2021cdz]
[21-355]
Flavor mixing and CP violation from the interplay of $S_4$ modular group and gCP, Bu-Yao Qu, Xiang-Gan Liu, Ping-Tao Chen, Gui-Jun Ding, Phys.Rev.D 104 (2021) 076001, arXiv:2106.11659.
[Qu:2021jdy]
[21-356]
$SU(5) \times U(1)_X$ Axion Model with Observable Proton Decay, Nobuchika Okada, Digesh Raut, Qaisar Shafi, Phys.Rev.D 104 (2021) 055041, arXiv:2106.10073.
[Okada:2021skz]
[21-357]
Neutrino As The Dark Force, Nicholas Orlofsky, Yue Zhang, Phys.Rev.D 104 (2021) 075010, arXiv:2106.08339.
[Orlofsky:2021mmy]
[21-358]
Axion-Neutrino Interplay in a Gauged Two-Higgs-Doublet Model, Alex G. Dias, Julio Leite, Diego S. V. Goncalves, Phys.Rev.D 104 (2021) 075014, arXiv:2106.07518.
[Dias:2021lmf]
[21-359]
Large Changes of Atmospheric Mixing Angle $\theta_{23}$ with Four Flavor Mixing from Planck Scale Effects, Bipin Singh Koranga, Vivek Kumar Nautiyal, arXiv:2106.06709, 2021.
[SinghKoranga:2021bvp]
[21-360]
Search for a light $Z^\prime$ at LHC in a neutrinophilic $U(1)$ model, Waleed Abdallah, Anjan Kumar Barik, Santosh Kumar Rai, Tousik Samui, Phys.Rev.D 104 (2021) 095031, arXiv:2106.01362.
[Abdallah:2021npg]
[21-361]
Magnetic Moments of Leptons, Charged Lepton Flavor Violations and Dark Matter Phenomenology of a Minimal Radiative Dirac Neutrino Mass Model, Bibhabasu De, Debottam Das, Manimala Mitra, Nirakar Sahoo, JHEP 08 (2022) 202, arXiv:2106.00979.
[De:2021crr]
[21-362]
ALP-portal heavy neutrino dark matter, Shivam Gola, Sanjoy Mandal, Nita Sinha, arXiv:2106.00547, 2021.
[Gola:2021kvv]
[21-363]
Dark matter in a charged variant of the Scotogenic model, Valentina De Romeri, Miguel Puerta, Avelino Vicente, arXiv:2106.00481, 2021.
[DeRomeri:2021xqx]
[21-364]
Modulus $\tau$ linking leptonic CP violation to baryon asymmetry in $A_4$ modular invariant flavor model, Hiroshi Okada, Yusuke Shimizu, Morimitsu Tanimoto, Takahiro Yoshida, JHEP 07 (2021) 184, arXiv:2105.14292.
[Okada:2021qdf]
[21-365]
Experimental constraints on the neutrino and gauge parameters of the super-weak U(1) extension of the standard model, Timo J. Karkkainen, Zoltan Trocsanyi, arXiv:2105.13360, 2021.
[Karkkainen:2021syu]
[21-366]
Leptonic anomalous magnetic moments in $\nu$SMEFT, Vincenzo Cirigliano, Wouter Dekens, Jordy de Vries, Kaori Fuyuto, Emanuele Mereghetti, Richard Ruiz, JHEP 08 (2021) 103, arXiv:2105.11462.
[Cirigliano:2021peb]
[21-367]
New Interference Effects from Light Gauge Bosons in Neutrino-Electron Scattering, P. S. Bhupal Dev, Doojin Kim, Kuver Sinha, Yongchao Zhang, Phys.Rev.D 104 (2021) 075001, arXiv:2105.09309.
[Dev:2021xzd]
[21-368]
Radiative neutrino masses, lepton flavor mixing and muon $g-2$ in a leptoquark model, Di Zhang, JHEP 07 (2021) 069, arXiv:2105.08670.
[Zhang:2021dgl]
[21-369]
New magic textures of Majorana neutrinos and baryon asymmetry of the Universe, Yuta Hyodo, Teruyuki Kitabayashi, PTEP 2021 (2021) 123B08, arXiv:2105.08210.
[Hyodo:2021kqf]
[21-370]
Distinguishing Dark Energy Models with Neutrino Oscillations, Ali Rida Khalifeh, Raul Jimenez, Phys.Dark Univ. 34 (2021) 100897, arXiv:2105.07973.
[Khalifeh:2021ree]
[21-371]
Axion Dark Radiation and Late Decaying Dark Matter in Neutrino Experiment, Yuchao Gu, Lei Wu, Bin Zhu, Phys.Rev.D 105 (2022) 095008, arXiv:2105.07232.
[Gu:2021lni]
[21-372]
Anomalous $Z^\prime$ bosons for anomalous $B$ decays, Joe Davighi, JHEP 08 (2021) 101, arXiv:2105.06918.
[Davighi:2021oel]
[21-373]
One colorful resolution to the neutrino mass generation, three lepton flavor universality anomalies, and the Cabibbo angle anomaly, We-Fu Chang, JHEP 09 (2021) 043, arXiv:2105.06917.
[Chang:2021axw]
[21-374]
Symmetry origin of Baryon Asymmetry, Dark Matter and Neutrino Mass, Subhaditya Bhattacharya, Rishav Roshan, Arunansu Sil, Drona Vatsyayan, Phys.Rev.D 106 (2022) 075005, arXiv:2105.06189.
[Bhattacharya:2021jli]
[21-375]
Indirect detection constraints on the scotogenic dark matter model, T. de Boer, R. Busse, A. Kappes, M. Klasen, S. Zeinstra, JCAP 08 (2021) 038, arXiv:2105.04899.
[deBoer:2021pon]
[21-376]
A non-universal $U(1)_{X}$ extension to the Standard Model to study the $B$ meson anomaly and muon $g-2$, J. S. Alvarado, S. F. Mantilla, R. Martinez, F. Ochoa, Phys.Rev.D 108 (2023) 095040, arXiv:2105.04715.
[Alvarado:2021nxy]
[21-377]
A Parameter Space Exploration of the Minimal SU(5) Unification, Ilja Dorsner, Emina Dzaferovic-Masic, Shaikh Saad, Phys.Rev.D 104 (2021) 015023, arXiv:2105.01678.
[Dorsner:2021qwg]
[21-378]
Dirac CP phases in a 3+1 neutrino scenario with $\mu-\tau$ symmetry, Eduardo Becerra-Garcia, Abdel Perez-Lorenzana, Eur.Phys.J.C 81 (2021) 979, arXiv:2105.01205.
[Becerra-Garcia:2021gcd]
[21-379]
High-energy cosmic neutrinos as a probe of the vector mediator scenario in light of the muon $g-2$ anomaly and Hubble tension, Jose Alonso Carpio, Kohta Murase, Ian M. Shoemaker, Zahra Tabrizi, Phys.Rev.D 107 (2023) 103057, arXiv:2104.15136.
[Carpio:2021jhu]
[21-380]
A model for mixed warm and hot right-handed neutrino dark matter, Maira Dutra, Vinicius Oliveira, C. A. de S. Pires, Farinaldo S. Queiroz, JHEP 10 (2021) 005, arXiv:2104.14542.
[Dutra:2021lto]
[21-381]
Freeze-in sterile neutrino dark matter in a class of U$(1)^\prime$ models with inverse seesaw, Arindam Das, Srubabati Goswami, Vishnudath K.N., Tanmay Kumar Poddar, arXiv:2104.13986, 2021.
[Das:2021nqj]
[21-382]
Testing freeze-in with axial and vector $Z'$ bosons, Catarina Cosme, Maira Dutra, Stephen Godfrey, Taylor R. Gray, JHEP 09 (2021) 056, arXiv:2104.13937.
[Cosme:2021baj]
[21-383]
Analyses of scalar potential and lepton flavor violating decays in a model with $A_4$ symmetry, Raghavendra Srikanth Hundi, Itishree Sethi, Nucl.Phys.B 980 (2022) 115764, arXiv:2104.13075.
[Hundi:2021kpt]
[21-384]
Novel imprint of a vector doublet, Phung Van Dong, Duong Van Loi, Le Duc Thien, Pham Ngoc Thu, Phys.Rev.D 104 (2021) 035001, arXiv:2104.12160.
[VanDong:2021xws]
[21-385]
Diagonal reflection symmetries, universal four-zero texture, and trimaximal mixing with predicted $\theta_{13}$, Masaki J. S. Yang, PTEP 2022 () 013, arXiv:2104.12063.
[Yang:2021xob]
[21-386]
Sterile neutrino dark matter in a U(1) extension of the standard model, Sho Iwamoto, Karoly Seller, Zoltan Trocsanyi, JCAP 01 (2022) 035, arXiv:2104.11248.
[Iwamoto:2021fup]
[21-387]
Gauged Lepton Number, Dirac Neutrinos, Dark Matter, and Muon $g-2$, Ernest Ma, Phys.Lett. B819 (2021) 136402, arXiv:2104.10324.
[Ma:2021fre]
[21-388]
Searches for new physics at SND@LHC, Alexey Boyarsky, Oleksii Mikulenko, Maksym Ovchynnikov, Lesya Shchutska, JHEP 03 (2022) 006, arXiv:2104.09688.
[Boyarsky:2021moj]
[21-389]
Lepton Flavour Violation in a radiative neutrino mass model with the asymmetric Yukawa structure, Yoko Irie, Osamu Seto, Tetsuo Shindou, Phys.Lett.B 820 (2021) 136486, arXiv:2104.09628.
[Irie:2021obo]
[21-390]
Neutrino mass and $(g-2)_\mu$ with dark $U(1)_D$ symmetry, Arnab Dasgupta, Sin Kyu Kang, Myeonghun Park, arXiv:2104.09205, 2021.
[Dasgupta:2021dnl]
[21-391]
The $(g-2)_\mu$ anomaly, Higgs bosons and heavy neutrinos, G.G. Boyarkina, O.M. Boyarkin, Phys.Rev. D67 (2003) 073023, arXiv:2104.08640.
[Boyarkina:2003lez]
[21-392]
Light, Long-Lived $B-L$ Gauge and Higgs Bosons at the DUNE Near Detector, P. S. Bhupal Dev, Bhaskar Dutta, Kevin J. Kelly, Rabindra N. Mohapatra, Yongchao Zhang, JHEP 07 (2021) 166, arXiv:2104.07681.
[Dev:2021qjj]
[21-393]
Global Analysis of Leptophilic Z' Bosons, Andrzej J. Buras, Andreas Crivellin, Fiona Kirk, Claudio Andrea Manzari, Marc Montull, JHEP 2106 (2021) 068, arXiv:2104.07680.
[Buras:2021btx]
[21-394]
Fermion mass hierarchy and $g-2$ anomalies in an extended 3HDM Model, A. E. Carcamo Hernandez, Sergey Kovalenko, M. Maniatis, Ivan Schmidt, JHEP 10 (2021) 036, arXiv:2104.07047.
[Hernandez:2021iss]
[21-395]
$(g-2)_\mu$ anomaly within the left-right symmetric model, O. M. Boyarkin, G. G. Boyarkina, V. V. Makhnach, Phys.Rev. D77 (2008) 033004, arXiv:2104.06320.
[Boyarkin:2008zz]
[21-396]
Muon $(g-2)$ and XENON1T Excess with Boosted Dark Matter in $L_\mu-L_\tau$ Model, Debasish Borah, Manoranjan Dutta, Satyabrata Mahapatra, Narendra Sahu, Phys.Lett.B 820 (2021) 136577, arXiv:2104.05656.
[Borah:2021jzu]
[21-397]
Fermion masses and mixings and $g-2$ muon anomaly in a 3-3-1 model with $D_4$ family symmetry, A. E. Carcamo Hernandez, H. N. Long, M. L. Mora-Urrutia, N. H. Thao, V. V. Vien, arXiv:2104.04559, 2021.
[Hernandez:2021mxo]
[21-398]
Right Handed Neutrinos, TeV Scale BSM Neutral Higgs and FIMP Dark Matter in EFT Framework, Genevieve Belanger, Sarif Khan, Rojalin Padhan, Manimala Mitra, Sujay Shil, Phys.Rev.D 104 (2021) 055047, arXiv:2104.04373.
[Belanger:2021slj]
[21-399]
Distinguishing $U(1)_{L_\mu-L_\tau}$ from $U(1)_{L_\mu}$ as a solution for $(g-2)_\mu$ with neutrinos, D.W.P. Amaral, D.G. Cerdeno, A. Cheek, P. Foldenauer, Eur.Phys.J.C 81 (2021) 861, arXiv:2104.03297.
[Amaral:2021rzw]
[21-400]
Muon ${g-2}$ Anomaly and Neutrino Magnetic Moments, K.S. Babu, Sudip Jana, Manfred Lindner, Vishnu P.K., JHEP 10 (2021) 240, arXiv:2104.03291.
[Babu:2021jnu]
[21-401]
Explanations for anomalies of muon anomalous magnetic dipole moment, $b\to s \mu\bar\mu$ and radiative neutrino masses in a leptoquark model, Takaaki Nomura, Hiroshi Okada, Phys.Rev.D 104 (2021) 035042, arXiv:2104.03248.
[Nomura:2021oeu]
[21-402]
Large $(g-2)_\mu$ and signals of decays $e_b\rightarrow e_a\gamma$ in a 3-3-1 model with inverse seesaw neutrinos, L. T. Hue, H. T. Hung, N. T. Tham, H. N. Long, T.Phong Nguyen, Phys.Rev.D 104 (2021) 033007, arXiv:2104.01840.
[Hue:2021xap]
[21-403]
The implication of $J/\psi\to \gamma+ {\rm invisible}$ for the effective field theories of neutrino and dark matter, Tong Li, Xiao-Dong Ma, Michael A. Schmidt, Rui-Jia Zhang, Phys.Rev.D 104 (2021) 035024, arXiv:2104.01780.
[Li:2021phq]
[21-404]
Contribution of heavy neutrinos to decay of standard-model-like Higgs boson $h\rightarrow \mu\tau$ in a 3-3-1 model with additional gauge singlets, H.T.Hung, N.T.Tham, T.T.Hieu, N.T.T.Hang, PTEP 2021 (2021) 083B01, arXiv:2103.16018.
[Hung:2021fzb]
[21-405]
Phenomenology of the Zee model for Dirac neutrinos and general neutrino interactions, Julian Calle, Diego Restrepo, Oscar Zapata, Phys.Rev.D 104 (2021) 015032, arXiv:2103.15328.
[Calle:2021tez]
[21-406]
Inverse seesaw and $(g-2)$ anomalies in $B-L$ extended two Higgs doublet model, Tanmoy Mondal, Hiroshi Okada, Nucl.Phys.B 976 (2022) 115716, arXiv:2103.13149.
[Mondal:2021vou]
[21-407]
Probing $L_\mu-L_\tau$ models with CE$\nu$NS: A new look at the combined COHERENT CsI and Ar data, Heerak Banerjee, Bhaskar Dutta, Sourov Roy, Phys.Rev.D 104 (2021) 015015, arXiv:2103.10196.
[Banerjee:2021laz]
[21-408]
Searching for $Z'$ bosons at the P2 experiment, P. S. Bhupal Dev, Werner Rodejohann, Xun-Jie Xu, Yongchao Zhang, JHEP 2106 (2021) 039, arXiv:2103.09067.
[Dev:2021otb]
[21-409]
Sterile Neutrino Dark Matter from Generalized $CPT$-Symmetric Early-Universe Cosmologies, Adam Duran, Logan Morrison, Stefano Profumo, Phys.Rev.D 104 (2021) 023509, arXiv:2103.08626.
[Duran:2021wao]
[21-410]
Light Dirac neutrino portal dark matter with observable $\Delta{N_{\rm eff}}$, Anirban Biswas, Debasish Borah, Dibyendu Nanda, JCAP 10 (2021) 002, arXiv:2103.05648.
[Biswas:2021kio]
[21-411]
Detecting long-lived multi-charged particles in neutrino mass models with MoEDAL, Martin Hirsch, Rafal Maselek, Kazuki Sakurai, Eur.Phys.J.C 81 (2021) 697, arXiv:2103.05644.
[Hirsch:2021wge]
[21-412]
The CP violation and scalar dark matter in a 331 model, M. J. Neves, Mod.Phys.Lett. A36 (2021) 2150057, arXiv:2103.01999.
[Neves:2021usp]
[21-413]
Radiative dark matter and neutrino masses from an alternative $U(1)_{B-L}$ gauge symmetry, Hiroshi Okada, Yuta Orikasa, Yutaro Shoji, JCAP 07 (2021) 006, arXiv:2102.10944.
[Okada:2021nwo]
[21-414]
Neutrino Energy Loss Rates in 331 Models, D.T.Binh, L.T.Hue, V. H. Binh, H. N. Long, Int.J.Mod.Phys.A 36 (2021) 2150179, arXiv:2102.10844.
[Binh:2021yfy]
[21-415]
Flavor Dependent $U(1)$ Symmetric Zee Model with a Vector-like Lepton, Toshinori Matsui, Takaaki Nomura, Kei Yagyu, Nucl.Phys.B 971 (2021) 115523, arXiv:2102.09247.
[Matsui:2021khj]
[21-416]
Dark matter candidates in the NMSSM with RH neutrino superfields, Daniel E. Lopez-Fogliani, Andres D. Perez, Roberto Ruiz de Austri, JCAP 2104 (2021) 067, arXiv:2102.08986.
[Lopez-Fogliani:2021qpq]
[21-417]
Solving the electron and muon $g-2$ anomalies in $Z'$ models, Arushi Bodas, Rupert Coy, Simon J. D. King, Eur.Phys.J.C 81 (2021) 1065, arXiv:2102.07781.
[Bodas:2021fsy]
[21-418]
Phenomenology of fermion dark matter as neutrino mass mediator with gauged B-L, Carlos Alvarado, Cesar Bonilla, Julio Leite, Jose W. F. Valle, Phys.Lett. B817 (2021) 136292, arXiv:2102.07216.
[Alvarado:2021fbw]
[21-419]
Controlled fermion mixing and FCNCs in a $\Delta(27)$ 3+1 Higgs Doublet Model, A. E. Carcamo Hernandez, Ivo de Medeiros Varzielas, M. L. Lopez-Ibanez, Aurora Melis, JHEP 2105 (2021) 215, arXiv:2102.05658.
[CarcamoHernandez:2021osw]
[21-420]
Dirac Neutrino Mass Matrix and its Link to Freeze-in Dark Matter, Ernest Ma, Phys.Lett. B815 (2021) 136162, arXiv:2102.05083.
[Ma:2021bzl]
[21-421]
Explaining the MiniBooNE Anomalous Excess via Leptophilic ALP-Sterile Neutrino Coupling, Chia-Hung Vincent Chang, Chuan-Ren Chen, Shu-Yu Ho, Shih-Yen Tseng, Phys.Rev.D 104 (2021) 015030, arXiv:2102.05012.
[Chang:2021myh]
[21-422]
Leptonic CP and Flavor Violations in SUSY GUT with Right-handed Neutrinos, Kaigo Hirao, Takeo Moroi, Phys.Rev.D 104 (2021) 035038, arXiv:2102.04070.
[Hirao:2021pmh]
[21-423]
Neutrino-nucleon DIS from Holographic QCD: PDFs of sea and valence quarks, form factors, and structure functions of the proton, Kiminad A. Mamo, Ismail Zahed, Phys.Rev.D 104 (2021) 066010, arXiv:2102.00608.
[Mamo:2021cle]
[21-424]
$SU(5)$ GUTs with $A_4$ modular symmetry, Peng Chen, Gui-Jun Ding, Stephen F. King, JHEP 2104 (2021) 239, arXiv:2101.12724.
[Chen:2021zty]
[21-425]
An allowed window for heavy neutral leptons below the kaon mass, Kyrylo Bondarenko, Alexey Boyarsky, Juraj Klaric, Oleksii Mikulenko, Oleg Ruchayskiy, Vsevolod Syvolap, Inar Timiryasov, JHEP 07 (2021) 193, arXiv:2101.09255.
[Bondarenko:2021cpc]
[21-426]
Fermion masses and mixings in a $U(1)_X$ model based on the $\Sigma(18)$ discrete symmetry, V. V. Vien, A. E. Carcamo Hernandez, H. N. Long, PTEP 2021 (2021) 8, arXiv:2101.03506.
[Vien:2021ciw]
[21-427]
Exploring charm decays with missing energy in leptoquark models, Gaber Faisel, Jhih-Ying Su, Jusak Tandean, JHEP 2104 (2021) 246, arXiv:2012.15847.
[Faisel:2020php]
[21-428]
Implications of Rare Kaon Decays on Lepton Number Violating Interactions, Frank F. Deppisch, Kare Fridell, Julia Harz, PoS ICHEP2020 (2021) 130, arXiv:2012.14825.
[Deppisch:2020zrd]
[21-429]
Electric dipole moments in the extended scotogenic models, Motoko Fujiwara, Junji Hisano, Chihiro Kanai, Takashi Toma, JHEP 04 (2021) 114, arXiv:2012.14585.
[Fujiwara:2020unw]
[21-430]
Left-Right Symmetric Model without Higgs Triplets, K.S. Babu, Anil Thapa, arXiv:2012.13420, 2020.
[Babu:2020bgz]
[21-431]
Modular Invariant $A_{4}$ Models for Quarks and Leptons with Generalized CP Symmetry, Chang-Yuan Yao, Jun-Nan Lu, Gui-Jun Ding, JHEP 2105 (2021) 102, arXiv:2012.13390.
[Yao:2020qyy]
[21-432]
Small $\theta_{13}$ and solar neutrino oscillation parameters from $\mu-\tau$ symmetry, Abdel Perez-Lorenzana, Int.J.Mod.Phys.A 36 (2021) 2150225, arXiv:2012.12243.
[Perez-Lorenzana:2020fps]
[21-433]
Neutrino parameters in the Planck-scale lepton number breaking scenario with extended scalar sectors, Cesar Bonilla, Johannes Herms, Alejandro Ibarra, Patrick Strobl, Phys.Rev. D103 (2021) 035010, arXiv:2012.11567.
[Bonilla:2020sne]
[21-434]
SU(2)$_R$ and its Axion in Cosmology: A common Origin for Inflation, Cold Sterile Neutrinos, and Baryogenesis, Azadeh Maleknejad, Phys.Rev.D 104 (2021) 083518, arXiv:2012.11516.
[Maleknejad:2020yys]
[21-435]
Muon g-2 explanation in a modular $A_4$ symmetry, Parada T. P. Hutauruk, Dong Woo Kang, Jongkuk Kim, Hiroshi Okada, Phys.Dark Univ. 44 (2024) 101440, arXiv:2012.11156.
[Hutauruk:2020xtk]
[21-436]
The Lepton Flavor Changing Decays and One-loop Muon Anomalous Magnetic Moment in the Extended Mirror Twin Higgs Models, Guo-Li Liu, Fei Wang, Wenyu Wang, arXiv:2012.09986, 2020.
[Liu:2020sim]
[21-437]
How dark is the $\nu_R$-philic dark photon?, Garv Chauhan, Xun-Jie Xu, JHEP 2104 (2021) 003, arXiv:2012.09980.
[Chauhan:2020mgv]
[21-438]
Searching for Lepton Flavour (Universality) Violation and Collider Signals from a Singly-Charged Scalar Singlet, Andreas Crivellin, Fiona Kirk, Claudio Andrea Manzari, Luca Panizzi, Phys.Rev. D103 (2021) 073002, arXiv:2012.09845.
[Crivellin:2020klg]
[21-439]
Search for Light Exotic Fermions in Double-Beta Decays, Matteo Agostini, Elisabetta Bossio, Alejandro Ibarra, Xabier Marcano, Phys.Lett. B815 (2021) 136127, arXiv:2012.09281.
[Agostini:2020cpz]
[21-440]
Implications of the Dark-LMA solution for neutrino mass matrices, Monojit Ghosh, Srubabati Goswami, Ananya Mukherjee, Nucl.Phys.B 969 (2021) 115460, arXiv:2012.07925.
[Ghosh:2020fes]
[21-441]
Explaining electron and muon $g-2$ anomalies in an Aligned 2-Higgs Doublet Model with Right-Handed Neutrinos, Luigi Delle Rose, Shaaban Khalil, Stefano Moretti, Phys.Lett. B816 (2021) 136216, arXiv:2012.06911.
[DelleRose:2020oaa]
[21-442]
Interference and Oscillation in Nambu Quantum Mechanics, Djordje Minic, Tatsu Takeuchi, Chia Hsiung Tze, Phys.Rev.D 104 (2021) L051301, arXiv:2012.06583.
[Minic:2020zjb]
[21-443]
The two-loop contributions to muon MDM in $U(1)_X$ SSM, Lu-Hao Su, Shu-Min Zhao, Xing-Xing Dong, Dan-Dan Cui, Tai-Fu Feng, Hai-Bin Zhang, Eur.Phys.J. C81 (2021) 433, arXiv:2012.04824.
[Su:2020lrv]
[21-444]
Spontaneous Peccei-Quinn symmetry breaking renders sterile neutrino, axion and $\chi$boson to be candidates for dark matter particles, She-Sheng Xue, Nucl.Phys.B 980 (2022) 115817, arXiv:2012.04648.
[Xue:2020cnw]
[21-445]
Damped Neutrino Oscillations in a Conformal Coupling Model, H. Mohseni Sadjadi, H. Yazdani Ahmadabadi, Phys.Rev. D103 (2021) 065012, arXiv:2012.03633.
[MohseniSadjadi:2020xmw]
[21-446]
Freeze-in generation of lepton asymmetries after baryogenesis in the $\nu$MSM, Shintaro Eijima, Mikhail Shaposhnikov, Inar Timiryasov, JCAP 04 (2022) 049, arXiv:2011.12637.
[Eijima:2020shs]
[21-447]
Lepton Anomalous Magnetic Moments in an $S_4$ Flavor-Symmetric Extra U(1) Model, Yasuhiro Daikoku, Hiroshi Okada, arXiv:2011.10374, 2020.
[Daikoku:2020nhr]
[21-448]
Alternative Minimal U(1)$_{\rm B-L}$, Kento Asai, Kazunori Nakayama, Shih-Yen Tseng, Phys.Lett. B814 (2021) 136106, arXiv:2011.10365.
[Asai:2020xnz]
[21-449]
Low Energy Constraints From Absolute Neutrino Mass Observables and Lepton Flavor Violation in Left-Right Symmetric Model, Srubabati Goswami, Vishnudath K N, Phys.Rev. D103 (2021) 055016, arXiv:2011.06314.
[Goswami:2020loc]
[21-450]
Effect of sterile neutrino on low energy processes in minimal extended seesaw with $\Delta(96)$ symmetry and $\text{TM}_{1}$ mixing, Nayana Gautam, R. Krishnan, Mrinal Kumar Das, Front.in Phys. 0 (2021) 417, arXiv:2011.05693.
[Gautam:2020bnx]
[21-451]
Supersymmetric gauged $ \mathrm{U}{(1)}_{L_{\mu }-{L}_{\tau }} $ model for electron and muon $(g-2)$ anomaly, Heerak Banerjee, Bhaskar Dutta, Sourov Roy, JHEP 03 (2021) 211, arXiv:2011.05083.
[Banerjee:2020zvi]
[21-452]
Gravitational Waves as a Big Bang Thermometer, Andreas Ringwald, Jan Schutte-Engel, Carlos Tamarit, JCAP 2103 (2021) 054, arXiv:2011.04731.
[Ringwald:2020ist]
[21-453]
Neutrino mass and asymmetric dark matter: study with inert Higgs doublet and high scale validity, Amit Dutta Banik, Rishav Roshan, Arunansu Sil, JCAP 2103 (2021) 037, arXiv:2011.04371.
[DuttaBanik:2020vfr]
[21-454]
CP Violation in Rare Lepton-Number-Violating $W$ Decays at the LHC, Fatemeh Najafi, Jacky Kumar, David London, JHEP 2104 (2021) 021, arXiv:2011.03686.
[Najafi:2020dkp]
[21-455]
Search for U(1)$_{L_\mu-L_\tau}$ charged Dark Matter with neutrino telescope, Kento Asai, Shohei Okawa, Koji Tsumura, JHEP 2103 (2021) 047, arXiv:2011.03165.
[Asai:2020qlp]
[21-456]
When Freeze-out occurs due to a non-Boltzmann suppression: A study of degenerate dark sector, Anirban Biswas, Sougata Ganguly, Sourov Roy, JHEP 06 (2021) 108, arXiv:2011.02499.
[Biswas:2020ubd]
[21-457]
Gravitational origin of dark matter and Majorana neutrino mass with non-minimal quartic inflation, Debasish Borah, Suruj Jyoti Das, Abhijit Kumar Saha, Phys.Dark Univ. 33 (2021) 100858, arXiv:2011.02489.
[Borah:2020ljr]
[21-458]
Flavored multiscalar $\mathbf{S}_{3}$ model with normal hierarchy neutrino mass, J. D. Garcia-Aguilar, Juan Carlos Gomez-Izquierdo, arXiv:2010.15370, 2020.
[Garcia-Aguilar:2020vsy]
[21-459]
The ScotoSinglet Model: A Scalar Singlet Extension of the Scotogenic Model, Ankit Beniwal, Juan Herrero-Garcia, Nicholas Leerdam, Martin White, Anthony G. Williams, JHEP 2021 (2020) 136, arXiv:2010.05937.
[Beniwal:2020hjc]
[21-460]
Charged Higgs effects in IceCube: PeV events and NSIs, Ujjal Kumar Dey, Newton Nath, Soumya Sadhukhan, JHEP 09 (2021) 113, arXiv:2010.05797.
[Dey:2020fbx]
[21-461]
Doubly charged scalars and vector-like leptons confronting the muon g-2 anomaly and Higgs vacuum stability, Nabarun Chakrabarty, Eur.Phys.J.Plus 136 (2021) 1183, arXiv:2010.05215.
[Chakrabarty:2020jro]
[21-462]
Explaining muon $g-2$ anomaly in a non-universal $U(1)_{X}$ extended SUSY theory, J. S. Alvarado, M. A. Bulla, D. G. Martinez, R. Martinez, arXiv:2010.02373, 2020.
[Alvarado:2020hti]
[21-463]
Rare charm $\boldsymbol{c\to u\,\nu\bar\nu}$ dineutrino null tests for $\boldsymbol{e^+e^-}$-machines, Rigo Bause, Hector Gisbert, Marcel Golz, Gudrun Hiller, Phys.Rev. D103 (2021) 015033, arXiv:2010.02225.
[Bause:2020xzj]
[21-464]
Observable Proton Decay in Flipped SU(5), Maria Mehmood, Mansoor Ur Rehman, Qaisar Shafi, JHEP 2021 (2020) 181, arXiv:2010.01665.
[Mehmood:2020irm]
[21-465]
Phenomenology of vector-like leptons with Deep Learning at the Large Hadron Collider, Felipe F. Freitas, Joao Goncalves, Antonio P. Morais, Roman Pasechnik, JHEP 2101 (2021) 076, arXiv:2010.01307.
[Freitas:2020ttd]
[21-466]
Displaced Vertex signatures of a pseudo-Goldstone sterile neutrino, Stephane Lavignac, Anibal D. Medina, JHEP 2101 (2021) 151, arXiv:2010.00608.
[Lavignac:2020yld]
[21-467]
Probing new $U(1)$ gauge symmetries via exotic $Z \to Z' \gamma$ decays, Lisa Michaels, Felix Yu, JHEP 2103 (2021) 120, arXiv:2010.00021.
[Michaels:2020fzj]
[21-468]
Neutrino oscillation in dark matter with $L_\mu-L_\tau$, Wei Chao, Yanyan Hu, Siyu Jiang, Mingjie Jin, arXiv:2009.14703, 2020.
[Chao:2020qpe]
[21-469]
Restricting Majorana phases in the Tri-Bi-Maximal limit, Diana C. Rivera-Agudelo, S. L. Tostado, Nucl.Phys. B965 (2021) 115359, arXiv:2009.14391.
[Rivera-Agudelo:2020orh]
[21-470]
Neutrino Oscillation Constraints on U(1)' Models: from Non-Standard Interactions to Long-Range Forces, Pilar Coloma, M.C. Gonzalez-Garcia, Michele Maltoni, JHEP 2101 (2021) 114, arXiv:2009.14220.
[Coloma:2020gfv]
[21-471]
Kinematical distributions of coherent neutrino trident production in gauged $L_\mu-L_\tau$ model, Takashi Shimomura, Yuichi Uesaka, Phys.Rev. D103 (2021) 035022, arXiv:2009.13773.
[Shimomura:2020tmg]
[21-472]
Inflation and DM phenomenology in a scotogenic model extended with a real singlet scalar, Tsuyoshi Hashimoto, Daijiro Suematsu, Phys.Rev. D102 (2020) 115041, arXiv:2009.13057.
[Hashimoto:2020xoz]
[21-473]
Lepton flavor model with modular $A_4$ symmetry in large volume limit, Takehiko Asaka, Yongtae Heo, Takahiro Yoshida, Phys.Lett. B811 (2020) 135956, arXiv:2009.12120.
[Asaka:2020tmo]
[21-474]
Neutrino Portal via Loops, Wei Chao, arXiv:2009.12002, 2020.
[Chao:2020bti]
[21-475]
Neutrino Observables from a U(2) Flavor Symmetry, Matthias Linster, Jacobo Lopez-Pavon, Robert Ziegler, Phys.Rev. D103 (2021) 015020, arXiv:2009.10437.
[Linster:2020fww]
[21-476]
Trimaximal neutrino mixing from scotogenic $A_4$ family symmetry, Gui-Jun Ding, Jun-Nan Lu, Jose W. F. Valle, Phys.Lett. B815 (2021) 136122, arXiv:2009.04750.
[Ding:2020vud]
[21-477]
$U(1)_{B_3-L_2}$ Explanation of the Neutral Current $B-$Anomalies, B.C. Allanach, Eur.Phys.J. C81 (2021) 56, arXiv:2009.02197.
[Allanach:2020kss]
[21-478]
Primordial gravitational waves in a minimal model of particle physics and cosmology, Andreas Ringwald, Ken'ichi Saikawa, Carlos Tamarit, arXiv:2009.02050, 2020.
[Ringwald:2020vei]
[21-479]
Gravitational wave signatures from discrete flavor symmetries, Graciela B. Gelmini, Silvia Pascoli, Edoardo Vitagliano, Ye-Ling Zhou, JCAP 2102 (2021) 032, arXiv:2009.01903.
[Gelmini:2020bqg]
[21-480]
Interplay between neutrino and gravity portals for FIMP dark matter, Marco Chianese, Bowen Fu, Stephen F. King, JCAP 2101 (2021) 034, arXiv:2009.01847.
[Chianese:2020khl]
[21-481]
Unified Framework for $B$-Anomalies, Muon $g-2$, and Neutrino Masses, K.S. Babu, P.S. Bhupal Dev, Sudip Jana, Anil Thapa, JHEP 2103 (2021) 179, arXiv:2009.01771.
[Babu:2020hun]
[21-482]
Searching for Supersymmetry: The $\mu\nu$SSM, Daniel E. Lopez-Fogliani, Carlos Munoz, Eur.Phys.J.ST 229 (2020) 3263-3301, arXiv:2009.01380.
[Lopez-Fogliani:2020gzo]
[21-483]
Left-right symmetry and leading contributions to neutrinoless double beta decay, Gang Li, Michael Ramsey-Musolf, Juan Carlos Vasquez, Phys.Rev.Lett. 126 (2021) 151801, arXiv:2009.01257.
[Li:2020flq]
[21-484]
Signatures of $A_4$ symmetry in the charged lepton flavour violating decays in a neutrino mass model, Rambabu Korrapati, Jai More, Ushak Rahaman, S. Uma Sankar, Eur.Phys.J. C81 (2021) 382, arXiv:2009.00865.
[Korrapati:2020rao]
[21-485]
Neutrino and dark matter in a gauged $U(1)_R$ symmetry, Keiko I. Nagao, Hiroshi Okada, JCAP 2105 (2021) 063, arXiv:2008.13686.
[Nagao:2020azf]
[21-486]
Models of decaying FIMP Dark Matter: potential links with the Neutrino Sector, Laura Covi, Avirup Ghosh, Tanmoy Mondal, Biswarup Mukhopadhyaya, arXiv:2008.12550, 2020.
[Covi:2020pch]
[21-487]
Exploring $0\nu\beta\beta$ and Leptogenesis in the Alternative Left-Right Model, Mariana Frank, Chayan Majumdar, P. Poulose, Supriya Senapati, Urjit A. Yajnik, Phys.Rev. D102 (2020) 075020, arXiv:2008.12270.
[Frank:2020odd]
[21-488]
Dark Photon Dark Matter in the minimal $B-L$ Model, Gongjun Choi, Tsutomu T. Yanagida, Norimi Yokozaki, JHEP 2101 (2021) 057, arXiv:2008.12180.
[Choi:2020dec]
[21-489]
Einstein-Cartan Portal to Dark Matter, Mikhail Shaposhnikov, Andrey Shkerin, Inar Timiryasov, Sebastian Zell, Phys.Rev.Lett. 126 (2021) 161301, arXiv:2008.11686.
[Shaposhnikov:2020aen]
[21-490]
Galactic Center constraints on self-interacting sterile neutrinos from fermionic dark matter ('ino') models, R. Yunis, C. R. Arguelles, N. E. Mavromatos, A. Moline, A. Krut, M. Carinci, J. A. Rueda, R. Ruffini, Phys.Dark Univ. 30 (2020) 100699, arXiv:2008.08464.
[Yunis:2020klk]
[21-491]
Probing the Dark Matter of Three-loop Radiative Neutrino Mass Generation Model with the Cherenkov Telescope Array, Talal Ahmed Chowdhury, Saquib Hassan, Jahid Hossain, Salah Nasri, Mahmud Ashraf Shamim, Phys.Rev. D103 (2021) 035002, arXiv:2008.06602.
[Chowdhury:2020yzs]
[21-492]
Interference Effect in LNV and LNC Meson Decays for Left Right Symmetric Model, Rohini M. Godbole, Siddharth P. Maharathy, Sanjoy Mandal, Manimala Mitra, Nita Sinha, arXiv:2008.05467, 2020.
[Godbole:2020doo]
[21-493]
Renormalizable $SO(10)$ GUT with Suppressed Dimension-5 Proton Decays, Naoyuki Haba, Yukihiro Mimura, Toshifumi Yamada, PTEP 2021 (2021) 023B01, arXiv:2008.05362.
[Haba:2020ebr]
[21-494]
Constraints on light vector mediators through coherent elastic neutrino nucleus scattering data from COHERENT, M. Cadeddu, N. Cargioli, F. Dordei, C. Giunti, Y.F. Li, E. Picciau, Y.Y. Zhang, JHEP 2101 (2021) 116, arXiv:2008.05022.
[Cadeddu:2020nbr]
[21-495]
Dark Matter EFT, the Third - Neutrino WIMPs, Ingolf Bischer, Tilman Plehn, Werner Rodejohann, SciPost Phys. 10 (2021) 039, arXiv:2008.04718.
[Bischer:2020sop]
[21-496]
A two-loop induced neutrino mass model, dark matter, and LFV processes $\ell_i \to \ell_j \gamma$, and $\mu e \to e e$ in a hidden local $U(1)$ symmetry, Takaaki Nomura, Hiroshi Okada, Yuichi Uesaka, arXiv:2008.02673, 2020.
[Nomura:2020rqn]
[21-497]
Dark matter assisted lepton anomalous magnetic moments and neutrino masses, Sudip Jana, Vishnu P.K., Werner Rodejohann, Shaikh Saad, arXiv:2008.02377, 2020.
[Jana:2020bqp]
[21-498]
Loop effect in the detection of neutrinophilic dark matter model with a spin-0 mediator, Tong Li, Jiajun Liao, JHEP 2102 (2021) 099, arXiv:2008.00743.
[Li:2020pfy]
[21-499]
Opportunities for probing $U(1)_{T3R}$ with light mediators, Bhaskar Dutta, Sumit Ghosh, Jason Kumar, Phys.Rev.D 102 (2020) 075041, arXiv:2007.16191.
[Dutta:2020enk]
[21-500]
Cosmological Constraint on Vector Mediator of Neutrino-Electron Interaction in light of XENON1T Excess, Masahiro Ibe, Shin Kobayashi, Yuhei Nakayama, Satoshi Shirai, JHEP 12 (2020) 004, arXiv:2007.16105.
[Ibe:2020dly]
[21-501]
Refining constraints from Borexino measurements on a light $Z'$-boson coupled to $L_\mu$-$L_\tau$ current, Sergei Gninenko, Dmitry Gorbunov, Phys.Lett.B 823 (2021) 136739, arXiv:2007.16098.
[Gninenko:2020xys]
[21-502]
Anomalies and accidental symmetries: charging the scalar leptoquark under $L_\mu$-$L_\tau$, Joe Davighi, Matthew Kirk, Marco Nardecchia, JHEP 2012 (2020) 111, arXiv:2007.15016.
[Davighi:2020qqa]
[21-503]
Signal from sterile neutrino dark matter in extra $U(1)$ model at direct detection experiment, Osamu Seto, Takashi Shimomura, Phys.Lett. B811 (2020) 135880, arXiv:2007.14605.
[Seto:2020udg]
[21-504]
Model Independent Bounds on the Non-Oscillatory Explanations of the MiniBooNE Excess, Vedran Brdar, Oliver Fischer, Alexei Yu. Smirnov, Phys.Rev.D 103 (2021) 075008, arXiv:2007.14411.
[Brdar:2020tle]
[21-505]
Low Scale $U(1)_X$ Gauge Symmetry as an Origin of Dark Matter, Neutrino Mass and Flavour Anomalies, Debasish Borah, Lopamudra Mukherjee, Soumitra Nandi, JHEP 2012 (2020) 052, arXiv:2007.13778.
[Borah:2020swo]
[21-506]
Explaining Xenon-1T signal with FIMP dark matter and neutrino mass in a $U(1)_{X}$ extension, Sarif Khan, Eur.Phys.J.C 81 (2021) 598, arXiv:2007.13008.
[Khan:2020pso]
[21-507]
$(g-2)$ anomalies and neutrino mass, Carolina Arbelaez, Ricardo Cepedello, Renato M. Fonseca, Martin Hirsch, Phys.Rev. D102 (2020) 075005, arXiv:2007.11007.
[Arbelaez:2020rbq]
[21-508]
Inelastic Fermion Dark Matter Origin of XENON1T Excess with Muon $(g-2)$ and Light Neutrino Mass, Debasish Borah, Satyabrata Mahapatra, Dibyendu Nanda, Narendra Sahu, Phys.Lett. B811 (2020) 135933, arXiv:2007.10754.
[Borah:2020jzi]
[21-509]
Scotogenic dark matter in an orbifold theory of flavor, Francisco J. de Anda, Ignatios Antoniadis, Jose W. F. Valle, Carlos A. Vaquera-Araujo, JHEP 2010 (2020) 190, arXiv:2007.10402.
[deAnda:2020ssl]
[21-510]
Effective Theory of Freeze-in Dark Matter, Basabendu Barman, Debasish Borah, Rishav Roshan, JCAP 2011 (2020) 021, arXiv:2007.08768.
[Barman:2020plp]
[21-511]
EFT Interpretation of XENON1T Electron Recoil Excess: Neutrinos and Dark Matter, Giorgio Arcadi, Andreas Bally, Florian Goertz, Karla Tame-Narvaez, Valentin Tenorth, Stefan Vogl, Phys.Rev. D103 (2021) 023024, arXiv:2007.08500.
[Arcadi:2020zni]
[21-512]
Right-handed Neutrino Dark Matter, Neutrino Masses, and non-Standard Cosmology in a 2HDM, G. Arcadi, S. Profumo, F. S. Queiroz, C. Siqueira, JCAP 2012 (2020) 030, arXiv:2007.07920.
[Arcadi:2020aot]
[21-513]
A Natural Scotogenic Model for Neutrino Mass & Dark Matter, Amine Ahriche, Adil Jueid, Salah Nasri, Phys.Lett. B814 (2021) 136077, arXiv:2007.05845.
[Ahriche:2020pwq]
[21-514]
Absolute neutrino mass as the missing link to the dark sector, T. de Boer, M. Klasen, C. Rodenbeck, S. Zeinstra, Phys.Rev. D102 (2020) 051702, arXiv:2007.05338.
[deBoer:2020yyw]
[21-515]
Linking axion-like dark matter, the XENON1T excess, inflation and the tiny active neutrino masses, H. N. Long, D. V. Soa, V. H. Binh, A. E. Carcamo Hernandez, Phys.Rev.D 107 (2023) 095030, arXiv:2007.05004.
[Binh:2020aal]
[21-516]
Heavy Dark Matter, Neutrino Masses and Higgs Naturalness from a Strongly Interacting Hidden Sector, Mayumi Aoki, Vedran Brdar, Jisuke Kubo, Phys.Rev. D102 (2020) 035026, arXiv:2007.04367.
[Aoki:2020mlo]
[21-517]
Large Neutrino Magnetic Moments in the Light of Recent Experiments, K.S. Babu, Sudip Jana, Manfred Lindner, JHEP 2010 (2020) 040, arXiv:2007.04291.
[Babu:2020ivd]
[21-518]
GeV-scale neutrinos: interactions with mesons and DUNE sensitivity, Pilar Coloma, Enrique Fernandez-Martinez, Manuel Gonzalez-Lopez, Josu Hernandez-Garcia, Zarko Pavlovic, Eur.Phys.J. C81 (2021) 78, arXiv:2007.03701.
[Coloma:2020lgy]
[21-519]
Dark Matter $Z^\prime$ and XENON1T Excess from $U(1)_X$ Extended Standard Model, Nobuchika Okada, Satomi Okada, Digesh Raut, Qaisar Shafi, Phys.Lett. B810 (2020) 135785, arXiv:2007.02898.
[Okada:2020evk]
[21-520]
Lepton flavor violations in SUSY models for muon $g-2$ with right-handed neutrinos, Ryo Nagai, Norimi Yokozaki, JHEP 2101 (2021) 099, arXiv:2007.00943.
[Nagai:2020xbq]
[21-521]
Axion, Neutrinos Masses and $\mu$-Problem in Minimal Supersymmetric Standard Model (MSSM), M. C. Rodriguez, arXiv:2006.15966, 2020.
[Rodriguez:2020eij]
[21-522]
Flavour Symmetry Embedded - GLoBES (FaSE-GLoBES), Jian Tang, Tse-Chun Wang, Comput.Phys.Commun. 263 (2021) 107899, arXiv:2006.14886.
[Tang:2020jeh]
[21-523]
One-loop running of dimension-six Higgs-neutrino operators and implications of a large neutrino dipole moment, Mikael Chala, Arsenii Titov, JHEP 2009 (2020) 188, arXiv:2006.14596.
[Chala:2020pbn]
[21-524]
Two-loop renormalization group equations for right-handed neutrino masses and phenomenological implications, Alejandro Ibarra, Patrick Strobl, Takashi Toma, Phys.Rev. D102 (2020) 055011, arXiv:2006.13584.
[Ibarra:2020eia]
[21-525]
Lepton number violating operators with standard model gauge fields: A survey of neutrino masses from 3-loops and their link to dark matter, Michael Gustafsson, Jose Miguel No, Maximiliano A. Rivera, JHEP 2011 (2020) 070, arXiv:2006.13564.
[Gustafsson:2020bou]
[21-526]
Light new physics in XENON1T, Celine Boehm, David G. Cerdeno, Malcolm Fairbairn, Pedro A. N. Machado, Aaron C. Vincent, Phys. Rev. D 102 (2020) 115013, arXiv:2006.11250.
[Boehm:2020ltd]
[21-527]
Solar neutrino probes of the muon anomalous magnetic moment in the gauged $U(1)_{L_\mu-L_\tau}$, Dorian Warren Praia do Amaral, David G. Cerdeno, Patrick Foldenauer, Elliott Reid, JHEP 2012 (2020) 155, arXiv:2006.11225.
[Amaral:2020tga]
[21-528]
Angular and polarization observables for Majorana-mediated B decays with effective interactions, Lucia Duarte, Gabriel Zapata, O.A. Sampayo, Eur.Phys.J. C80 (2020) 896, arXiv:2006.11216.
[Duarte:2020vgj]
[21-529]
Neutrino Floor in Leptophilic $U(1)$ Models: Modification in $U(1)_{L_\mu-L_\tau}$, Soumya Sadhukhan, Manvinder Pal Singh, Phys.Rev. D103 (2021) 015015, arXiv:2006.05981.
[Sadhukhan:2020etu]
[21-530]
Atomki anomaly in gauged $U(1)_R$ symmetric model, Osamu Seto, Takashi Shimomura, JHEP 2104 (2021) 025, arXiv:2006.05497.
[Seto:2020jal]
[21-531]
Unravelling the richness of dark sector by FASER$\nu$, Pouya Bakhti, Yasaman Farzan, Silvia Pascoli, JHEP 2010 (2020) 008, arXiv:2006.05437.
[Bakhti:2020vfq]
[21-532]
Understanding the MiniBooNE and the muon $g-2$ anomalies with a light $Z'$ and a second Higgs doublet, Waleed Abdallah, Raj Gandhi, Samiran Roy, JHEP 2012 (2020) 188, arXiv:2006.01948.
[Abdallah:2020biq]
[21-533]
Mu-Tau Reflection Symmetry in the Standard Parametrization and Contributions from Charged Lepton Sector, Chandan Duarah, Phys.Lett. B815 (2021) 136119, arXiv:2006.01639.
[Duarah:2020zjo]
[21-534]
Numerical analysis of neutrino physics within a high scale supersymmetry model via machine learning, Ying-Ke Lei, Chun Liu, Zhiqiang Chen, Mod.Phys.Lett. A35 (2020) 2050218, arXiv:2006.01495.
[Lei:2020ucb]
[21-535]
Gravitational waves from breaking of an extra $U(1)$ in $SO(10)$ grand unification, Nobuchika Okada, Osamu Seto, Hikaru Uchida, PTEP 2021 (2021) 033B01, arXiv:2006.01406.
[Okada:2020vvb]
[21-536]
Explaining $(g-2)_{\mu,e}$, KOTO anomaly and MinibooNE excess in an extended Higgs model with sterile neutrinos, Bhaskar Dutta, Sumit Ghosh, Tianjun Li, Phys.Rev. D102 (2020) 055017, arXiv:2006.01319.
[Dutta:2020scq]
[21-537]
Multicomponent dark matter in noncommutative $B-L$ gauge theory, Cao H. Nam, Duong Van Loi, Le Xuan Thuy, Phung Van Dong, JHEP 2012 (2020) 029, arXiv:2006.00845.
[Nam:2020twn]
[21-538]
Feeble neutrino portal dark matter at neutrino detectors, Priyotosh Bandyopadhyay, Eung Jin Chun, Rusa Mandal, JCAP 2008 (2020) 019, arXiv:2005.13933.
[Bandyopadhyay:2020qpn]
[21-539]
Lepton dark matter portal in the inert Zee model, Alexandra Gaviria, Robinson Longas, Andres Rivera, Int.J.Mod.Phys. A35 (2020) 2050190, arXiv:2005.13687.
[Gaviria:2020uio]
[21-540]
Gravitational waves and proton decay: complementary windows into GUTs, Stephen F. King, Silvia Pascoli, Jessica Turner, Ye-Ling Zhou, Phys.Rev.Lett. 126 (2021) 021802, arXiv:2005.13549.
[King:2020hyd]
[21-541]
Probing Lepton Flavor Models at Future Neutrino Experiments, Mattias Blennow, Monojit Ghosh, Tommy Ohlsson, Arsenii Titov, Phys.Rev. D102 (2020) 115004, arXiv:2005.12277.
[Blennow:2020ncm]
[21-542]
Higgs Portal From The Atmosphere To Hyper-K, Paul Archer-Smith, Yue Zhang, Phys.Lett. B817 (2021) 136309, arXiv:2005.08980.
[Archer-Smith:2020hqq]
[21-543]
Dark sector origin of the KOTO and MiniBooNE anomalies, Alakabha Datta, Saeed Kamali, Danny Marfatia, Phys.Lett. B807 (2020) 135579, arXiv:2005.08920.
[Datta:2020auq]
[21-544]
Observable Signatures of Scotogenic Dirac Model, Shu-Yuan Guo, Zhi-Long Han, JHEP 2012 (2020) 062, arXiv:2005.08287.
[Guo:2020qin]
[21-545]
Twin Cogenesis, Wan-Zhe Feng, Jiang-Hao Yu, Commun.Theor.Phys. 75 (2023) 045201, arXiv:2005.06471.
[Feng:2020urb]
[21-546]
A radiatively induced neutrino mass model with hidden local $U(1)$ and LFV processes $\ell_i \to \ell_j \gamma$, $\mu\to e Z'$ and $\mue \to e e$, Takaaki Nomura, Hiroshi Okada, Yuichi Uesaka, JHEP 2101 (2021) 016, arXiv:2005.05527.
[Nomura:2020azp]
[21-547]
Predictive Dirac and Majorana Neutrino Mass Textures from $SU(6)$ Grand Unified Theories, Zackaria Chacko, P. S. Bhupal Dev, Rabindra N. Mohapatra, Anil Thapa, Phys.Rev. D102 (2020) 035020, arXiv:2005.05413.
[Chacko:2020tbu]
[21-548]
Combined explanations of $(g-2)_\mu$, $R_{D^{(\ast)}}$, $R_{K^{(\ast)}}$ anomalies in a two-loop radiative neutrino mass model, Shaikh Saad, Phys.Rev. D102 (2020) 015019, arXiv:2005.04352.
[Saad:2020ihm]
[21-549]
Probing the Nature of Neutrinos with a New Force, Pavel Fileviez Perez, Alexis D. Plascencia, Phys.Rev. D102 (2020) 015010, arXiv:2005.04235.
[FileviezPerez:2020cgn]
[21-550]
Dark matter stability from Dirac neutrinos in scotogenic 3-3-1-1 theory, Julio Leite, America Morales, Jose W. F. Valle, Carlos A. Vaquera-Araujo, Phys.Rev. D102 (2020) 015022, arXiv:2005.03600.
[Leite:2020bnb]
[21-551]
Probing Light Gauge Bosons in Tau Neutrino Experiments, Felix Kling, Phys.Rev. D102 (2020) 015007, arXiv:2005.03594.
[Kling:2020iar]
[21-552]
The naturalness in the BLMSSM and B-LSSM, Xing-Xing Dong, Tai-Fu Feng, Shu-Min Zhao, Hai-Bin Zhang, Eur.Phys.J. C80 (2020) 1206, arXiv:2005.03351.
[Dong:2020ioc]
[21-553]
Observing Left-Right Symmetry in the Cosmic Microwave Background, Debasish Borah, Arnab Dasgupta, Chayan Majumdar, Dibyendu Nanda, Phys.Rev. D102 (2020) 035025, arXiv:2005.02343.
[Borah:2020boy]
[21-554]
Rephasing invariant quartets in texture zero neutrino mass matrix and CP violation, Madan Singh, arXiv:2005.01156, 2020.
[Singh:2020fpc]
[21-555]
Freeze-in Dark Matter from a Minimal B-L Model and Possible Grand Unification, Rabindra N. Mohapatra, Nobuchika Okada, Phys.Rev. D101 (2020) 115022, arXiv:2005.00365.
[Mohapatra:2020bze]
[21-556]
Minimal 3-loop neutrino mass models and charged lepton flavor violation, Ricardo Cepedello, Martin Hirsch, Paulina Rocha-Moran, Avelino Vicente, JHEP 08 (2020) 067, arXiv:2005.00015.
[Cepedello:2020lul]
[21-557]
Neutrino mass and muon $g-2$ explanation in $U(1)_{L_\mu-L_\tau}$ extension of left-right theories, Chayan Majumdar, Sudhanwa Patra, Prativa Pritimita, Supriya Senapati, Urjit A Yajnik, JHEP 09 (2020) 010, arXiv:2004.14259.
[Majumdar:2020xws]
[21-558]
Scalar dark matter, leptogenesis and $0\nu\beta\beta$ in minimal scotogenic model, Lavina Sarma, Pritam Das, Mrinal Kumar Das, Nucl.Phys.B 963 (2021) 115300, arXiv:2004.13762.
[Sarma:2020msa]
[21-559]
The Hubble tension and a renormalizable model of gauged neutrino self-interactions, Maximilian Berbig, Sudip Jana, Andreas Trautner, Phys.Rev. D102 (2020) 115008, arXiv:2004.13039.
[Berbig:2020wve]
[21-560]
RGE-induced $\mu$-$\tau$ symmetry breaking: an analysis with the latest T2K results, Guo-yuan Huang, Newton Nath, Eur.Phys.J. C80 (2020) 914, arXiv:2004.12391.
[Huang:2020kgt]
[21-561]
Low scale Trinification can shed light in the flavour hierarchies, neutrino puzzle, dark matter, leptogenesis, A. E. Carcamo Hernandez, D. T. Huong, Sergey Kovalenko, Antonio P. Morais, Roman Pasechnik, Ivan Schmidt, Phys.Rev. D102 (2020) 095003, arXiv:2004.11450.
[CarcamoHernandez:2020owa]
[21-562]
Self-interacting neutrinos: solution to Hubble tension versus experimental constraints, Kun-Feng Lyu, Emmanuel Stamou, Lian-Tao Wang, Phys.Rev. D103 (2021) 015004, arXiv:2004.10868.
[Lyu:2020lps]
[21-563]
Sterile Neutrino Dark Matter in Left-Right Theories, Jeff A. Dror, David Dunsky, Lawrence J. Hall, Keisuke Harigaya, JHEP 2007 (2020) 168, arXiv:2004.09511.
[Dror:2020jzy]
[21-564]
Unified explanation of flavor anomalies, radiative neutrino mass and ANITA anomalous events in a vector leptoquark model, P. S. Bhupal Dev, Rukmani Mohanta, Sudhanwa Patra, Suchismita Sahoo, Phys.Rev. D102 (2020) 095012, arXiv:2004.09464.
[BhupalDev:2020zcy]
[21-565]
A Common Origin of Neutrino Masses and $R_{D^{(\ast)}}$, $R_{K^{(\ast)}}$ Anomalies, Shaikh Saad, Anil Thapa, Phys.Rev. D102 (2020) 015014, arXiv:2004.07880.
[Saad:2020ucl]
[21-566]
Degenerate Fermion Dark Matter from a Broken $U(1)_{\rm B-L}$ Gauge Symmetry, Gongjun Choi, Motoo Suzuki, Tsutomu. T. Yanagida, Phys.Rev. D102 (2020) 035022, arXiv:2004.07863.
[Choi:2020nan]
[21-567]
Probing the predictions of an orbifold theory of flavor, Francisco J. de Anda, Newton Nath, Jose W. F. Valle, Carlos A. Vaquera-Araujo, Phys.Rev. D101 (2020) 116012, arXiv:2004.06735.
[deAnda:2020pti]
[21-568]
The role of right-handed neutrinos in $b \to c \tau\bar\nu$ anomalies, Rusa Mandal, Clara Murgui, Ana Penuelas, Antonio Pich, JHEP 2008 (2020) 022, arXiv:2004.06726.
[Mandal:2020htr]
[21-569]
Dark charge vs electric charge, Duong Van Loi, Cao H. Nam, Ngo Hai Tan, Phung Van Dong, Phys.Rev.D 105 (2022) 075012, arXiv:2004.06005.
[VanLoi:2020kdk]
[21-570]
Phenomenological study of texture zeros of neutrino mass matrix in minimal left-right symmetric model, Happy Borgohain, Mrinal Kumar Das, Debasish Borah, J.Phys.Conf.Ser. 1468 (2020) 012191, arXiv:2004.05634. TAUP19 proceedings.
[Borgohain:2020eqr]
[21-571]
Revisiting Majorana Neutrino Textures in the Light of Dark LMA, Happy Borgohain, Debasish Borah, J.Phys. G47 (2020) 125002, arXiv:2004.05622.
[Borgohain:2020now]
[21-572]
Cosmic-Ray Signatures of Dark Matter from a Flavor Dependent Gauge Symmetry Model with Neutrino Mass Mechanism, Holger Motz, Hiroshi Okada, Yoichi Asaoka, Kazunori Kohri, Phys.Rev. D102 (2020) 083019, arXiv:2004.04304.
[Motz:2020ddk]
[21-573]
On the consistency of a non-Hermitian Yukawa interaction, Jean Alexandre, Nick E. Mavromatos, Phys.Lett. B807 (2020) 135562, arXiv:2004.03699.
[Alexandre:2020bet]
[21-574]
Significance of broken $ \mu-\tau$ Symmetry in correlating Dirac CP Violating Phase $ \delta_{CP} $, Lightest neutrino Mass and Reactor Mixing angle $ \theta_{13} $ and neutrinoless double beta decay, $ 0\nu\beta\beta$, Gayatri Ghosh, Adv.High Energy Phys. 2021 (2021) 9563917, arXiv:2004.03160.
[Ghosh:2020rim]
[21-575]
Testing Lepton Flavor Models at ESSnuSB, Mattias Blennow, Monojit Ghosh, Tommy Ohlsson, Arsenii Titov, JHEP 2007 (2020) 014, arXiv:2004.00017.
[Blennow:2020snb]
[21-576]
Testing Moduli and Flavon Dynamics with Neutrino Oscillations, Gui-Jun Ding, Ferruccio Feruglio, JHEP 2006 (2020) 134, arXiv:2003.13448.
[Ding:2020yen]
[21-577]
Long-lived charged particles and multi-lepton signatures from neutrino mass models, Carolina Arbelaez R, Giovanna Cottin, Juan Carlos Helo, Martin Hirsch, Phys.Rev.D 101 (2020) 095033, arXiv:2003.11494.
[R:2020odv]
[21-578]
Dirac dark matter in a radiative neutrino model, Hiroshi Okada, Yutaro Shoji, Phys.Dark Univ. 31 (2021) 100742, arXiv:2003.11396.
[Okada:2020oxh]
[21-579]
Neutrino masses and mixing angles in a model with six Higgs triplets and $A_4$ symmetry, Raghavendra Srikanth Hundi, Itishree Sethi, Phys.Rev. D102 (2020) 055007, arXiv:2003.09809.
[Hundi:2020ovh]
[21-580]
Probing vector-like top partner from same-sign dilepton events at the LHC, Hang Zhou, Ning Liu, Commun.Theor.Phys. 72 (2020) 105201, arXiv:2003.09199.
[Zhou:2020ovl]
[21-581]
Electron and muon $g-2$, radiative neutrino mass, and $\ell' \to \ell \gamma$ in a $U(1)_{e-\mu}$ model, Chuan-Hung Chen, Takaaki Nomura, Nucl.Phys. B964 (2021) 115314, arXiv:2003.07638.
[Chen:2020jvl]
[21-582]
Consequences of Neutrinoless Double Decays Dominated by Short Range Interactions, C.Q. Geng, J.N. Ng, Phys.Rev. D102 (2020) 013004, arXiv:2003.06948.
[Geng:2020gsu]
[21-583]
Neutrino phenomenology in a left-right $D_4$ symmetric model, Cesar Bonilla, Leon M.G. de la Vega, R. Ferro-Hernandez, Newton Nath, Eduardo Peinado, Phys.Rev. D102 (2020) 036006, arXiv:2003.06444.
[Bonilla:2020hct]
[21-584]
A Return To Neutrino Normalcy, Peter B. Denton, arXiv:2003.04319, 2020.
[Denton:2020exu]
[21-585]
Proton Decay: Flipped vs Unflipped SU(5), John Ellis, Marcos A. G. Garcia, Natsumi Nagata, Dimitri V. Nanopoulos, Keith A. Olive, JHEP 2005 (2020) 021, arXiv:2003.03285.
[Ellis:2020qad]
[21-586]
Scotogenic dark matter and Dirac neutrinos from unbroken gauged $B-L$ symmetry, Julio Leite, America Morales, Jose W. F. Valle, Carlos A. Vaquera-Araujo, Phys.Lett. B807 (2020) 135537, arXiv:2003.02950.
[Leite:2020wjl]
[21-587]
A Model of Metastable EeV Dark Datter, Emilian Dudas, Lucien Heurtier, Yann Mambrini, Keith A. Olive, Mathias Pierre, Phys.Rev. D101 (2020) 115029, arXiv:2003.02846.
[Dudas:2020sbq]
[21-588]
Predictions from warped flavordynamics based on the $T'$ family group, Peng Chen, Gui-Jun Ding, Jun-Nan Lu, Jose W. F. Valle, Phys.Rev. D102 (2020) 095014, arXiv:2003.02734.
[Chen:2020udk]
[21-589]
Observable Gravitational Waves in Minimal Scotogenic Model, Debasish Borah, Arnab Dasgupta, Kohei Fujikura, Sin Kyu Kang, Devabrat Mahanta, JCAP 2008 (2020) 046, arXiv:2003.02276.
[Borah:2020wut]
[21-590]
Enhancement of Higgs Production Through Leptoquarks at the LHC, Arvind Bhaskar, Debottam Das, Bibhabasu De, Subhadip Mitra, Phys.Rev.D 102 (2020) 035002, arXiv:2002.12571.
[Bhaskar:2020kdr]
[21-591]
Non-standard neutrino interactions in U(1)' model after COHERENT data, L. J. Flores, Newton Nath, Eduardo Peinado, JHEP 06 (2020) 045, arXiv:2002.12342.
[Flores:2020lji]
[21-592]
Fermion masses and mixings and $g-2$ anomalies in a low scale 3-3-1 model, A. E. Carcamo Hernandez, Yocelyne Hidalgo Velasquez, Sergey Kovalenko, H. N. Long, Nicolas A. Perez-Julve, V. V. Vien, Eur.Phys.J. C81 (2021) 191, arXiv:2002.07347.
[CarcamoHernandez:2020pxw]
[21-593]
SMART U(1)$_X$ $-$ Standard Model with Axion, Right handed neutrinos, Two Higgs doublets and U(1)$_X$ gauge symmetry, Nobuchika Okada, Digesh Raut, Qaisar Shafi, Eur.Phys.J. C80 (2020) 1056, arXiv:2002.07110.
[Okada:2020cvq]
[21-594]
Neutrino and $Z'$ phenomenology in an anomaly-free $\mathbf{U}(1)$ extension: role of higher-dimensional operators, Debajyoti Choudhury, Kuldeep Deka, Tanumoy Mandal, Soumya Sadhukhan, arXiv:2002.02349, 2020.
[Choudhury:2020qff]
[21-595]
Probing new neutral gauge bosons with CEvNS and neutrino-electron scattering, Omar G. Miranda, Dimitrios K. Papoulias, Mariam Tortola, Jose W. F. Valle, Phys.Rev. D101 (2020) 073005, arXiv:2002.01482.
[Miranda:2020zji]
[21-596]
Oscillating Neutrinos and Majorana Neutrino Masses, Harald Fritzsch, Universe 6 (2020) 29, arXiv:2002.00267.
[Fritzsch:2020kzp]
[21-597]
Bridging the pseudo-Dirac dark matter and radiative neutrino mass in a singlet doublet scenario, Partha Konar, Ananya Mukherjee, Abhijit Kumar Saha, Sudipta Show, Phys.Rev. D102 (2020) 015024, arXiv:2001.11325.
[Konar:2020wvl]
[21-598]
A comparative study of $0\nu\beta\beta$ decay in symmetric and asymmetric left-right model, Chayan Majumdar, Sudhanwa Patra, Prativa Pritimita, Supriya Senapati, Nucl.Phys. B954 (2020) 115000, arXiv:2001.09488.
[Senapati:2020alx]
[21-599]
Gravitational waves from neutrino mass and dark matter genesis, Pasquale Di Bari, Danny Marfatia, Ye-Ling Zhou, Phys.Rev. D102 (2020) 095017, arXiv:2001.07637.
[DiBari:2020bvn]
[21-600]
Revamped Bi-Large neutrino mixing with Gatto-Sartori-Tonin like relation, Subhankar Roy, K. Sashikanta Singh, Jyotirmoi Borah, Nucl.Phys. B960 (2020) 115204, arXiv:2001.07401.
[Roy:2020vtm]
[21-601]
eXTP perspectives for the $\nu$MSM sterile neutrino dark matter model, Denys Malyshev, Charles Thorpe-Morgan, Andrea Santangelo, Josef Jochum, Shuang-Nan Zhang, Phys.Rev. D101 (2020) 123009, arXiv:2001.07014.
[Malyshev:2020hcc]
[21-602]
Pseudo-Goldstone Dark Matter in gauged $B-L$ extended Standard Model, Nobuchika Okada, Digesh Raut, Qaisar Shafi, Phys.Rev. D103 (2021) 055024, arXiv:2001.05910.
[Okada:2020zxo]
[21-603]
TeV gravity searches, Jose I. Illana, Manuel Masip, arXiv:2001.05195, 2020.
[Illana:2020jpi]
[21-604]
Heavy neutral leptons at ANUBIS, Martin Hirsch, Zeren Simon Wang, Phys.Rev. D101 (2020) 055034, arXiv:2001.04750.
[Hirsch:2020klk]
[21-605]
Dirac dark matter in $U(1)_{B-L}$ with Stueckelberg mechanism, Chengcheng Han, M.L. Lopez-Ibanez, Bo Peng, Jin Min Yang, Nucl.Phys. B959 (2020) 115154, arXiv:2001.04078.
[Han:2020oet]
[21-606]
Asymmetric matter from $B-L$ symmetry breaking, Phung Van Dong, Duong Van Loi, Eur.Phys.J. C80 (2020) 1137, arXiv:2001.03862.
[VanDong:2020nwb]
[21-607]
Vacuum Stability in Inert Higgs Doublet Model with Right-handed Neutrinos, Priyotosh Bandyopadhyay, P. S. Bhupal Dev, Shilpa Jangid, Arjun Kumar, JHEP 2008 (2020) 154, arXiv:2001.01764.
[Jangid:2020dqh]
[21-608]
Can a heavy $\mathrm{U}\left(1\right)_{\mathrm{B-L}}$ $Z^\prime$ boson explain the muon $\left(g-2\right)_\mu$ anomaly?, Antonio P. Morais, Roman Pasechnik, J. Pedro Rodrigues, Chin.Phys. C45 (2021) 013103, arXiv:1912.11882.
[Morais:2019aqz]
[21-609]
A model for lepton flavor violating non-standard neutrino interactions, Yasaman Farzan, Phys.Lett. B (2020) 135349, arXiv:1912.09408.
[Farzan:2019xor]
[21-610]
Predictions of QCD axion and Neutrino induced by Hidden flavor structure, Y. H. Ahn, Xiaojun Bi, Nucl.Phys. B960 (2020) 115210, arXiv:1912.09038.
[Ahn:2019add]
[21-611]
General parametrization of Majorana neutrino mass models, Isabel Cordero-Carrion, Martin Hirsch, Avelino Vicente, Phys.Rev. D101 (2020) 075032, arXiv:1912.08858.
[Cordero-Carrion:2019qtu]
[21-612]
Shining Light on the Scotogenic Model: Interplay of Colliders, Cosmology and Astrophysics, Sven Baumholzer, Vedran Brdar, Pedro Schwaller, Alexander Segner, JHEP 2009 (2020) 136, arXiv:1912.08215.
[Baumholzer:2019twf]
[21-613]
Searches for Decays of New Particles in the DUNE Multi-Purpose Near Detector, Jeffrey M. Berryman, Andre de Gouvea, Patrick J. Fox, Boris J. Kayser, Kevin J. Kelly, Jennifer L. Raaf, JHEP 2002 (2020) 174, arXiv:1912.07622.
[Berryman:2019dme]
[21-614]
A testable hidden-sector model for Dark Matter and neutrino masses, Julia Gehrlein, Mathias Pierre, JHEP 2002 (2020) 068, arXiv:1912.06661.
[Gehrlein:2019iwl]
[21-615]
LHC constraints on $W^\prime,~Z^\prime$ that couple mainly to third generation fermions, Alper Hayreter, Xiao-Gang He, German Valencia, Eur.Phys.J. C80 (2020) 912, arXiv:1912.06344.
[Hayreter:2019dzc]
[21-616]
Loop Dominated Signals from Neutrino Portal Dark Matter, Hiren H. Patel, Stefano Profumo, Bibhushan Shakya, Phys.Rev. D101 (2020) 095001, arXiv:1912.05581.
[Patel:2019zky]
[21-617]
Limits on Kaluza-Klein dark matter annihilation in the Sun from recent IceCube results, M. Colom i Bernadich, C. Perez de los Heros, arXiv:1912.04585, 2019.
[Bernadich:2019ofa]
[21-618]
Explaining muon $g-2$ data in the $\mu\nu$SSM, Essodjolo Kpatcha, Inaki Lara, Daniel E. Lopez-Fogliani, Carlos Munoz, Eur.Phys.J. C81 (2021) 154, arXiv:1912.04163.
[Kpatcha:2019pve]
[21-619]
Interference Effects for $0\nu\beta\beta$ Decay in the Left-Right Symmetric Model, Fahim Ahmed, Mihai Horoi, Phys.Rev. C101 (2020) 035504, arXiv:1912.02850.
[Ahmed:2019vum]
[21-620]
Charged scalar production at the Compact Linear Collider for the $S_3 \otimes \mathbb{Z}_2$ model, G. De Conto, A. C. B. Machado, J. Montano, P. Chimenti, Eur.Phys.J. C80 (2020) 1031, arXiv:1912.02294.
[DeConto:2019fpm]
[21-621]
Neutrinos, vacuum stability and triple Higgs coupling in SMASH, Timo J. Karkkainen, Katri Huitu, C.R. Das, arXiv:1912.01483, 2019.
[Karkkainen:2019rwz]
[21-622]
Natural dark matter and light bosons with an alternative left-right symmetry, Mariana Frank, Benjamin Fuks, Ozer Ozdal, JHEP 04 (2020) 116, arXiv:1911.12883.
[Frank:2019nid]
[21-623]
Constraints on long-lived light scalars with flavor-changing couplings and the KOTO anomaly, P. S. Bhupal Dev, Rabindra N. Mohapatra, Yongchao Zhang, Phys.Rev. D101 (2020) 075014, arXiv:1911.12334.
[Dev:2019hho]
[21-624]
A unified SU(4) theory for the $R_{D^{(*)}}$ and $R_{K^{(*)}}$ anomalies, Shyam Balaji, Michael A. Schmidt, Phys.Rev. D101 (2020) 015026, arXiv:1911.08873.
[Balaji:2019kwe]
[21-625]
MeV-GeV $\gamma$-ray telescopes probing gravitino LSP with coexisting axino NLSP as dark matter in the $\mu\nu$SSM, German A. Gomez-Vargas, Daniel E. Lopez-Fogliani, Carlos Munoz, Andres D. Perez, Astropart.Phys. 125 (2021) 102506, arXiv:1911.08550.
[Gomez-Vargas:2019mqk]
[21-626]
Diagonalization of a Hermitian matrix and its application to neutrino mass matrix, Chao-Shang Huang, Wen-Jun Li, J.Phys.G 49 (2022) 065002, arXiv:1911.06104.
[Huang:2019yoc]
[21-627]
Mass varying neutrinos with different quintessence potentials, Sayan Mandal, Gennady Y. Chitov, Olga Avsajanishvili, Bijit Singha, Tina Kahniashvili, JCAP 2105 (2021) 018, arXiv:1911.06099.
[Mandal:2019kkv]
[21-628]
MeV-GeV $\gamma$-ray telescopes probing axino LSP/gravitino NLSP as dark matter in the $\mu\nu$SSM, German A. Gomez-Vargas, Daniel E. Lopez-Fogliani, Carlos Munoz, Andres D. Perez, JCAP 2001 (2020) 058, arXiv:1911.03191.
[Gomez-Vargas:2019vci]
[21-629]
Matter-antimatter asymmetry without loops, Arnab Dasgupta, P. S. Bhupal Dev, Yongchao Zhang, Phys.Rev. D102 (2020) 055009, arXiv:1911.03013.
[Dasgupta:2019lha]
[21-630]
Majorana dark matter and neutrino mass with $S_3$ symmetry, Subhasmita Mishra, Eur.Phys.J.Plus 135 (2020) 485, arXiv:1911.02255.
[Mishra:2019keq]
[21-631]
Predictive Scotogenic Model with $U(1)_{B-3L_\alpha}$ Gauge Symmetry, Weijian Wang, Zhi-Long Han, Phys.Rev. D101 (2020) 115040, arXiv:1911.00819.
[Wang:2019byi]
[21-632]
Non-standard neutrino interactions and mu-tau reflection symmetry, Jiajun Liao, Newton Nath, TseChun Wang, Ye-Ling Zhou, Phys.Rev. D101 (2020) 095036, arXiv:1911.00213.
[Liao:2019qbb]
[21-633]
Is it possible to explain the muon and electron $g-2$ in a $Z^{\prime}$ model?, A. E. Carcamo Hernandez, S. F. King, H. Lee, S. J. Rowley, Phys.Rev. D101 (2020) 115016, arXiv:1910.10734.
[CarcamoHernandez:2019ydc]
[21-634]
Minimalistic scotogenic scalar dark matter, Ivania M. Avila, Valentina De Romeri, Laura Duarte, Jose W. F. Valle, Eur.Phys.J. C80 (2020) 908, arXiv:1910.08422.
[Avila:2019hhv]
[21-635]
Impact of Higgs physics on the parameter space of the $\mu\nu$SSM, Essodjolo Kpatcha, Daniel E. Lopez-Fogliani, Carlos Mu\noz, Roberto Ruiz de Austri, Eur.Phys.J. C80 (2020) 336, arXiv:1910.08062.
[Kpatcha:2019qsz]
[21-636]
Modular $S_4$ and $A_4$ Symmetries and Their Fixed Points: New Predictive Examples of Lepton Mixing, Gui-Jun~Ding, Stephen~F. King, Xiang-Gan Liu, Jun-Nan Lu, JHEP 1912 (2019) 030, arXiv:1910.03460.
[Ding:2019gof]
[21-637]
Leptonic Scalars at the LHC, Andre de Gouvea, P. S. Bhupal Dev, Bhaskar Dutta, Tathagata Ghosh, Tao Han, Yongchao Zhang, JHEP 2007 (2020) 142, arXiv:1910.01132.
[deGouvea:2019qaz]
[21-638]
Multicomponent dark matter in extended $U(1)_{B-L}$: neutrino mass and high scale validity, Subhaditya Bhattacharya, Nabarun Chakrabarty, Rishav Roshan, Arunansu Sil, JCAP 2004 (2020) 013, arXiv:1910.00612.
[Bhattacharya:2019tqq]
[21-639]
Revisiting (s)neutrino dark matter in natural SUSY, T. Faber, J. Jones-Perez, Y. Liu, W. Porod, Phys.Rev. D101 (2020) 055029, arXiv:1909.11686.
[Faber:2019mti]
[21-640]
Probing the Higgs Portal at the Fermilab Short-Baseline Neutrino Experiments, Brian Batell, Joshua Berger, Ahmed Ismail, Phys.Rev. D100 (2019) 115039, arXiv:1909.11670.
[Batell:2019nwo]
[21-641]
Dirac neutrino mass generation from Majorana messenger, Julian Calle, Diego Restrepo, Oscar Zapata, Phys.Rev. D101 (2020) 035004, arXiv:1909.09574.
[Calle:2019mxn]
[21-642]
2-, 3- and 4-Body Decays in the Constructive Standard Model, Neil Christensen, Bryan Field, Annie Moore, Santiago Pinto, Phys.Rev. D101 (2020) 065019, arXiv:1909.09164.
[Christensen:2019mch]
[21-643]
Explaining the ANITA events by a $L_e-L_\tau$ gauge model, Arman Esmaili, Yasaman Farzan, JCAP 1912 (2019) 017, arXiv:1909.07995.
[Esmaili:2019pcy]
[21-644]
A theory for scotogenic dark matter stabilised by residual gauge symmetry, Julio Leite, Oleg Popov, Rahul Srivastava, Jose W. F. Valle, Phys.Lett. B802 (2020) 135254, arXiv:1909.06386.
[Leite:2019grf]
[21-645]
Flavor techniques for LFV processes: Higgs decays in a general seesaw model, Xabier Marcano, Roberto A. Morales, Front.in Phys. 7 (2020) 228, arXiv:1909.05888.
[Marcano:2019rmk]
[21-646]
Lepton number violation in heavy Higgs decays to sneutrinos, Stefano Moretti, Claire Shepherd-Themistocleous, Harri Waltari, Phys.Rev. D101 (2020) 015018, arXiv:1909.04692.
[Moretti:2019yln]
[21-647]
Higgs Troika for Baryon Asymmetry, Hooman Davoudiasl, Ian M. Lewis, Matthew Sullivan, Phys.Rev. D101 (2020) 055010, arXiv:1909.02044.
[Davoudiasl:2019lcg]
[21-648]
Gauging the accidental symmetries of the Standard Model, and implications for the flavour anomalies, Wolfgang Altmannshofer, Joe Davighi, Marco Nardecchia, Phys.Rev. D101 (2020) 015004, arXiv:1909.02021.
[Altmannshofer:2019xda]
[21-649]
Testing Texture Two Zero Neutrino Mass Matrices Under Current Experimental Scenario, Madan Singh, EPL 129 (2020) 11002, arXiv:1909.01552.
[Singh:2019baq]
[21-650]
Lepton Flavor Violation in $ S_{4} \times Z_{n} $ flavor symmetric SUSY SO(10) theory in the light of Non Universal Scalar Mass Models, mSUGRA and Non Universal Higgs Mass Model, Gayatri Ghosh, arXiv:1908.11160, 2019.
[Ghosh:2019zry]
[21-651]
Displaced heavy neutrinos from $Z'$ decays at the LHC, Cheng-Wei Chiang, Giovanna Cottin, Arindam Das, Sanjoy Mandal, JHEP 1912 (2019) 070, arXiv:1908.09838.
[Chiang:2019ajm]
[21-652]
A cosmologically viable eV sterile neutrino model, C. A. de S. Pires, Phys.Lett. B800 (2020) 135135, arXiv:1908.09313.
[Pires:2019elj]
[21-653]
Scalar dark matter, Neutrino mass, Leptogenesis and rare B decays in a $\rm U(1)_{B-L}$ model, Subhasmita Mishra, Shivaramakrishna Singirala, Suchismita Sahoo, arXiv:1908.09187, 2019.
[Mishra:2019fed]
[21-654]
Gauged $U(1)_{L_\mu-L_\tau}$ Scotogenic Model in light of $R_{K^{(*)}}$ Anomaly and AMS-02 Positron Excess, Zhi-Long Han, Ran Ding, Su-Jie Lin, Bin Zhu, Eur.Phys.J. C79 (2019) 1007, arXiv:1908.07192.
[Han:2019diw]
[21-655]
Fermion Dark Matter and Radiative Neutrino Masses from Spontaneous Lepton Number Breaking, Cesar Bonilla, Leon M. G. de la Vega, J. M. Lamprea, Roberto A. Lineros, Eduardo Peinado, New J.Phys. 22 (2020) 033009, arXiv:1908.04276.
[Bonilla:2019ipe]
[21-656]
Observing Dirac neutrinos in the cosmic microwave background, Kevork N. Abazajian, Julian Heeck, Phys.Rev. D100 (2019) 075027, arXiv:1908.03286.
[Abazajian:2019oqj]
[21-657]
Zee-Burst: A New Probe of Neutrino Non-Standard Interactions at IceCube, K. S. Babu, P. S. Bhupal Dev, Sudip Jana, Yicong Sui, Phys.Rev.Lett. 124 (2020) 041805, arXiv:1908.02779.
[Babu:2019vff]
[21-658]
A frequentist analysis of three right-handed neutrinos with GAMBIT, Marcin Chrzaszcz, Marco Drewes, Tomas Gonzalo, Julia Harz, Suraj Krishnamurthy, Christoph Weniger, Eur.Phys.J. C80 (2020) 569, arXiv:1908.02302.
[Chrzaszcz:2019inj]
[21-659]
Density matrix calculation of the dark matter abundance in the Higgs induced right-handed neutrino mixing model, P. Di Bari, K. Farrag, R. Samanta, Y.L. Zhou, JCAP 2010 (2020) 029, arXiv:1908.00521.
[DiBari:2019zcc]
[21-660]
Probing New Physics Signals with Symmetry-Restored Yukawa Textures, Shao-Ping Li, Xin-Qiang Li, Eur.Phys.J. C80 (2020) 268, arXiv:1907.13555.
[Li:2019xmi]
[21-661]
On Lepton Number Violation in Heavy Neutrino Decays at Colliders, Marco Drewes, Juraj Klaric, Philipp Klose, JHEP 1911 (2019) 032, arXiv:1907.13034.
[Drewes:2019byd]
[21-662]
Loop-enhanced rate of neutrinoless double beta decay, Werner Rodejohann, Xun-Jie Xu, arXiv:1907.12478, 2019.
[Rodejohann:2019qzu]
[21-663]
Phenomenological consistency of the singlet-triplet scotogenic model, Diego Restrepo, Andres Rivera, arXiv:1907.11938, 2019.
[Restrepo:2019taj]
[21-664]
Radiative neutrino model with semi-annihilation dark matter, Haiying Cai, Phys.Rev. D101 (2020) 035006, arXiv:1907.11595.
[Cai:2019pcj]
[21-665]
Flavoured gauge extension of singlet-doublet fermionic dark matter: neutrino mass, high scale validity and collider signatures, Basabendu Barman, Debasish Borah, Purusottam Ghosh, Abhijit Kumar Saha, JHEP 1910 (2019) 275, arXiv:1907.10071.
[Barman:2019aku]
[21-666]
Non-Standard Interactions in Radiative Neutrino Mass Models, K. S. Babu, P. S. Bhupal Dev, Sudip Jana, Anil Thapa, JHEP 2003 (2020) 006, arXiv:1907.09498.
[Babu:2019mfe]
[21-667]
Lepton flavor violation from SUSY with non-universal scalars, Howard Baer, Vernon Barger, Hasan Serce, Phys.Rev.Research. 1 (2019) 033022, arXiv:1907.06693.
[Baer:2019xug]
[21-668]
Neutrino Phenomenology and Dark matter in an $A_4$ flavour extended B-L model, Subhasmita Mishra, Mitesh Kumar Behera, Rukmani Mohanta, Sudhanwa Patra, Shivaramakrishna Singirala, Eur.Phys.J. C80 (2020) 420, arXiv:1907.06429.
[Mishra:2020fhy]
[21-669]
Predictions for the neutrino parameters in the minimal model extended by linear combination of U(1)$_{L_e-L_\mu}$, U(1)$_{L_\mu-L_\tau}$ and U(1)$_{B-L}$ gauge symmetries, Kento Asai, Eur.Phys.J. C80 (2020) 76, arXiv:1907.04042.
[Asai:2019ciz]
[21-670]
Alternative Renormalizable Minimal SO(10) GUTs and Data Fitting, Takeshi Fukuyama, Nobuchika Okada, Hieu Minh Tran, Nucl.Phys. B954 (2020) 114992, arXiv:1907.02948.
[Fukuyama:2019zun]
[21-671]
Accessible Lepton-Number-Violating Models and Negligible Neutrino Masses, Andre de Gouvea, Wei-Chih Huang, Johannes Konig, Manibrata Sen, Phys.Rev. D100 (2019) 075033, arXiv:1907.02541.
[DeGouvea:2019wnq]
[21-672]
Sampling the $\mu\nu$SSM for displaced decays of the tau left sneutrino LSP at the LHC, Essodjolo Kpatcha, Inaki Lara, Daniel E. Lopez-Fogliani, Carlos Munoz, Natsumi Nagata, Hidetoshi Otono, Roberto Ruiz de Austri, Eur.Phys.J. C79 (2019) 934, arXiv:1907.02092.
[Kpatcha:2019gmq]
[21-673]
Radiatively scotogenic type-II seesaw and a relevant phenomenological analysis, Chuan-Hung Chen, Takaaki Nomura, JHEP 1910 (2019) 005, arXiv:1906.10516.
[Chen:2019okl]
[21-674]
Dark matter mass from relic abundance, extra $U(1)$ Gauge boson and Active-Sterile Neutrino Mixing, Imtiyaz Ahmad Bhat, Rathin Adhikari, Phys.Rev. D101 (2020) 075030, arXiv:1906.10185.
[Bhat:2019yqo]
[21-675]
Singlet-Doublet Dirac Dark Matter and Neutrino Masses, Diego Restrepo, Andres Rivera, Walter Tangarife, Phys.Rev. D100 (2019) 035029, arXiv:1906.09685.
[Restrepo:2019soi]
[21-676]
Exploring CP-Violating heavy neutrino oscillations in rare tau decays at Belle II, Sebastian Tapia 'and' Jilberto Zamora-Saa, Nucl.Phys. B952 (2020) 114936, arXiv:1906.09470.
[Tapia:2019coy]
[21-677]
Cosmology with a Master Coupling in Flipped SU(5) $\times$ U(1): The $\lambda_6$ Universe, John Ellis, Marcos A. G. Garcia, Natsumi Nagata, Dimitri V. Nanopoulos, Keith A. Olive, Phys.Lett. B797 (2019) 134864, arXiv:1906.08483.
[Ellis:2019jha]
[21-678]
Inflation, Proton Decay, and Higgs-Portal Dark Matter in $SO(10) \times U(1)_\psi$, Nobuchika Okada, Digesh Raut, Qaisar Shafi, Eur.Phys.J. C79 (2019) 1036, arXiv:1906.06869.
[Okada:2019bqa]
[21-679]
Precise prediction for the Higgs-Boson Masses in the $\mu\nu$SSM with three right-handed neutrino superfields, Thomas Biekotter, Sven Heinemeyer, Carlos Munoz, Eur.Phys.J. C79 (2019) 667, arXiv:1906.06173.
[Biekotter:2019gtq]
[21-680]
A comparative study of the $S_1$ and $U_1$ leptoquark effects at IceCube, Ilja Dorsner, Svjetlana Fajfer, Monalisa Patra, Eur.Phys.J. C80 (2020) 204, arXiv:1906.05660.
[Dorsner:2019vgp]
[21-681]
New Physics Probes: Atomic Parity Violation, Polarized Electron Scattering and Neutrino-Nucleus Coherent Scattering, Giorgio Arcadi, Manfred Lindner, Jessica Martins, Farinaldo S. Queiroz, Nucl.Phys. B959 (2020) 115158, arXiv:1906.04755.
[Arcadi:2019uif]
[21-682]
Long-lived TeV-scale right-handed neutrino production at the LHC in gauged $U(1)_X$ model, Arindam Das, P. S. Bhupal Dev, Nobuchika Okada, Phys.Lett. B799 (2019) 135052, arXiv:1906.04132.
[Das:2019fee]
[21-683]
Planck Scale Origin of Non-zero $\theta_{13}$ and Super-WIMP Dark Matter, Debasish Borah, Biswajit Karmakar, Dibyendu Nanda, Phys.Rev. D100 (2019) 055014, arXiv:1906.02756.
[Borah:2019ldn]
[21-684]
Strongly Interacting Neutrino Portal Dark Matter, J.M. Lamprea, E. Peinado, S. Smolenski, J. Wudka, Phys.Rev. D103 (2021) 015017, arXiv:1906.02340.
[Lamprea:2019qet]
[21-685]
Multiple modular symmetries as the origin of flavour, Ivo de Medeiros Varzielas, Stephen F. King, Ye-Ling Zhou, Phys.Rev. D101 (2020) 055033, arXiv:1906.02208.
[deMedeirosVarzielas:2019cyj]
[21-686]
Confronting Tri-direct CP-symmetry models to neutrino oscillation experiments, Gui-Jun Ding, Yu-Feng Li, Jian Tang, Tse-Chun Wang, Phys.Rev. D100 (2019) 055022, arXiv:1905.12939.
[Ding:2019zhn]
[21-687]
Two component dark matter with inert Higgs doublet: neutrino mass, high scale validity and collider searches, Subhaditya Bhattacharya, Purusottam Ghosh, Abhijit Kumar Saha, Arunansu Sil, JHEP 2003 (2020) 090, arXiv:1905.12583.
[Bhattacharya:2019fgs]
[21-688]
Dark matter and baryon-number generation in quintessential inflation via hierarchical right-handed neutrinos, Soichiro Hashiba, Jun'ichi Yokoyama, Phys.Lett. B798 (2019) 135024, arXiv:1905.12423.
[Hashiba:2019mzm]
[21-689]
CP Symmetries as Guiding Posts: Realistic Variants of Tri-Bi-Maximal Mixing-II, Peng Chen, Salvador Centelles Chulia, Gui-Jun Ding, Rahul Srivastava, Jose W. F. Valle, Phys.Rev. D100 (2019) 053001, arXiv:1905.11997.
[Chen:2019fgb]
[21-690]
Heavy neutrino production via $Z'$ at the lifetime frontier, Frank F. Deppisch, Suchita Kulkarni, Wei Liu, Phys.Rev. D100 (2019) 035005, arXiv:1905.11889.
[Deppisch:2019kvs]
[21-691]
Probes of the Standard Model effective field theory extended with a right-handed neutrino, Julien Alcaide, Shankha Banerjee, Mikael Chala, Arsenii Titov, JHEP 1908 (2019) 031, arXiv:1905.11375.
[Alcaide:2019pnf]
[21-692]
Scalar neutrino dark matter in $U(1)_X$SSM, Shu-Min Zhao, Tai-Fu Feng, Ming-Jie Zhang, Jin-Lei Yang, Hai-Bin Zhang, Guo-Zhu Ning, JHEP 2002 (2020) 130, arXiv:1905.11007.
[Zhao:2019ggv]
[21-693]
Long Lived Particles Searches in Heavy Ion Collisions at the LHC, Marco Drewes, Andrea Giammanco, Jan Hajer, Michele Lucente, Phys.Rev. D101 (2020) 055002, arXiv:1905.09828.
[Drewes:2019vjy]
[21-694]
An Algebraic Analysis of Neutrino Masses and Mixings and its Implications on $\mu$-$\tau$ Symmetric Mass Matrix, Chandan Duarah, arXiv:1905.07910, 2019.
[Duarah:2019ldd]
[21-695]
Cosmological Constraints on Chiral Tensor Particles, D.P. Kirilova, E.M. Chizhov, Int.J.Mod.Phys. A34 (2019) 1950065, arXiv:1905.06806.
[Kirilova:2019bwg]
[21-696]
Neutrino-Dark Matter Connections in Gauge Theories, Pavel Fileviez Perez, Clara Murgui, Alexis D. Plascencia, Phys.Rev. D100 (2019) 035041, arXiv:1905.06344.
[FileviezPerez:2019cyn]
[21-697]
A unified explanation of $b \to s \mu^+ \mu^-$ anomalies, neutrino masses and $B\rightarrow \piK$ puzzle, Alakabha Datta, Divya Sachdeva, John Waite, Phys.Rev. D100 (2019) 055015, arXiv:1905.04046.
[Datta:2019tuj]
[21-698]
Light Mediators in Anomaly Free $U(1)_X$ Models II - Constraints on Dark Gauge Bosons, F.C. Correia, Svjetlana Fajfer, JHEP 1910 (2019) 279, arXiv:1905.03872.
[Correia:2019woz]
[21-699]
Phase broken $\mu-\tau$ symmetry and the neutrino mass hierarchy, N. Chamoun, C. Hamzaoui, S. Lashin, S. Nasri, M. Toharia, Phys.Rev.D 104 (2021) 015004, arXiv:1905.00675.
[Chamoun:2019pbh]
[21-700]
Phenomenology of keV scale sterile neutrino dark matter with $S_{4}$ flavor symmetry, Nayana Gautam, Mrinal Kumar Das, JHEP 2001 (2020) 098, arXiv:1904.10662.
[Gautam:2019pce]
[21-701]
Consequences of $\mu$-$\tau$ reflection symmetry for $3+1$ neutrino mixing, Kaustav Chakraborty, Srubabati Goswami, Biswajit Karmakar, Phys.Rev. D100 (2019) 035017, arXiv:1904.10184.
[Chakraborty:2019rjc]
[21-702]
Minimal Dirac Neutrino Mass Models from $U(1)_R$ Gauge Symmetry and Left-Right Asymmetry at Collider, Sudip Jana, Vishnu P.K., Shaikh Saad, Eur.Phys.J. C79 (2019) 11, arXiv:1904.07407.
[Jana:2019mez]
[21-703]
Exotic coloured fermions and lepton number violation at the LHC, E. Carquin, J. C. Helo, M. Hirsch, N. A. Neill, Phys.Rev. D99 (2019) 115028, arXiv:1904.07257.
[Carquin:2019xiz]
[21-704]
Majorana neutrinos with effective interactions in B decays, Lucia Duarte, Javier Peressutti, Ismael Romero, Oscar A. Sampayo, Eur.Phys.J. C79 (2019) 593, arXiv:1904.07175.
[Duarte:2019rzs]
[21-705]
Status and prospects of `bi-large' leptonic mixing, Gui-Jun Ding, Newton Nath, Rahul Srivastava, Jose W. F. Valle, Phys.Lett. B796 (2019) 162-167, arXiv:1904.05632.
[Ding:2019vvi]
[21-706]
Common origin of modified chaotic inflation, non thermal dark matter and Dirac neutrino mass, Debasish Borah, Dibyendu Nanda, Abhijit Kumar Saha, arXiv:1904.04840, 2019.
[Borah:2019rgj]
[21-707]
Where are the Next Higgs Bosons?, Christopher T. Hill, Pedro A. N. Machado, Anders E. Thomsen, Jessica Turner, Phys.Rev. D100 (2019) 015051, arXiv:1904.04257.
[Hill:2019cce]
[21-708]
A modular $A_4$ symmetric model of dark matter and neutrino, Takaaki Nomura, Hiroshi Okada, Phys.Lett. B797 (2019) 134799, arXiv:1904.03937.
[Nomura:2019jxj]
[21-709]
Phenomenological Study of Texture Zeros in Lepton Mass Matrices of Minimal Left-Right Symmetric Model, Happy Borgohain, Mrinal Kumar Das, Debasish Borah, JHEP 1906 (2019) 064, arXiv:1904.02484.
[Borgohain:2019pya]
[21-710]
CP-Violation phase analysis via non-trivial correlation of quarks and leptons in 3+1 scenario, Gazal Sharma, B. C. Chauhan, Mod.Phys.Lett. A33 (2019) 1950316, arXiv:1904.02040.
[Sharma:2019tef]
[21-711]
Radiative Dirac Neutrino Mass with Dark Matter and it's implication to $0\nu4\beta$ in the $U(1)_{B-L}$ extension of the Standard Model, Arnab Dasgupta, Sin Kyu Kang, Oleg Popov, Phys.Rev.D 100 (2019) 075030, arXiv:1903.12558.
[Dasgupta:2019rmf]
[21-712]
Perturbative unitarity bounds for effective composite models, S. Biondini, R. Leonardi, O. Panella, M. Presilla, Phys.Lett.B 795 (2019) 644-649, arXiv:1903.12285.
[Biondini:2019tcc]
[21-713]
$R_K$ and $R_{K^*}$ in an Aligned 2HDM with Right-Handed Neutrinos, Luigi Delle Rose, Shaaban Khalil, Simon J.D. King, Stefano Moretti, Phys.Rev. D101 (2020) 115009, arXiv:1903.11146.
[DelleRose:2019ukt]
[21-714]
Model-independent upper limits on lepton number violating states from neutrino mass, Juan Herrero-Garcia, Michael A. Schmidt, Eur.Phys.J. C79 (2019) 938, arXiv:1903.10552.
[Herrero-Garcia:2019czj]
[21-715]
Two-component Dark Matter with co-genesis of Baryon Asymmetry of the Universe, Debasish Borah, Arnab Dasgupta, Sin Kyu Kang, Phys.Rev. D100 (2019) 103502, arXiv:1903.10516.
[Borah:2019epq]
[21-716]
$b\to s\ell^+\ell^-$ Transitions in Two-Higgs-Doublet Models, Andreas Crivellin, Dario Muller, Christoph Wiegand, JHEP 1906 (2019) 119, arXiv:1903.10440.
[Crivellin:2019dun]
[21-717]
Reconciling dark matter, $R_{K^{(*)}}$ anomalies and $(g-2)_\mu$ in an ${L_\mu-L_\tau}$ scenario, Anirban Biswas, Avirup Shaw, JHEP 1905 (2019) 165, arXiv:1903.08745.
[Biswas:2019twf]
[21-718]
Neutrino Masses from a Dark Neutrino Sector below the Electroweak Scale, Peter Ballett, Matheus Hostert, Silvia Pascoli, Phys.Rev. D99 (2019) 091701, arXiv:1903.07590.
[Ballett:2019cqp]
[21-719]
Dark Neutrinos and a Three Portal Connection to the Standard Model, Peter Ballett, Matheus Hostert, Silvia Pascoli, Phys.Rev. D101 (2020) 115025, arXiv:1903.07589.
[Ballett:2019pyw]
[21-720]
Deviations to Tri-Bi-Maximal mixing in the limit of $\mu-\tau$ symmetry, Diana C. Rivera-Agudelo, S. L. Tostado, Abdel Perez-Lorenzana, Phys.Lett. B794 (2019) 89-95, arXiv:1903.05597.
[Rivera-Agudelo:2019seg]
[21-721]
Inert charged-Higgs on muon $g-2$ and radiative neutrino mass in a scotogenic model, Chuan-Hung Chen, Takaaki Nomura, Phys.Rev. D100 (2019) 015024, arXiv:1903.03380.
[Chen:2019nud]
[21-722]
Constraining dark matter-neutrino interactions with IceCube-170922A, Ki-Young Choi, Jongkuk Kim, Carsten Rott, Phys.Rev. D99 (2019) 083018, arXiv:1903.03302.
[Choi:2019ixb]
[21-723]
Linking lepton number violation with $B$ anomalies, Oscar Cata, Thomas Mannel, arXiv:1903.01799, 2019.
[Cata:2019wbu]
[21-724]
Neutrino Portals to Dark Matter, M. Blennow, E. Fernandez-Martinez, A. Olivares-Del Campo, S. Pascoli, S. Rosauro-Alcaraz, A. V. Titov, Eur.Phys.J. C79 (2019) 555, arXiv:1903.00006.
[Blennow:2019fhy]
[21-725]
Predicting neutrino oscillations with 'bi-large' lepton mixing matrices, Peng Chen, Gui-Jun Ding, Rahul Srivastava, Jose W. F. Valle, Phys.Lett. B792 (2019) 461-464, arXiv:1902.08962.
[Chen:2019egu]
[21-726]
All-in-one Relaxion, a unified solution to five BSM puzzles, R.S. Gupta, J.Y. Reiness, M. Spannowsky, Phys.Rev. D100 (2019) 055003, arXiv:1902.08633.
[Gupta:2019ueh]
[21-727]
Ameliorating Higgs Induced Flavor Constraints on TeV Scale $W_R$, Rabindra N. Mohapatra, Guanwen Yan, Yongchao Zhang, Nucl.Phys. B948 (2019) 114764, arXiv:1902.08601.
[Mohapatra:2019qid]
[21-728]
$Z^\prime$s in neutrino scattering at DUNE, Peter Ballett, Matheus Hostert, Silvia Pascoli, Yuber F. Perez-Gonzalez, Zahra Tabrizi, Renata Zukanovich Funchal, Phys.Rev. D100 (2019) 055012, arXiv:1902.08579.
[Ballett:2019xoj]
[21-729]
Sensitivity of the intensity frontier experiments for neutrino and scalar portals: analytic estimates, Kyrylo Bondarenko, Alexey Boyarsky, Maksym Ovchynnikov, Oleg Ruchayskiy, JHEP 1908 (2019) 061, arXiv:1902.06240.
[Bondarenko:2019yob]
[21-730]
$b\rightarrow s \mu^+ \mu^-$ anomalies and related phenomenology in $U(1)_{B_3 - x_\muL_\mu- x_\tauL_\tau}$ flavor gauge models, P. Ko, Takaaki Nomura, Chaehyun Yu, JHEP 1904 (2019) 102, arXiv:1902.06107.
[Ko:2019tts]
[21-731]
Revisiting the LHC reach in the displaced region of the minimal left-right symmetric model, Giovanna Cottin, Juan Carlos Helo, Martin Hirsch, Dario Silva, Phys.Rev. D99 (2019) 115013, arXiv:1902.05673.
[Cottin:2019drg]
[21-732]
The Higgs boson decays with the lepton flavor violation, O.M. Boyarkin, G.G. Boyarkina, D.S. Vasileuskaya, Int.J.Mod.Phys. A33 (2018) 1850103, arXiv:1902.04481.
[Boyarkin:2018wlr]
[21-733]
New mixing schemes for (3+1) neutrinos, S. Dev, Desh Raj, Radha Raman Gautam, Lal Singh, Nucl.Phys. B941 (2019) 401-424, arXiv:1902.01742.
[Dev:2019pdg]
[21-734]
Linking Scalar Dark Matter and Neutrino Masses with IceCube 170922A, J.B.G. Alvey, M. Fairbairn, JCAP 2019 (2019) 041, arXiv:1902.01450.
[Alvey:2019jzx]
[21-735]
Fermion Dark Matter with Scalar Triplet at Direct and Collider Searches, Basabendu Barman, Subhaditya Bhattacharya, Purusottam Ghosh, Saurabh Kadam, Narendra Sahu, Phys.Rev. D100 (2019) 015027, arXiv:1902.01217.
[Barman:2019tuo]
[21-736]
Neutrino mixings as a source of lepton flavor violations, O.M. Boyarkin, G.G. Boyarkina, D.S. Vasileuskaya, Int.J.Mod.Phys. A33 (2018) 1850201, arXiv:1901.11238.
[Boyarkin:2018icu]
[21-737]
A Froggatt-Nielsen flavor model for neutrino physics, Micheal S. Berger, Maria Dawid, Int.J.Mod.Phys. A34 (2019) 1950102, arXiv:1901.10504.
[Berger:2019rfk]
[21-738]
Renormalization Group Evolution of Dimension-seven Operators in Standard Model Effective Field Theory and Relevant Phenomenology, Yi Liao, Xiao-Dong Ma, JHEP 1903 (2019) 179, arXiv:1901.10302.
[Liao:2019tep]
[21-739]
Phenomenology of an extended IDM with loop-generated fermion mass hierarchies, A. E. Carcamo Hernandez, Sergey Kovalenko, Roman Pasechnik, Ivan Schmidt, Eur.Phys.J. C79 (2019) 610, arXiv:1901.09552.
[CarcamoHernandez:2019xkb]
[21-740]
Bi$\boldsymbol\nu$o phenomenology at the LHC, Patrick J. Fox, Julia Gehrlein, Seyda Ipek, JHEP 1903 (2019) 073, arXiv:1901.09284.
[Gehrlein:2019gtk]
[21-741]
Common explanation to the $R_{K^{(*)}}$, $R_{D^{(*)}}$ and $\epsilon^\prime/\epsilon$ anomalies in a 3HDM+$\nu_R$ and connections to neutrino physics, Carlo Marzo, Luca Marzola, Martti Raidal, Phys.Rev. D100 (2019) 055031, arXiv:1901.08290.
[Marzo:2019ldg]
[21-742]
Predictive Scotogenic Model with Flavor Dependent Symmetry, Zhi-Long Han, Weijian Wang, Eur.Phys.J. C79 (2019) 522, arXiv:1901.07798.
[Han:2019lux]
[21-743]
Sign of CP Violating Phase in Quarks and Leptons, Yusuke Shimizu, Kenta Takagi, Shunya Takahashi, Morimitsu Tanimoto, JHEP 1904 (2019) 074, arXiv:1901.06146.
[Shimizu:2019edl]
[21-744]
A Two Higgs Doublet Model for Dark Matter and Neutrino Masses, Daniel A. Camargo, Miguel D. Campos, Tessio B. de Melo, Farinaldo S. Queiroz, Phys.Lett. B795 (2019) 319-326, arXiv:1901.05476.
[Camargo:2019ukv]
[21-745]
Lepton Flavor Violation and Neutrino Masses from $A_5$ and CP in the Non-Universal MSSM, M.L. Lopez-Ibanez, Aurora Melis, Davide Meloni, Oscar Vives, JHEP 1906 (2019) 047, arXiv:1901.04526.
[Lopez-Ibanez:2019rgb]
[21-746]
One loop correction to $Z\rightarrow \nu\nu$ in the Minimal R-symmetric Supersymmetric Standard Model, Ke-Sheng Sun, Jian-Bin Chen, Xiu-Yi Yang, Hai-Bin Zhang, Mod.Phys.Lett. A34 (2019) 1950058, arXiv:1901.03806.
[Sun:2019pfv]
[21-747]
Leptonic CP violation in flipped SU(5) GUT from $Z_{12-I}$ Orbifold Compactification, Junu Jeong, Jihn E. Kim, Soonkeon Nam, Phys.Lett. B791 (2019) 215-224, arXiv:1901.02295.
[Jeong:2019zlr]
[21-748]
Cosmology With a Very Light $L_\mu- L_\tau$ Gauge Boson, Miguel Escudero, Dan Hooper, Gordan Krnjaic, Mathias Pierre, JHEP 1903 (2019) 071, arXiv:1901.02010.
[Escudero:2019gzq]
[21-749]
Mono-Neutrino at DUNE: New Signals From Neutrinophilic Thermal Dark Matter, Kevin J. Kelly, Yue Zhang, Phys.Rev. D99 (2019) 055034, arXiv:1901.01259.
[Kelly:2019wow]
[21-750]
Trimaximal Neutrino Mixing from Modular A4 Invariance with Residual Symmetries, P.P. Novichkov, S.T. Petcov, M. Tanimoto, Phys.Lett.B 793 (2019) 247-258, arXiv:1812.11289.
[Novichkov:2018yse]
[21-751]
Singlet-doublet fermion and triplet scalar dark matter with radiative neutrino masses, Juri Fiaschi, Michael Klasen, Simon May, JHEP 2019 (2020) 015, arXiv:1812.11133.
[Fiaschi:2018rky]
[21-752]
One-loop Dirac neutrino mass and mixed axion/WIMP dark matter, Cristian D. R. Carvajal, Oscar Zapata, Phys.Rev. D99 (2019) 075009, arXiv:1812.06364.
[Carvajal:2018ohk]
[21-753]
Common origin of baryon asymmetry, dark matter and neutrino mass, Anirban Biswas, Sandhya Choubey, Laura Covi, Sarif Khan, JHEP 1905 (2019) 193, arXiv:1812.06122.
[Biswas:2018sib]
[21-754]
Relaxing LHC constraints on the $W_R$ mass, Mariana Frank, Ozer Ozdal, Poulose Poulose, Phys.Rev. D99 (2019) 035001, arXiv:1812.05681.
[Frank:2018ifw]
[21-755]
CP Symmetries as Guiding Posts: Revamping Tri-Bi-Maximal Mixing-I, Peng Chen, Salvador Centelles Chulia, Gui-Jun Ding, Rahul Srivastava, Jose W. F. Valle, JHEP 1903 (2019) 036, arXiv:1812.04663.
[Chen:2018zbq]
[21-756]
Master Majorana neutrino mass parametrization, Isabel Cordero-Carrion, Martin Hirsch, Avelino Vicente, Phys.Rev. D99 (2019) 075019, arXiv:1812.03896.
[Cordero-Carrion:2018xre]
[21-757]
Phenomenology of TeV-scale scalar Leptoquarks in the EFT, Shaouly Bar-Shalom, Jonathan Cohen, Amarjit Soni, Jose Wudka, Phys.Rev. D100 (2019) 055020, arXiv:1812.03178.
[Bar-Shalom:2018ure]
[21-758]
Gravitational Waves from a Pati-Salam Phase Transition, Djuna Croon, Tomas E. Gonzalo, Graham White, JHEP 1902 (2019) 083, arXiv:1812.02747.
[Croon:2018kqn]
[21-759]
Probing Neutrino Dirac Mass in Left-Right Symmetric Models at the LHC and Next Generation Colliders, Juan Carlos Helo, Haolin Li, Nicolas A. Neill, Michael Ramsey-Musolf, Juan Carlos Vasquez, Phys.Rev. D99 (2019) 055042, arXiv:1812.01630.
[Helo:2018rll]
[21-760]
Dark matter stability and Dirac neutrinos using only Standard Model symmetries, Cesar Bonilla, Salvador Centelles Chulia, Ricardo Cepedello, Eduardo Peinado, Rahul Srivastava, Phys.Rev. D101 (2020) 033011, arXiv:1812.01599.
[Bonilla:2018ynb]
[21-761]
Supersymmetric sphaleron configurations as the origin of the perplexing ANITA events, Luis A. Anchordoqui, Ignatios Antoniadis, Phys.Lett. B790 (2019) 578-582, arXiv:1812.01520.
[Anchordoqui:2018ssd]
[21-762]
A new parametrization of the Yukawa matrix in the scotogenic model, Teruyuki Kitabayashi, Int.J.Mod.Phys. A34 (2019) 1950098, arXiv:1812.01153.
[Kitabayashi:2019uzg]
[21-763]
A leptoquark resolution to flavor and ANITA anomalies, Bhavesh Chauhan, Subhendra Mohanty, Phys.Rev. D99 (2019) 095018, arXiv:1812.00919.
[Chauhan:2018lnq]
[21-764]
Consistent origin of neutrino mass and freeze-in dark matter in large N theories, Zhi-Long Han, Bin Zhu, Ligong Bian, Ran Ding, arXiv:1812.00637, 2018.
[Han:2018pek]
[21-765]
Constraints on $U(1)_{L_\mu-L_\tau}$ from LHC Data, Manuel Drees, Meng Shi, Zhongyi Zhang, Phys. Lett. B791 (2019) 130-136, arXiv:1811.12446.
[Drees:2018hhs]
[21-766]
Direct Detection Experiments at the Neutrino Dipole Portal Frontier, Ian M. Shoemaker, Jason Wyenberg, Phys. Rev. D99 (2019) 075010, arXiv:1811.12435.
[Shoemaker:2018vii]
[21-767]
LHC Constraints on a $B-L$ Gauge Model using Contur, S. Amrith, J. M. Butterworth, F. F. Deppisch, W. Liu, A. Varma, D. Yallup, JHEP 1905 (2019) 154, arXiv:1811.11452.
[Amrith:2018yfb]
[21-768]
Simple A4 models for dark matter stability with texture zeros, Leon M.G. de la Vega, R. Ferro-Hernandez, E. Peinado, Phys.Rev. D99 (2019) 055044, arXiv:1811.10619.
[DeLaVega:2018bkp]
[21-769]
2 Higgs Doublet Model Evolver - Manual, Joel Oredsson, Comput.Phys.Commun. 244 (2019) 409-426, arXiv:1811.08215.
[Oredsson:2018vio]
[21-770]
Minimal Gauged U(1)$_{L_\alpha- L_\beta}$ Models Driven into a Corner, Kento Asai, Koichi Hamaguchi, Natsumi Nagata, Shih-Yen Tseng, Koji Tsumura, Phys.Rev. D99 (2019) 055029, arXiv:1811.07571.
[Asai:2018ocx]
[21-771]
A Theory of $R(D^*,D)$ Anomaly With Right-Handed Currents, K.S. Babu, Bhaskar Dutta, Rabindra N. Mohapatra, JHEP 1901 (2019) 168, arXiv:1811.04496.
[Babu:2018vrl]
[21-772]
Searching for Flavored Gauge Bosons, Eung Jin Chun, Arindam Das, Jinsu Kim, Jongkuk Kim, JHEP 1902 (2019) 093, arXiv:1811.04320.
[Chun:2018ibr]
[21-773]
Neutrino predictions from a left-right symmetric flavored extension of the standard model, A. E. Carcamo Hernandez, Sergey Kovalenko, Jose W. F. Valle, C.A. Vaquera-Araujo, JHEP 1902 (2019) 065, arXiv:1811.03018.
[CarcamoHernandez:2018hst]
[21-774]
Confronting SUSY SO(10) with updated Lattice and Neutrino Data, Thomas Deppisch, Stefan Schacht, Martin Spinrath, JHEP 1901 (2019) 005, arXiv:1811.02895.
[Deppisch:2018flu]
[21-775]
Time-varying neutrino mass from a supercooled phase transition: current cosmological constraints and impact on the $\boldsymbol{\Omega_m}$-$\boldsymbol{\sigma_8}$ plane, Christiane S. Lorenz, Lena Funcke, Erminia Calabrese, Steen Hannestad, Phys.Rev. D99 (2019) 023501, arXiv:1811.01991.
[Lorenz:2018fzb]
[21-776]
Dark matter and LHC phenomenology of a scale invariant scotogenic model, Chao Guo, Shu-Yuan Guo, Yi Liao, Chin.Phys. C43 (2019) 103102, arXiv:1811.01180.
[Guo:2018iix]
[21-777]
Like-sign dileptons with mirror type composite neutrinos at the HL-LHC, Matteo Presilla, Roberto Leonardi, Orlando Panella, arXiv:1811.00374, 2018.
[Presilla:2018ryu]
[21-778]
Neutrinoless Double Beta Decay with Non-standard Majoron Emission, Ricardo Cepedello, Frank F. Deppisch, Lorena Gonzalez, Martin Hirsch, Phys.Rev.Lett. 122 (2019) 181801, arXiv:1811.00031.
[Cepedello:2018zvr]
[21-779]
Right-handed Neutrino Dark Matter with Radiative Neutrino Mass in Gauged $B-L$ Model, Debasish Borah, Dibyendu Nanda, Nimmala Narendra, Narendra Sahu, Nucl.Phys. B950 (2020) 114841, arXiv:1810.12920.
[Borah:2018smz]
[21-780]
The $R$-parity Violating Decays of Charginos and Neutralinos in the B-L MSSM, Sebastian Dumitru, Burt A. Ovrut, Austin Purves, JHEP 1902 (2019) 124, arXiv:1810.11035.
[Dumitru:2018jyb]
[21-781]
Neutrino phenomenology in flavored NMSSM bypassing domain walls, R. Ahl Laamara, M. A. Loualidi, M. A. Ouahid, E. H. Saidi, Phys.Rev. D102 (2020) 115023, arXiv:1810.10753.
[Ouahid:2018gpg]
[21-782]
Phenomenological consequences of introducing new fermions with exotic charges to $R(K^{(*)})$, muon (g-2), primordial Lithium problem and DM, Lobsang Dhargyal, arXiv:1810.10611, 2018.
[Dhargyal:2018ppo]
[21-783]
A Heavy Metal Path to New Physics, Marco Drewes, Andrea Giammanco, Jan Hajer, Michele Lucente, Olivier Mattelaer, PoS DIS2019 (2019) 090, arXiv:1810.09400.
[Drewes:2018xma]
[21-784]
R-parity Violating Supersymmetric Explanation of the Anomalous Events at ANITA, Jack H. Collins, P. S. Bhupal Dev, Yicong Sui, Phys.Rev. D99 (2019) 043009, arXiv:1810.08479.
[Collins:2018jpg]
[21-785]
Impact of RGE-induced $ \mu-\tau$ Reflection Symmetry Breaking on the Effective Majorana Neutrino Mass in $ 0\nu\beta\beta$ Decay, Newton Nath, Phys.Rev. D99 (2019) 035026, arXiv:1810.07938.
[Nath:2018zoi]
[21-786]
Exploring vector-like supersymmetric extensions of the Standard Model with dark matter and colliders, Jack Y. Araz, Shankha Banerjee, Mariana Frank, Benjamin Fuks, Andreas Goudelis, Phys.Rev. D98 (2018) 115009, arXiv:1810.07224.
[Araz:2018uyi]
[21-787]
Comment on 'keV Neutrino Dark Matter in a Fast Expanding Universe' by Biswas et al, Nicolas Fernandez, Stefano Profumo, Phys.Lett. B789 (2019) 603-604, arXiv:1810.06795.
[Fernandez:2018tfa]
[21-788]
Compatibility of $A_{4}$ Flavour Symmetric Minimal Extended Seesaw with $(3+1)$ Neutrino Data, Neelakshi Sarma, Kalpana Bora, Debasish Borah, Eur.Phys.J. C79 (2019) 129, arXiv:1810.05826.
[Sarma:2018bgf]
[21-789]
Constraining $A_4$ Leptonic Flavour Model Parameters at Colliders and Beyond, Lukas Heinrich, Holger Schulz, Jessica Turner, Ye-Ling Zhou, JHEP 1904 (2019) 144, arXiv:1810.05648.
[Heinrich:2018nip]
[21-790]
Phenomenological implications of the Friedberg-Lee transformation in a neutrino mass model with $\mu\tau$-flavored CP symmetry, Roopam Sinha, Sukannya Bhattacharya, Rome Samanta, JHEP 1903 (2019) 081, arXiv:1810.05391.
[Sinha:2018uop]
[21-791]
Phenomenology of two texture zero neutrino mass in left-right symmetric model with $Z_8 \times Z_2$, Happy Borgohain, Mrinal Kumar Das, JHEP 1902 (2019) 129, arXiv:1810.04889.
[Borgohain:2018lro]
[21-792]
The Standard Model with Diracian neutrino sector, T. M. Nieuwenhuizen, Symmetry 11 (2019) 994, arXiv:1810.04613.
[Nieuwenhuizen:2018vzf]
[21-793]
Interactions of Ultrahigh Energy Neutrinos with Dark Matter: A model building perspective, Sujata Pandey, Siddhartha Karmakar, Subhendu Rakshit, JHEP 1901 (2019) 095, arXiv:1810.04203.
[Pandey:2018wvh]
[21-794]
Thermally modified sterile neutrino portal dark matter and gravitational waves from phase transition: The Freeze-in case, Ligong Bian, Yi-Lei Tang, JHEP 1812 (2018) 006, arXiv:1810.03172.
[Bian:2018mkl]
[21-795]
Lepton Flavor Violation in a $Z^\prime$ model for the $b \to s$ anomalies, Paulina Rocha-Moran, Avelino Vicente, Phys.Rev. D99 (2019) 035016, arXiv:1810.02135.
[Rocha-Moran:2018jzu]
[21-796]
Neutrinoless double beta decay in a minimal left-right symmetric model with gauge coupling unification, Chayan Majumdar, Sudhanwa Patra, Supriya Senapati, Urjit A. Yajnik, Nucl.Phys. B951 (2020) 114875, arXiv:1809.10577.
[Majumdar:2018eqz]
[21-797]
CP transformed mixed $\mu\tau$ antisymmetry for neutrinos and its consequences, Roopam Sinha, Probir Roy, Ambar Ghosal, Phys.Rev. D99 (2019) 033009, arXiv:1809.06615.
[Sinha:2018xof]
[21-798]
Affleck-Dine baryogenesis in the SUSY DFSZ axion model without R-parity, Kensuke Akita, Hajime Otsuka, Phys.Rev. D99 (2019) 055035, arXiv:1809.04361.
[Akita:2018zma]
[21-799]
keV Neutrino Dark Matter in a Fast Expanding Universe, Anirban Biswas, Debasish Borah, Dibyendu Nanda, Phys.Lett. B786 (2018) 364-372, arXiv:1809.03519.
[Biswas:2018iny]
[21-800]
Exploring dark matter, neutrino mass and $R_{K^{(*)},\phi}$ anomalies in $L_{\mu}-L_{\tau}$ model, Shivaramakrishna Singirala, Suchismita Sahoo, Rukmani Mohanta, Phys.Rev. D99 (2019) 035042, arXiv:1809.03213.
[Singirala:2018mio]
[21-801]
Neutrinophilic Axion-Like Dark Matter, Guo-yuan Huang, Newton Nath, Eur.Phys.J. C78 (2018) 922, arXiv:1809.01111.
[Huang:2018cwo]
[21-802]
Charged lepton flavor violation and electric dipole moments in the inert Zee model, Alexandra Gaviria, Robinson Longas, Oscar Zapata, JHEP 1810 (2018) 188, arXiv:1809.00655.
[Gaviria:2018cwb]
[21-803]
Parameter space of baryogenesis in the $\nu$MSM, Shintaro Eijima, Mikhail Shaposhnikov, Inar Timiryasov, JHEP 07 (2019) 077, arXiv:1808.10833.
[Eijima:2018qke]
[21-804]
Neutrino phenomenology of a high scale supersymmetry model, Ying-Ke Lei, Chun Liu, Commun.Theor.Phys. 71 (2019) 287, arXiv:1808.10599.
[Lei:2018lln]
[21-805]
Predicting $\delta^\text{PMNS}$, $\theta_{23}^\text{PMNS}$ and fermion mass ratios from flavour GUTs with CSD2, Stefan Antusch, Christian Hohl, Charanjit K. Khosa, Vasja Susic, JHEP 1812 (2018) 025, arXiv:1808.09364.
[Antusch:2018gnu]
[21-806]
Lepton masses and mixing in a two-Higgs-doublet model, Piotr Chaber et al., Phys.Rev. D98 (2018) 055007, arXiv:1808.08384.
[Chaber:2018cbi]
[21-807]
Alternative Perspective on Gauged Lepton Number and Implications for Collider Physics, We-Fu Chang, John N. Ng, Phys.Rev. D99 (2019) 075025, arXiv:1808.08188.
[Chang:2018nid]
[21-808]
Sterile Neutrinos with Altered Dispersion Relations as an Explanation for the MiniBooNE, LSND, Gallium and Reactor Anomalies, Dominik Doring, Heinrich Pas, Philipp Sicking, Thomas J. Weiler, Eur.Phys.J. C80 (2020) 1202, arXiv:1808.07460.
[Doring:2018cob]
[21-809]
A further study on the textures of neutrino mass matrix for maximal atmospheric mixing angle and leptonic CP violation, Zhi-Cheng Liu, Chong-Xing Yue, Zhen-hua Zhao, Phys.Rev. D99 (2019) 075034, arXiv:1808.06837.
[Liu:2018cka]
[21-810]
Search for an exotic-leptonic solution to observed anomalies in lepton universality observables in B decays and more, Lobsang Dhargyal, arXiv:1808.06499, 2018.
[Dhargyal:2018inm]
[21-811]
Processes that break baryon number by two units and the Majorana nature of the neutrino, Susan Gardner, Xinshuai Yan, Phys.Lett. B790 (2019) 421-426, arXiv:1808.05288.
[Gardner:2018azu]
[21-812]
Goldstone Boson Emission From Nucleon Cooper Pairing in Neutron Stars and Constraints on the Higgs Portal Models, Huitzu Tu, arXiv:1808.04806, 2018.
[Tu:2018ubw]
[21-813]
Two-component dark matter and a massless neutrino in a new B-L model, Nicolas Bernal, Diego Restrepo, Carlos Yaguna, Oscar Zapata, Phys.Rev. D99 (2019) 015038, arXiv:1808.03352.
[Bernal:2018aon]
[21-814]
U(1)' mediated decays of heavy sterile neutrinos in MiniBooNE, Peter Ballett, Silvia Pascoli, Mark Ross-Lonergan, Phys.Rev. D99 (2019) 071701, arXiv:1808.02915.
[Ballett:2018ynz]
[21-815]
Neutrino scattering and B anomalies from hidden sector portals, Alakabha Datta, Bhaskar Dutta, Shu Liao, Danny Marfatia, Louis E. Strigari, JHEP 1901 (2019) 091, arXiv:1808.02611.
[Datta:2018xty]
[21-816]
Muon conversion to electron in nuclei within the BLMSSM, Tao Guo, Shu-Min Zhao, Xing-Xing Dong, Chun-Gui Duan, Tai-Fu Feng, Eur.Phys.J. C78 (2018) 925, arXiv:1808.02597.
[Guo:2018qhv]
[21-817]
Neutrino Masses and Mixings Dynamically Generated by a Light Dark Sector, Enrico Bertuzzo, Sudip Jana, Pedro A. N. Machado, Renata Zukanovich Funchal, Phys.Lett. B791 (2019) 210-214, arXiv:1808.02500.
[Bertuzzo:2018ftf]
[21-818]
Neutrinophilic Dark Matter in the epoch of IceCube and Fermi-LAT, Marco Chianese, Gennaro Miele, Stefano Morisi, Eduardo Peinado, JCAP 1812 (2018) 016, arXiv:1808.02486.
[Chianese:2018ijk]
[21-819]
Distinctive Collider Signals for a Two Higgs Triplet Model, Dilip Kumar Ghosh, Nivedita Ghosh, Biswarup Mukhopadhyaya, Phys.Rev. D99 (2019) 015036, arXiv:1808.01775.
[KumarGhosh:2018bli]
[21-820]
Scotogenic dark matter and one zero flavor neutrino mass textures, Teruyuki Kitabayashi, Phys.Rev. D98 (2018) 083011, arXiv:1808.01060.
[Kitabayashi:2018bye]
[21-821]
Thermal production of light Dirac right-handed sneutrino dark matter, Ki-Young Choi, Jongkuk Kim, Osamu Seto, Phys.Dark Univ. 22 (2018) 96-100, arXiv:1808.00764.
[Choi:2018vdi]
[21-822]
Minimally Extended Left-Right Symmetric Model for Dark Matter with U(1) Portal, M. J. Neves, J. A. Helayel-Neto, Rabindra N. Mohapatra, Nobuchika Okada, JHEP 1812 (2018) 009, arXiv:1808.00484.
[Neves:2018dji]
[21-823]
Global fits in the Georgi-Machacek model, Cheng-Wei Chiang, Giovanna Cottin, Otto Eberhardt, Phys.Rev. D99 (2019) 015001, arXiv:1807.10660.
[Chiang:2018cgb]
[21-824]
On the textures of neutrino mass matrix for maximal atmospheric mixing angle and leptonic CP violation, Zhi-Cheng Liu, Chong-Xing Yue, Zhen-hua Zhao, JHEP 1810 (2018) 106, arXiv:1807.10031.
[Liu:2018hwg]
[21-825]
A Dark Neutrino Portal to Explain MiniBooNE, Enrico Bertuzzo, Sudip Jana, Pedro A. N. Machado, Renata Zukanovich Funchal, Phys.Rev.Lett. 121 (2018) 241801, arXiv:1807.09877.
[Bertuzzo:2018itn]
[21-826]
Revisiting Flavor and CP Violation in Supersymmetric SU(5) with Right-Handed Neutrinos, Jason L. Evans, Kenji Kadota, Takumi Kuwahara, Phys.Rev. D98 (2018) 075030, arXiv:1807.08234.
[Evans:2018ewb]
[21-827]
Charged scalars confronting neutrino mass and muon g-2 anomaly, Nabarun Chakrabarty, Cheng-Wei Chiang, Takahiro Ohata, Koji Tsumura, JHEP 1812 (2018) 104, arXiv:1807.08167.
[Chakrabarty:2018qtt]
[21-828]
Sterile Neutrinos in String Derived Models, Alon E. Faraggi, Eur.Phys.J. C78 (2018) 867, arXiv:1807.08031.
[Faraggi:2018pit]
[21-829]
A same-sign trilepton signal for stop quark in presence of sneutrino Dark Matter, Dilip Kumar Ghosh, Katri Huitu, Subhadeep Mondal, Manimala Mitra, Phys.Rev. D99 (2019) 075014, arXiv:1807.07385.
[Ghosh:2018sjz]
[21-830]
Investigating the sterile neutrino parameters with QLC in 3 + 1 scenario, Gazal Sharma, B. C. Chauhan, Adv.High Energy Phys. 2019 (2019) 4685198, arXiv:1807.05785.
[Sharma:2018fkr]
[21-831]
A model of strongly coupled heavy vector resonances for fermion masses and mixings, A. E. Carcamo Hernandez, Jonatan Vignatti, Alfonso Zerwekh, J.Phys. G46 (2019) 115007, arXiv:1807.05321.
[CarcamoHernandez:2018vdj]
[21-832]
Scrutinizing Right-Handed Neutrino Portal Dark Matter With Yukawa Effect, Priyotosh Bandyopadhyay, Eung Jin Chun, Rusa Mandal, Farinaldo S. Queiroz, Phys.Lett. B788 (2019) 530-534, arXiv:1807.05122.
[Bandyopadhyay:2018qcv]
[21-833]
Right sneutrino with $\Delta\,L\,=\,2$ masses as non-thermal dark matter, Avirup Ghosh, Tanmoy Mondal, Biswarup Mukhopadhyaya, Phys.Rev. D99 (2019) 035018, arXiv:1807.04964.
[Ghosh:2018hly]
[21-834]
A Thermal Neutrino Portal to Sub-MeV Dark Matter, Asher Berlin, Nikita Blinov, Phys.Rev. D99 (2019) 095030, arXiv:1807.04282.
[Berlin:2018ztp]
[21-835]
Neutrino Mass, Baryon Asymmetry, and Asymmetric Dark Matter from Dark Symmetry $SU(2)_D\otimes U(1)_{D'}$ Breaking, Wei-Min Yang, Nucl.Phys. B (2019) 114643, arXiv:1807.03036.
[Yang:2018zrj]
[21-836]
Flavored Non-Minimal Left-Right Symmetric Model Fermion Masses and Mixings, A. E. Garces, Juan Carlos Gomez-Izquierdo, F. Gonzalez-Canales, Eur.Phys.J. C78 (2018) 812, arXiv:1807.02727.
[Garces:2018nar]
[21-837]
Modular Invariance Faces Precision Neutrino Data, Juan Carlos Criado, Ferruccio Feruglio, SciPost Phys. 5 (2018) 042, arXiv:1807.01125.
[Criado:2018thu]
[21-838]
Spontaneous Breaking of Lepton Number and Cosmological Domain Wall Problem, George Lazarides, Mario Reig, Qaisar Shafi, Rahul Srivastava, Jose W. F. Valle, Phys.Rev.Lett. 122 (2019) 151301, arXiv:1806.11198.
[Lazarides:2018aev]
[21-839]
Reconciling $B$-decay anomalies with neutrino masses, dark matter and constraints from flavour violation, Chandan Hati, Girish Kumar, J. Orloff, A.M. Teixeira, JHEP 1811 (2018) 011, arXiv:1806.10146.
[Hati:2018fzc]
[21-840]
Bound-state dark matter with Majorana neutrinos, M. Reig, D. Restrepo, J. W. F. Valle, O. Zapata, Phys.Lett. B790 (2019) 303-307, arXiv:1806.09977.
[Reig:2018ztc]
[21-841]
Dark Matter from Freeze-In via the Neutrino Portal, Mathias Becker, Eur.Phys.J. C79 (2019) 611, arXiv:1806.08579.
[Becker:2018rve]
[21-842]
Scalar Dark Matter, GUT baryogenesis and Radiative neutrino mass, Wei-Chih Huang, Heinrich Pas, Sinan Zeissner, Phys.Rev. D98 (2018) 075024, arXiv:1806.08204.
[Huang:2018vcr]
[21-843]
Fitting flavour symmetries: the case of two-zero neutrino mass textures, Julien Alcaide, Jordi Salvado, Arcadi Santamaria, JHEP 1807 (2018) 164, arXiv:1806.06785.
[Alcaide:2018vni]
[21-844]
A Systematic Analysis of Perturbations for Hexagonal Mixing Matrix, Sumit K. Garg, Int.J.Mod.Phys. A34 (2019) 1950005, arXiv:1806.06658.
[Garg:2018rfz]
[21-845]
Correlation of normal neutrino mass ordering with upper octant of $\theta^{}_{23}$ and third quadrant of $\delta$ via spontaneous $\mu$-$\tau$ symmetry breaking, Guo-yuan Huang, Zhi-zhong Xing, Jing-yu Zhu, Chin.Phys. C42 (2018) 123108, arXiv:1806.06640.
[Huang:2018wqp]
[21-846]
Realistic Tri-Bi-Maximal neutrino mixing, Peng Chen, Salvador Centelles Chulia, Gui-Jun Ding, Rahul Srivastava, Jose W. F. Valle, Phys.Rev. D98 (2018) 055019, arXiv:1806.03367.
[Chen:2018eou]
[21-847]
The Dispirited Case of Gauged $U(1)_{B-L}$ Dark Matter, Miguel Escudero, Samuel J. Witte, Nuria Rius, JHEP 1808 (2018) 190, arXiv:1806.02823.
[Escudero:2018fwn]
[21-848]
When Freeze-out Precedes Freeze-in: Sub-TeV Fermion Triplet Dark Matter with Radiative Neutrino Mass, Anirban Biswas, Debasish Borah, Dibyendu Nanda, JCAP 1809 (2018) 014, arXiv:1806.01876.
[Biswas:2018ybc]
[21-849]
Multipartite Dark Matter in $SU(2)_N$ extension of Standard Model and signatures at the LHC, Basabendu Barman, Subhaditya Bhattacharya, Mohammadreza Zakeri, JCAP 1809 (2018) 023, arXiv:1806.01129.
[Barman:2018esi]
[21-850]
Common Origin of Dirac Neutrino Mass and Freeze-in Massive Particle Dark Matter, Debasish Borah, Biswajit Karmakar, Dibyendu Nanda, JCAP 1807 (2018) 039, arXiv:1805.11115.
[Borah:2018gjk]
[21-851]
Resurrecting Minimal Yukawa Sector of SUSY SO(10), K.S. Babu, Borut Bajc, Shaikh Saad, JHEP 1810 (2018) 135, arXiv:1805.10631.
[Babu:2018tfi]
[21-852]
Study of Gauged Lepton Symmetry Signatures at Colliders, We-Fu Chang, John N. Ng, Phys.Rev. D98 (2018) 035015, arXiv:1805.10382.
[Chang:2018vdd]
[21-853]
Model independent constraints on general $\mu\tau$ mixing from recent results on $\theta_{23}$ and $\delta$, Rome Samanta, Roopam Sinha, Ambar Ghosal, JHEP 1910 (2019) 057, arXiv:1805.10031.
[Samanta:2018efa]
[21-854]
Neutrino and Collider Implications of a Left-Right Extended Zee Model, Sarif Khan, Manimala Mitra, Ayon Patra, Phys.Rev. D98 (2018) 115038, arXiv:1805.09844.
[Khan:2018jge]
[21-855]
Active and sterile neutrino phenomenology with $A_4$ based minimal extended seesaw, Pritam Das, Ananya Mukherjee, Mrinal Kumar Das, Nucl.Phys. B941 (2019) 755-779, arXiv:1805.09231.
[Das:2018qyt]
[21-856]
Resonant production of $Z^{\prime}$ and signature of right-handed neutrinos within a 3-3-1 model, F. F. Freitas, C. A. de S. Pires, P. Vasconcelos, Phys.Rev. D98 (2018) 035005, arXiv:1805.09082.
[Freitas:2018vnt]
[21-857]
Collider Bounds on 2-Higgs Doublet Models with $U(1)_X$ Gauge Symmetries, Daniel A. Camargo, Luigi Delle Rose, Stefano Moretti, Farinaldo S. Queiroz, Phys.Lett. B793 (2019) 150-160, arXiv:1805.08231.
[Camargo:2018klg]
[21-858]
Consequences of $ \mu-\tau$ Reflection Symmetry at DUNE, Newton Nath, Phys.Rev. D98 (2018) 075015, arXiv:1805.05823.
[Nath:2018xkz]
[21-859]
Leptonic $CP$ Violation and Proton Decay in SUSY SO(10), Rabindra N. Mohapatra, Matt Severson, JHEP 1809 (2018) 119, arXiv:1805.05776.
[Mohapatra:2018biy]
[21-860]
Supersymmetric Gauged U(1)$_{L_{\mu}-L_{\tau}}$ Model for Neutrinos and Muon (g-2) Anomaly, Heerak Banerjee, Pritibhajan Byakti, Sourov Roy, Phys.Rev. D98 (2018) 075022, arXiv:1805.04415.
[Banerjee:2018eaf]
[21-861]
Leptonic Dark Matter with Scalar Dilepton Mediator, Ernest Ma, Mod.Phys.Lett. A33 (2018) 1850226, arXiv:1805.03295.
[Ma:2018pft]
[21-862]
$Z'$ Portal Dark Matter in $B-L$ Scotogenic Dirac Model, Zhi-Long Han, Weijian Wang, Eur.Phys.J. C78 (2018) 839, arXiv:1805.02025.
[Han:2018zcn]
[21-863]
Revisiting $A_4$ model for leptons in light of NuFIT 3.2, Sin Kyu Kang, Yusuke Shimizu, Kenta Takagi, Shunya Takahashi, Morimitsu Tanimoto, PTEP 2018 (2018) 083B01, arXiv:1804.10468.
[Kang:2018txu]
[21-864]
Flavor physics in the multi-Higgs doublet models induced by the left-right symmetry, Syuhei Iguro, Yu Muramatsu, Yuji Omura, Yoshihiro Shigekami, JHEP 1811 (2018) 046, arXiv:1804.07478.
[Iguro:2018oou]
[21-865]
Unparticle Decay of Neutrinos and its Possible Signatures at a ${\rm Km}^2$ Detector for (3+1) Flavour Framework, Madhurima Pandey, JHEP 1901 (2019) 066, arXiv:1804.07241.
[Pandey:2018sul]
[21-866]
Non-Standard Neutrino Interactions in Modified $\nu$2HDM, Ujjal Kumar Dey, Newton Nath, Soumya Sadhukhan, Phys.Rev. D98 (2018) 055004, arXiv:1804.05808.
[Dey:2018yht]
[21-867]
$R(D^{(*)})$ from $W'$ and right-handed neutrinos, Admir Greljo, Dean J. Robinson, Bibhushan Shakya, Jure Zupan, JHEP 1809 (2018) 169, arXiv:1804.04642.
[Greljo:2018ogz]
[21-868]
The mass ratios parametrization, Ulises J. Saldana-Salazar, Karla M. Tame-Narvaez, Int.J.Mod.Phys. A34 (2019) 1950007, arXiv:1804.04578.
[Saldana-Salazar:2018jes]
[21-869]
The $\lambda$ mechanism of the $0\nu\beta\beta$-decay, Fedor Simkovic, Dusan Stefanik, Rastislav Dvornicky, Amand Faessler, Fron.in Phys. 5 (2017) 57, arXiv:1804.04223.
[Simkovic:2017uvu]
[21-870]
It's all right(-handed neutrinos): a new $W'$ model for the $R_{D^{(*)}}$ anomaly, Pouya Asadi, Matthew R. Buckley, David Shih, JHEP 1809 (2018) 010, arXiv:1804.04135.
[Asadi:2018wea]
[21-871]
Phenomenology of the Generalised Scotogenic Model with Fermionic Dark Matter, Claudia Hagedorn, Juan Herrero-Garcia, Emiliano Molinaro, Michael A. Schmidt, JHEP 1811 (2018) 103, arXiv:1804.04117.
[Hagedorn:2018spx]
[21-872]
Long-lived Heavy Neutrinos from Higgs Decays, Frank F. Deppisch, Wei Liu, Manimala Mitra, JHEP 1808 (2018) 181, arXiv:1804.04075.
[Deppisch:2018eth]
[21-873]
A singlet doublet dark matter model with radiative neutrino masses, S. Esch, M. Klasen, C. Yaguna, JHEP 1810 (2018) 055, arXiv:1804.03384.
[Esch:2018ccs]
[21-874]
Bound on a diffuse flux of ultra-high energy neutrinos in the ADD model, M.O. Astashenkov, A.V. Kisselev, Phys.Rev. D98 (2018) 123009, arXiv:1804.02351.
[Astashenkov:2018gdm]
[21-875]
Partial $\mu$-$\tau$ Reflection Symmetry and Its Verification at DUNE and Hyper-Kamiokande, Kaustav Chakraborty, K.N. Deepthi, Srubabati Goswami, Anjan S. Joshipura, Newton Nath, Phys.Rev. D98 (2018) 075031, arXiv:1804.02022.
[Chakraborty:2018dew]
[21-876]
Neutrino Mass, Coupling Unification, Verifiable Proton Decay, Vacuum Stability and WIMP Dark Matter in SU(5), Biswonath Sahoo, Mainak Chakraborty, M.K. Parida, Adv.High Energy Phys. 2018 (2018) 4078657, arXiv:1804.01803.
[Sahoo:2018wdt]
[21-877]
Texture One Zero Dirac Neutrino Mass Matrix With Vanishing Determinant or Trace Condition, Madan Singh, Nucl.Phys. B931 (2018) 446-468, arXiv:1804.00842.
[Singh:2018lao]
[21-878]
Assessing the Viability of $A_4$, $S_4$ and $A_5$ Flavour Symmetries for Description of Neutrino Mixing, S. T. Petcov, A. V. Titov, Phys.Rev. D97 (2018) 115045, arXiv:1804.00182.
[Petcov:2018snn]
[21-879]
Upgoing ANITA events as evidence of the CPT symmetric universe, Luis A. Anchordoqui, Vernon Barger, John G. Learned, Danny Marfatia, Thomas J. Weiler, LHEP 1 (2018) 13-16, arXiv:1803.11554.
[Anchordoqui:2018ucj]
[21-880]
Probing TeV scale origin of neutrino mass at lepton colliders, P. S. Bhupal Dev, Rabindra N. Mohapatra, Yongchao Zhang, Phys.Rev. D98 (2018) 075028, arXiv:1803.11167.
[BhupalDev:2018vpr]
[21-881]
Searching for the minimal Seesaw models at the LHC and beyond, Arindam Das, Adv.High Energy Phys. 2018 (2018) 9785318, arXiv:1803.10940.
[Das:2018hph]
[21-882]
Investigating the hybrid textures of neutrino mass matrix for near maximal atmospheric neutrino mixing, Madan Singh, Adv.High Energy Phys. 2018 (2018) 5806743, arXiv:1803.10754.
[Singh:2018bap]
[21-883]
The Texture One Zero Neutrino Mass Matrix With Vanishing Trace, Madan Singh, Adv.High Energy Phys. 2018 (2018) 2863184, arXiv:1803.10735.
[Singh:2018tqu]
[21-884]
New possibilities of hybrid texture of neutrino mass matrix, Madan Singh, Adv.High Energy Phys. 2018 (2018) 1056472, arXiv:1803.10605.
[Singh:2018gvw]
[21-885]
Seeking leptoquarks in IceCube, Damir Becirevic, Boris Panes, Olcyr Sumensari, Renata Zukanovich Funchal, JHEP 1806 (2018) 032, arXiv:1803.10112.
[Becirevic:2018uab]
[21-886]
Bound-state dark matter and Dirac neutrino mass, M. Reig, D. Restrepo, J. W. F. Valle, O. Zapata, Phys.Rev. D97 (2018) 115032, arXiv:1803.08528.
[Reig:2018mdk]
[21-887]
A reappraisal of constraints on $Z'$ models from unitarity and direct searches at the LHC, Triparno Bandyopadhyay, Gautam Bhattacharyya, Dipankar Das, Amitava Raychaudhuri, Phys.Rev. D98 (2018) 035027, arXiv:1803.07989.
[Bandyopadhyay:2018cwu]
[21-888]
Muon anomalies and the $SU(5)$ Yukawa relations, A. E. Carcamo Hernandez, Stephen F. King, Phys.Rev. D99 (2019) 095003, arXiv:1803.07367.
[CarcamoHernandez:2018aon]
[21-889]
Modifications to the neutrino mixing given by the mu-tau reflection symmetry, Zhen-hua Zhao, Nucl.Phys. B935 (2018) 129-143, arXiv:1803.04603.
[Zhao:2018vxy]
[21-890]
Flavourful $Z'$ portal for vector-like neutrino Dark Matter and $R_{K^{(*)}}$, Adam Falkowski, Stephen F. King, Elena Perdomo, Mathias Pierre, JHEP 1808 (2018) 061, arXiv:1803.04430.
[Falkowski:2018dsl]
[21-891]
Precision neutrino data confronts $\mu\leftrightarrow\tau$ symmetry, Rambabu Korrapati, S. Uma Sankar, arXiv:1803.04143, 2018.
[Korrapati:2018oje]
[21-892]
Dipole portal to heavy neutral leptons, Gabriel Magill, Ryan Plestid, Maxim Pospelov, Yu-Dai Tsai, Phys.Rev. D98 (2018) 115015, arXiv:1803.03262.
[Magill:2018jla]
[21-893]
A new solar neutrino channel for grand-unification monopole searches, Nick Houston, Tianjun Li, Chen Sun, JCAP 1810 (2018) 034, arXiv:1803.02835.
[Houston:2018rvz]
[21-894]
Light scalar dark matter at neutrino oscillation experiments, Jiajun Liao, Danny Marfatia, Kerry Whisnant, JHEP 1804 (2018) 136, arXiv:1803.01773.
[Liao:2018byh]
[21-895]
Coherent Elastic Neutrino Nucleus Scattering (CE$\nu$NS) as a probe of $Z'$ through kinetic and mass mixing effects, Mohammad Abdullah et al., Phys.Rev. D98 (2018) 015005, arXiv:1803.01224.
[Abdullah:2018ykz]
[21-896]
Neutrino-Electron Scattering: General Constraints on Z' and Dark Photon Models, Manfred Lindner, Farinaldo S. Queiroz, Werner Rodejohann, Xun-Jie Xu, JHEP 1805 (2018) 098, arXiv:1803.00060.
[Lindner:2018kjo]
[21-897]
Galactic Dark Matter Population as the Source of Neutrino Masses, Hooman Davoudiasl, Gopolang Mohlabeng, Matthew Sullivan, Phys.Rev. D98 (2018) 021301, arXiv:1803.00012.
[Davoudiasl:2018hjw]
[21-898]
Investigation of Dark Matter in the 3-2-3-1 Model, D. T. Huong, P. V. Dong, N. T. Duy, N. T. Nhuan, L. D. Thien, Phys.Rev.D 98 (2018) 055033, arXiv:1802.10402.
[Huong:2018ytz]
[21-899]
Stability of neutrino parameters and self-complementarity relation with varying SUSY breaking scale, Konsam Sashikanta Singh, Subhankar Roy, Ngangkham Nimai Singh, Phys.Rev. D97 (2018) 055038, arXiv:1802.09784.
[Singh:2018cxy]
[21-900]
Explanation of IceCube spectrum with $\nu\rightarrow 3 \nu$ neutrino splitting in a $\nu$2HDM model, Soumya Sadhukhan, Subhendra Mohanty, JHEP 1810 (2018) 111, arXiv:1802.09498.
[Mohanty:2018iop]
[21-901]
Phenomenology of the Higgs sector of a Dimension-7 Neutrino Mass Generation Mechanism, Tathagata Ghosh, Sudip Jana, S. Nandi, Phys.Rev. D97 (2018) 115037, arXiv:1802.09251.
[Ghosh:2018drw]
[21-902]
Scalar dark matter search from the extended $\nu$THDM, Seungwon Baek, Arindam Das, Takaaki Nomura, JHEP 1805 (2018) 205, arXiv:1802.08615.
[Baek:2018wuo]
[21-903]
Future DUNE constraints on EFT, Adam Falkowski, Giovanni Grilli di Cortona, Zahra Tabrizi, JHEP 1804 (2018) 101, arXiv:1802.08296.
[Falkowski:2018dmy]
[21-904]
Gamma rays from Dark Matter Annihilation in Three-loop Radiative Neutrino Mass Generation Models, Talal Ahmed Chowdhury, Salah Nasri, Phys.Lett. B782 (2018) 215-223, arXiv:1802.05971.
[Chowdhury:2018mrr]
[21-905]
Neutrino Mass and Dark Matter in Light of the Fermi-LAT and IceCube Observations, Ran Ding, Zhi-Long Han, Li Huang, Yi Liao, Chin.Phys. C42 (2018) 103101, arXiv:1802.05248.
[Ding:2018jdk]
[21-906]
Neutrino Predictions from Generalized CP Symmetries of Charged Leptons, Peng Chen, Salvador Centelles Chulia, Gui-Jun Ding, Rahul Srivastava, Jose W. F. Valle, JHEP 1807 (2018) 077, arXiv:1802.04275.
[Chen:2018lsv]
[21-907]
Third Family Quark-Lepton Unification at the TeV Scale, Admir Greljo, Ben A. Stefanek, Phys.Lett. B782 (2018) 131-138, arXiv:1802.04274.
[Greljo:2018tuh]
[21-908]
A new mechanism of sterile neutrino dark matter production, Johannes Herms, Alejandro Ibarra, Takashi Toma, JCAP 1806 (2018) 036, arXiv:1802.02973.
[Herms:2018ajr]
[21-909]
Dirac neutrino mixings from hidden $\mu-\tau$ symmetry, Edgar R. Luna Terrazas, Abdel Perez-Lorenzana, Phys.Lett. B785 (2018) 51-58, arXiv:1802.02249.
[LunaTerrazas:2018xud]
[21-910]
Status of the semileptonic $B$ decays and muon g-2 in general 2HDMs with right-handed neutrinos, Syuhei Iguro, Yuji Omura, JHEP 1805 (2018) 173, arXiv:1802.01732.
[Iguro:2018qzf]
[21-911]
Lepton-Number-Charged Scalars and Neutrino Beamstrahlung, Jeffrey M. Berryman, Andre de Gouvea, Kevin J. Kelly, Yue Zhang, Phys.Rev. D97 (2018) 075030, arXiv:1802.00009.
[Berryman:2018ogk]
[21-912]
Electric Dipole Moments in the Minimal Scotogenic Model, Asmaa Abada, Takashi Toma, JHEP 1804 (2018) 030, arXiv:1802.00007.
[Abada:2018zra]
[21-913]
Fully Constrained Majorana Neutrino Mass Matrices Using $\Sigma(72\times 3)$, R. Krishnan, P. F. Harrison, W. G. Scott, Eur.Phys.J.C 78 (2018) 74, arXiv:1801.10197.
[Krishnan:2018tja]
[21-914]
Asymmetric dark matter, baryon asymmetry and lepton number violation, Mads T. Frandsen, Claudia Hagedorn, Wei-Chih Huang, Emiliano Molinaro, Heinrich Pas, Phys.Lett. B782 (2018) 387-394, arXiv:1801.09314.
[Frandsen:2018jfi]
[21-915]
Charged Lepton Flavor Violation in a class of Radiative Neutrino Mass Generation Models, Talal Ahmed Chowdhury, Salah Nasri, Phys.Rev. D97 (2018) 075042, arXiv:1801.07199.
[Chowdhury:2018nhd]
[21-916]
Keung-Senjanovic process at LHC: from LNV to displaced vertices to invisible decays, Miha Nemevsek, Fabrizio Nesti, Goran Popara, Phys.Rev. D97 (2018) 115018, arXiv:1801.05813.
[Nemevsek:2018bbt]
[21-917]
Neutrino non-standard interactions as a portal to test flavour symmetries, TseChun Wang, Ye-Ling Zhou, Phys.Rev. D99 (2019) 035039, arXiv:1801.05656.
[Wang:2018dwk]
[21-918]
Serendipity in dark photon searches, Philip Ilten, Yotam Soreq, Mike Williams, Wei Xue, JHEP 06 (2018) 004, arXiv:1801.04847.
[Ilten:2018crw]
[21-919]
A radiative neutrino mass model in light of DAMPE excess with hidden gauged $U(1)$ symmetry, Takaaki Nomura, Hiroshi Okada, Peiwen Wu, JCAP 1805 (2018) 053, arXiv:1801.04729.
[Nomura:2018jkd]
[21-920]
Exotic Sterile Neutrinos and Pseudo-Goldstone Phenomenology, Bibhushan Shakya, James D. Wells, JHEP 1902 (2019) 174, arXiv:1801.02640.
[Shakya:2018qzg]
[21-921]
A Multicomponent Dark Matter in a Model with Mirror Symmetry with Additional Charged Scalars, Mirza Satriawan, arXiv:1801.00326, 2018.
[Satriawan:2017vlx]
[21-922]
Probing the Light Sterile Neutrino Through the Heavy Charged Higgs Decay on the LHC, Yi-Lei Tang, Phys.Rev.D 98 (2018) 035043, arXiv:1712.10108.
[Tang:2017plx]
[21-923]
Features of Neutrino Mixing, S. H. Chiu, T. K. Kuo, Phys.Rev. D97 (2018) 055026, arXiv:1712.08487.
[Chiu:2017ckv]
[21-924]
A New Light Higgs Boson and Short-Baseline Neutrino Anomalies, J. Asaadi, E. Church, R. Guenette, B. J. P. Jones, A. M. Szelc, Phys.Rev. D97 (2018) 075021, arXiv:1712.08019.
[Asaadi:2017bhx]
[21-925]
Precise prediction for the Higgs-Boson Masses in the $\mu\nu$SSM, T. Biekotter, S. Heinemeyer, C. Munoz, Eur.Phys.J. C78 (2018) 504, arXiv:1712.07475.
[Biekotter:2017xmf]
[21-926]
PeV scale Supersymmetry breaking and the IceCube neutrino flux, Mansi Dhuria, Vikram Rentala, JHEP 1809 (2018) 004, arXiv:1712.07138.
[Dhuria:2017ihq]
[21-927]
Scalar dark matter explanation of the DAMPE data in the minimal Left-Right symmetric model, Junjie Cao, Xiaofei Guo, Liangliang Shang, Fei Wang, Peiwen Wu, Phys.Rev. D97 (2018) 063016, arXiv:1712.05351.
[Cao:2017rjr]
[21-928]
Singlet Heavy Fermions as the Origin of B Anomalies in Flavour Changing Neutral Currents, Francisco J. Botella, Gustavo C. Branco, Miguel Nebot, arXiv:1712.04470, 2017.
[Botella:2017caf]
[21-929]
Lepton mixing and the charged-lepton mass ratios, D. Jurciukonis, L. Lavoura, JHEP 1803 (2018) 152, arXiv:1712.04292.
[Jurciukonis:2017znv]
[21-930]
Sneutrinos as Mixed Inflaton and Curvaton, Naoyuki Haba, Tomo Takahashi, Toshifumi Yamada, JCAP 1806 (2018) 011, arXiv:1712.03684.
[Haba:2017fbi]
[21-931]
DAMPE excess from decaying right-handed neutrino dark matter, Nobuchika Okada, Osamu Seto, Mod.Phys.Lett. A33 (2018) 1850157, arXiv:1712.03652.
[Okada:2017pgr]
[21-932]
Consistency of perturbed Tribimaximal, Bimaximal and Democratic mixing with Neutrino mixing data, Sumit K. Garg, Nucl.Phys. B931 (2018) 469-505, arXiv:1712.02212.
[Garg:2017mjk]
[21-933]
Neutrino and Dark Matter Confronting DAMPE Excess, Ran Ding, Zhi-Long Han, Lei Feng, Bin Zhu, Chin.Phys. C42 (2018) 083104, arXiv:1712.02021.
[Ding:2017jdr]
[21-934]
${SO(10)}$ inspired $Z'$ models at the LHC, Simon J.D. King, Stephen F. King, Stefano Moretti, Phys.Rev. D97 (2018) 115027, arXiv:1712.01279.
[King:2017cwv]
[21-935]
Searching for a neutrinophilic scalar sector in multilepton channels, Katri Huitu, Timo J. Karkkainen, Subhadeep Mondal, Santosh Kumar Rai, Phys.Rev. D97 (2018) 035026, arXiv:1712.00338.
[Huitu:2017vye]
[21-936]
Leptophilic dark matter in gauged $U(1)_{L_e-L_\mu}$ model in light of DAMPE cosmic ray $e^+ + e^-$ excess, Guang Hua Duan, Xiao-Gang He, Lei Wu, Jin Min Yang, Eur.Phys.J.C 78 (2018) 323, arXiv:1711.11563.
[Duan:2017qwj]
[21-937]
A model explaining neutrino masses and the DAMPE cosmic ray electron excess, Yi-Zhong Fan, Wei-Chih Huang, Martin Spinrath, Yue-Lin Sming Tsai, Qiang Yuan, Phys.Lett. B781 (2018) 83-87, arXiv:1711.10995.
[Fan:2017sor]
[21-938]
Testing a lepton quarticity flavor theory of neutrino oscillations with the DUNE experiment, Rahul Srivastava, C. A. Ternes, M. Tortola, J. W. F. Valle, Phys.Lett. B778 (2018) 459-463, arXiv:1711.10318.
[Srivastava:2017sno]
[21-939]
Heavy Majorana neutrino pair productions at the LHC in minimal U(1) extended Standard Model, Arindam Das, Nobuchika Okada, Digesh Raut, Eur.Phys.J. C78 (2018) 696, arXiv:1711.09896.
[Das:2017deo]
[21-940]
A simple model to explain the observed muon sector anomalies, small neutrino masses, baryon-genesis and dark-matter, Lobsang Dhargyal, J.Phys. G46 (2019) 125002, arXiv:1711.09772.
[Dhargyal:2017vcu]
[21-941]
Multi-lepton signatures of additional scalar bosons beyond the Standard Model at the LHC, Stefan von Buddenbrock et al., J.Phys. G45 (2018) 115003, arXiv:1711.07874.
[vonBuddenbrock:2017gvy]
[21-942]
Matter density, symmetry breaking, and neutrino oscillation, H. Mohseni Sadjadi, A. P. Khosravi Karchi, JCAP 1804 (2018) 008, arXiv:1711.06607.
[MohseniSadjadi:2017jne]
[21-943]
CP violations in $A_4$ symmetry model with two Higgs singlets, T.Phong Nguyen, L. T. Hue, D. T. Si, T. T. Thuc, PTEP 2020 (2020) 033B04, arXiv:1711.05588.
[PhongNguyen:2017meq]
[21-944]
Ameliorating the popular lepton mixings with A4 symmetry: A see-saw model for realistic neutrino masses and mixing, Soumita Pramanick, Phys.Rev. D98 (2018) 075016, arXiv:1711.03510.
[Pramanick:2017fdq]
[21-945]
The effects of triplet Higgs bosons in long baseline neutrino experiments, Katri Huitu, Timo J. Karkkainen, Jukka Maalampi, Sampsa Vihonen, Phys.Rev. D97 (2018) 095037, arXiv:1711.02971.
[Huitu:2017cpc]
[21-946]
Clockwork for Neutrino Masses and Lepton Flavor Violation, Alejandro Ibarra, Ashwani Kushwaha, Sudhir K. Vempati, Phys.Lett. B780 (2018) 86-92, arXiv:1711.02070.
[Ibarra:2017tju]
[21-947]
Explaining the 3.5 keV X-ray Line in a ${L_\mu-L_\tau}$ Extension of the Inert Doublet Model, Anirban Biswas, Sandhya Choubey, Laura Covi, Sarif Khan, JCAP 1802 (2018) 002, arXiv:1711.00553.
[Biswas:2017ait]
[21-948]
Constraining Photon Portal Dark Matter with Texono and Coherent Data, Shao-Feng Ge, Ian M. Shoemaker, JHEP 11 (2018) 066, arXiv:1710.10889.
[Ge:2017mcq]
[21-949]
Natural SUSY at LHC with Right-Sneutrino LSP, Arindam Chatterjee, Juhi Dutta, Santosh Kumar Rai, JHEP 1806 (2018) 042, arXiv:1710.10617.
[Chatterjee:2017nyx]
[21-950]
Cosmological Singlet Diagnostics of Neutrinophilic Dark Matter, Ottavia Balducci, Stefan Hofmann, Alexis Kassiteridis, Phys.Rev. D98 (2018) 023003, arXiv:1710.09846.
[OttaviaBalducci:2017abc]
[21-951]
Dark Matter-Neutrino Interaction in Light of Collider and Neutrino Telescope Data, Reinard Primulando, Patipan Uttayarat, JHEP 1806 (2018) 026, arXiv:1710.08567.
[Primulando:2017kxf]
[21-952]
Probing new charged scalars with neutrino trident production, Gabriel Magill, Ryan Plestid, Phys.Rev. D97 (2018) 055003, arXiv:1710.08431.
[Magill:2017mps]
[21-953]
A new U(1) model anomaly free for three families to address fermion mass hierarchy and neutrino physics, S. F. Mantilla, R. Martinez, arXiv:1710.07860, 2017. XI Latin American Symposium of High Energy Physics (SILAFAE 2016) from November 14th to 18th of 2016 in Antigua Guatemala, Guatemala.
[Mantilla:2017zhs]
[21-954]
Left Right Symmetric Models with a Mixture of keV-TeV Dark Matter, Debasish Borah, Arnab Dasgupta, J.Phys. G46 (2019) 105004, arXiv:1710.06170.
[Borah:2017hgt]
[21-955]
LHC signals of radiatively-induced neutrino masses and implications for the Zee-Babu model, Julien Alcaide, Mikael Chala, Arcadi Santamaria, Phys.Lett. B779 (2018) 107-116, arXiv:1710.05885.
[Alcaide:2017dcx]
[21-956]
Radiative Neutrino Mass $\text{\&}$ Majorana Dark Matter within an Inert Higgs Doublet Model, Amine Ahriche, Adil Jueid, Salah Nasri, Phys.Rev. D97 (2018) 095012, arXiv:1710.03824.
[Ahriche:2017iar]
[21-957]
Right-handed Neutrino Dark Matter in a U(1) Extension of the Standard Model, Peter Cox, Chengcheng Han, Tsutomu T. Yanagida, JCAP 1801 (2018) 029, arXiv:1710.01585.
[Cox:2017rgn]
[21-958]
Lepton Number Violation, Lepton Flavour Violation and Baryogenesis in Left-Right Symmetric Model, Happy Borgohain, Mrinal Kumar Das, Phys.Rev. D96 (2017) 075021, arXiv:1709.09542.
[Borgohain:2017akh]
[21-959]
A Portalino to the Dark Sector, Martin Schmaltz, Neal Weiner, JHEP 1902 (2019) 105, arXiv:1709.09164.
[Schmaltz:2017oov]
[21-960]
Possible roles of Peccei-Quinn symmetry in an effective low energy model, Daijiro Suematsu, Phys.Rev. D96 (2017) 115004, arXiv:1709.07607.
[Suematsu:2017hki]
[21-961]
Thermal Dark Matter Through the Dirac Neutrino Portal, Brian Batell, Tao Han, David McKeen, Barmak Shams Es Haghi, Phys.Rev. D97 (2018) 075016, arXiv:1709.07001.
[Batell:2017cmf]
[21-962]
Hidden $U(1)$ gauge symmetry realizing neutrinophilic two Higgs doublet model with dark matter, Takaaki Nomura, Hiroshi Okada, Phys.Rev. D97 (2018) 075038, arXiv:1709.06406.
[Nomura:2017wxf]
[21-963]
Axion dark matter in a $3-3-1$ model, J. C. Montero, A. Romero, B. L. Sanchez-Vega, Phys.Rev. D97 (2018) 063015, arXiv:1709.04535.
[Montero:2017yvy]
[21-964]
Phenomenology of $U(1)_{F}$ extension of inert-doublet model with exotic scalars and leptons, Lobsang Dhargyal, Eur.Phys.J. C78 (2018) 150, arXiv:1709.04452.
[Dhargyal:2017cqo]
[21-965]
Heavy neutrino-antineutrino oscillations at colliders, Stefan Antusch, Eros Cazzato, Oliver Fischer, Mod.Phys.Lett. A34 (2019) 1950061, arXiv:1709.03797.
[Antusch:2017ebe]
[21-966]
Lepton number violation phenomenology of d=7 neutrino mass models, R. Cepedello, M. Hirsch, J.C. Helo, JHEP 1801 (2018) 009, arXiv:1709.03397.
[Cepedello:2017lyo]
[21-967]
Dark matter stability and one-loop neutrino mass generation based on Peccei-Quinn Symmetry, Daijiro Suematsu, Eur.Phys.J. C78 (2018) 33, arXiv:1709.02886.
[Suematsu:2017kcu]
[21-968]
Phenomenological Analysis of an $\mathrm{E}_{6}$-inspired Seesaw Model, Joshua P. Ellis, Raymond R. Volkas, Phys.Rev. D96 (2017) 095016, arXiv:1709.01203.
[Ellis:2017hdw]
[21-969]
Unified Scenario for Composite Right-Handed Neutrinos and Dark Matter, Hooman Davoudiasl, Pier Paolo Giardino, Ethan T. Neil, Enrico Rinaldi, Phys.Rev. D96 (2017) 115003, arXiv:1709.01082.
[Davoudiasl:2017zws]
[21-970]
Neutrinophilic two Higgs doublet model with dark matter under an alternative $U(1)_{B-L}$ gauge symmetry, Takaaki Nomura, Hiroshi Okada, Eur.Phys.J. C78 (2018) 189, arXiv:1708.08737.
[Nomura:2017jxb]
[21-971]
A testable radiative neutrino mass model with a $U(1)_L$ global symmetry and multi-charged particles, Kingman Cheung, Hiroshi Okada, Phys.Lett. B774 (2017) 446-450, arXiv:1708.06111.
[Cheung:2017kxb]
[21-972]
Reactor and Atmospheric Neutrino Mixing Angles' Correlation as a Probe for New Physics, Pedro Pasquini, Phys.Rev. D96 (2017) 095021, arXiv:1708.04294.
[Pasquini:2017hby]
[21-973]
Lower Mass Bound on the $W^\prime$ mass via Neutrinoless Double Beta Decay in a 3-3-1 Model, A. C. O. Santos, P. Vasconcelos, Adv.High Energy Phys. 2018 (2018) 9132381, arXiv:1708.03955.
[Santos:2017jbv]
[21-974]
Extra Higgs Boson and $Z'$ as Portals to Signatures of Heavy Neutrinos at the LHC, Elena Accomando, Luigi Delle Rose, Stefano Moretti, Emmanuel Olaiya, Claire H. Shepherd-Themistocleous, JHEP 1802 (2018) 109, arXiv:1708.03650.
[Accomando:2017qcs]
[21-975]
Cornering the revamped BMV model with neutrino oscillation data, Sabya Sachi Chatterjee, Mehedi Masud, Pedro Pasquini, J.W.F. Valle, Phys.Lett. B774 (2017) 179-182, arXiv:1708.03290.
[Chatterjee:2017ilf]
[21-976]
Expanding the Reach of Heavy Neutrino Searches at the LHC, Florez Andres, Gurrola Alfredo, Gui Kaiwen, Patino Carlos, Restrepo Diego, Phys.Lett. B778 (2018) 94-100, arXiv:1708.03007.
[Florez:2017xhf]
[21-977]
Sterile Neutrinos and B-L Symmetry, Pavel Fileviez Perez, Clara Murgui, Phys.Lett. B777 (2018) 381-387, arXiv:1708.02247.
[FileviezPerez:2017sbb]
[21-978]
Systematic Study of One-Loop Dirac Neutrino Masses and Viable Dark Matter Candidates, Chang-Yuan Yao, Gui-Jun Ding, Phys.Rev. D96 (2017) 095004, arXiv:1707.09786.
[Yao:2017vtm]
[21-979]
Phenomenology of the gauge symmetry for right-handed fermions, Wei Chao, Eur.Phys.J. C78 (2018) 103, arXiv:1707.07858.
[Chao:2017rwv]
[21-980]
Neutrino mass and the Higgs portal dark matter in the ESSFSM, Najimuddin Khan, Adv.High Energy Phys. 2018 (2018) 4809682, arXiv:1707.07300.
[Khan:2017ygl]
[21-981]
Constraining the EW Hierarchy from the Weak Gravity Conjecture, Luis E. Ibanez, Victor Martin-Lozano, Irene Valenzuela, arXiv:1707.05811, 2017.
[Ibanez:2017oqr]
[21-982]
Identifying Dark Matter Nature at $e^{-}e^{+}$ Colliders, Nabil Baouche, Amine Ahriche, Phys.Rev. D96 (2017) 055029, arXiv:1707.05263.
[Baouche:2017tzu]
[21-983]
LHC Search for Right-handed Neutrinos in $Z^\prime$ Models, Peter Cox, Chengcheng Han, Tsutomu T. Yanagida, JHEP 1801 (2018) 037, arXiv:1707.04532.
[Cox:2017eme]
[21-984]
Phenomenological Aspects for Possible Vacua of Neutrino Flavor Model, Takuya Morozumi et al., Chin.Phys. C42 (2018) 023102, arXiv:1707.04028.
[Morozumi:2017rrg]
[21-985]
The Constrained NMSSM with right-handed neutrinos, David G. Cerdeno, Valentina De Romeri, Victor Martin-Lozano, Keith A. Olive, Osamu Seto, Eur.Phys.J. C78 (2018) 290, arXiv:1707.03990.
[Cerdeno:2017sks]
[21-986]
Reordering of the inverted neutrino mass hierarchy and breaking of the $\mu-\tau$ reflection symmetry, Zhi-zhong Xing, Jing-yu Zhu, Chin.Phys. C41 (2017) 123103, arXiv:1707.03676.
[Xing:2017cwb]
[21-987]
Neutrino Mass Sum-rule and Neutrinoless Double Beta Decay, Asan Damanik, arXiv:1707.02865, 2017.
[Damanik:2017dxc]
[21-988]
Colder Freeze-in Axinos Decaying into Photons, Kyu Jung Bae, Ayuki Kamada, Seng Pei Liew, Keisuke Yanagi, Phys.Rev. D97 (2018) 055019, arXiv:1707.02077.
[Bae:2017tqn]
[21-989]
Second Octant Favored for Non-Maximal $\theta_{23}$, Paul H. Frampton, Mod.Phys.Lett. A32 (2017) 1750101, arXiv:1707.01383.
[Frampton:2017qst]
[21-990]
A Benchmark Model from SO(10): Dark Matter Decay for IceCube Neutrinos and Verifiable Proton Decay, Biswonath Sahoo, M. K Parida, Mainak Chakraborty, Nucl.Phys.B C938 (2019) 56-113, arXiv:1707.01286.
[Sahoo:2017cqg]
[21-991]
Implications of right-handed neutrinos in $B-L$ extended standard model with scalar dark matter, Priyotosh Bandyopadhyay, Eung Jin Chun, Rusa Mandal, Phys.Rev. D97 (2018) 015001, arXiv:1707.00874.
[Bandyopadhyay:2017bgh]
[21-992]
Interpreting the $R_{K^{(*)}}$ Anomaly in the Colored Zee-Babu Model, Shu-Yuan Guo, Zhi-Long Han, Bin Li, Yi Liao, Xiao-Dong Ma, Nucl.Phys. B928 (2018) 435-447, arXiv:1707.00522.
[Guo:2017gxp]
[21-993]
Anomalous leptonic U(1) symmetry: Syndetic origin of the QCD axion, weak-scale dark matter, and radiative neutrino mass, Ernest Ma, Diego Restrepo, Oscar Zapata, Mod.Phys.Lett. A33 (2018) 1850024, arXiv:1706.08240.
[Ma:2017zyb]
[21-994]
Dark Matter, Neutrino mass, Cutoff for Cosmic-Ray Neutrino, and Higgs Boson Invisible Decay from a Neutrino Portal Interaction, Wen Yin, Chin.Phys. C43 (2019) 045101, arXiv:1706.07028.
[Yin:2017wxm]
[21-995]
Heavy stable charged tracks as signatures of non-thermal dark matter at the LHC : a study in some non-supersymmetric scenarios, Avirup Ghosh, Tanmoy Mondal, Biswarup Mukhopadhyaya, JHEP 1712 (2017) 136, arXiv:1706.06815.
[Ghosh:2017vhe]
[21-996]
Constraining Neutrino Masses, the Cosmological Constant and BSM Physics from the Weak Gravity Conjecture, Luis E. Ibanez, Victor Martin-Lozano, Irene Valenzuela, JHEP 1711 (2017) 066, arXiv:1706.05392.
[Ibanez:2017kvh]
[21-997]
A model with isospin doublet $U(1)_D$ gauge symmetry, Takaaki Nomura, Hiroshi Okada, Int.J.Mod.Phys. A33 (2018) 1850089, arXiv:1706.05268.
[Nomura:2017tzj]
[21-998]
A New Viable Region of Inert Higgs Doublet Dark Matter Model with Scotogenic Extension, Debasish Borah, Aritra Gupta, Phys.Rev. D96 (2017) 115012, arXiv:1706.05034.
[Borah:2017dfn]
[21-999]
The Leptoquark Hunter's Guide: Pair Production, Bastian Diaz, Martin Schmaltz, Yi-Ming Zhong, JHEP 1710 (2017) 097, arXiv:1706.05033.
[Diaz:2017lit]
[21-1000]
Broken $S^{}_{3{\rm L}} \times S^{}_{3{\rm R}}$ Flavor Symmetry and Leptonic CP Violation, Zong-guo Si, Xing-hua Yang, Shun Zhou, Chin.Phys. C41 (2017) 113105, arXiv:1706.03991.
[Si:2017pdo]
[21-1001]
Compilation of low-energy constraints on 4-fermion operators in the SMEFT, Adam Falkowski, Martin Gonzalez-Alonso, Kin Mimouni, JHEP 1708 (2017) 123, arXiv:1706.03783.
[Falkowski:2017pss]
[21-1002]
Dark Matter and Neutrino Mass from the Smallest Non-Abelian Chiral Dark Sector, Jeffrey M. Berryman, Andre de Gouvea, Kevin J. Kelly, Yue Zhang, Phys.Rev. D96 (2017) 075010, arXiv:1706.02722.
[Berryman:2017twh]
[21-1003]
$R_{K^{(*)}}$ and related $b\to s\ell\bar\ell$ anomalies in minimal flavor violation framework with $Z'$ boson, Cheng-Wei Chiang, Xiao-Gang He, Jusak Tandean, Xing-Bo Yuan, Phys.Rev. D96 (2017) 115022, arXiv:1706.02696.
[Chiang:2017hlj]
[21-1004]
Neutrinophilic two Higgs doublet model with $U(1)_{}$ global symmetry, Kingman Cheung, Hiroshi Okada, Yuta Orikasa, arXiv:1706.02084, 2017.
[Cheung:2017lpv]
[21-1005]
Generalized Bottom-Tau unification, neutrino oscillations and dark matter: predictions from a lepton quarticity flavor approach, Salvador Centelles Chulia, Rahul Srivastava, Jose W. F. Valle, Phys.Lett. B773 (2017) 26-33, arXiv:1706.00210.
[CentellesChulia:2017koy]
[21-1006]
A simple extension of SM that can explain the $(g-2)_\mu$ anomaly, small neutrino mass and dark-matter, Lobsang Dhargyal, J.Phys. G45 (2018) 075002, arXiv:1705.09610.
[Dhargyal:2017zaz]
[21-1007]
Revisiting Minimal Lepton Flavour Violation in the Light of Leptonic CP Violation, D. Dinh, L. Merlo, S.T. Petcov, Vega-Alvarez, JHEP 1707 (2017) 089, arXiv:1705.09284.
[Dinh:2017smk]
[21-1008]
Dark Energy from pNGB Mediated Dirac Neutrino Condensate, Ujjal Kumar Dey, Tirtha Sankar Ray, Utpal Sarkar, Nucl.Phys. B928 (2018) 258-267, arXiv:1705.08484.
[Dey:2017wwt]
[21-1009]
Neutrino Mass, Dark Matter and Baryon Asymmetry without Lepton Number Violation, Shinya Kanemura, Kodai Sakurai, Hiroaki Sugiyama, Phys.Rev. D96 (2017) 095024, arXiv:1705.07040.
[Kanemura:2017haa]
[21-1010]
Predictive Pati-Salam theory of fermion masses and mixing, A. E. Carcamo Hernandez, Sergey Kovalenko, Jose W. F. Valle, C.A. Vaquera-Araujo, JHEP 1707 (2017) 118, arXiv:1705.06320.
[CarcamoHernandez:2017owh]
[21-1011]
Neutrino mass matrices with one texture equality and one vanishing neutrino mass, Jinzhong Han, Ruihong Wang, Weijian Wang, Xing-Ning Wei, Phys.Rev. D96 (2017) 075043, arXiv:1705.05725.
[Han:2017wnk]
[21-1012]
Flavor Non-universality Gauge Interactions and Anomalies in B-Meson Decays, Yong Tang, Yue-Liang Wu, Chin.Phys. C42 (2018) 033104, arXiv:1705.05643.
[Tang:2017gkz]
[21-1013]
Neutrino Masses and Absence of Flavor Changing Interactions in the 2HDM from Gauge Principles, Miguel D. Campos et al., JHEP 1708 (2017) 092, arXiv:1705.05388.
[Campos:2017dgc]
[21-1014]
Construction of lepton mass matrices and TeV-scale phenomenology in the minimal left-right symmetric model, Chang-Hun Lee, arXiv:1705.05358, 2017.
[Lee:2017peq]
[21-1015]
Cosmic matter from dark electroweak phase transition with neutrino mass generation, Pei-Hong Gu, Phys.Rev. D96 (2017) 055038, arXiv:1705.05189.
[Gu:2017rzz]
[21-1016]
Neutrino CP phases from Sneutrino Chaotic Inflation, Kazunori Nakayama, Fuminobu Takahashi, Tsutomu T. Yanagida, Phys.Lett. B773 (2017) 179-185, arXiv:1705.04796.
[Nakayama:2017cij]
[21-1017]
Neutrino Mass and Neutrinoless double beta decay in SO(10) GUT with Pati-Salam symmetry, M. Sruthilaya, Rukmani Mohanta, Sudhanwa Patra, J.Phys. G45 (2018) 075004, arXiv:1705.04125.
[Sruthilaya:2017vui]
[21-1018]
Flavoured $B-L$ Local Symmetry and Anomalous Rare $B$ Decays, Rodrigo Alonso, Peter Cox, Chengcheng Han, Tsutomu T. Yanagida, Phys.Lett. B774 (2017) 643-648, arXiv:1705.03858.
[Alonso:2017uky]
[21-1019]
Using the (Modified) Matrix Element Method to constrain $L_\mu- L_\tau$ Interactions, Fatemeh Elahi, Adam Martin, Phys.Rev. D96 (2017) 015021, arXiv:1705.02563.
[Elahi:2017ppe]
[21-1020]
Constraining Right Handed Gauge Boson Mass from Lepton Number Violating Meson Decays in a Low Scale Left Right Model, Sanjoy Mandal, Manimala Mitra, Nita Sinha, Phys.Rev. D96 (2017) 035023, arXiv:1705.01932.
[Mandal:2017tab]
[21-1021]
Observational constraints on successful model of quintessential Inflation, Chao-Qiang Geng, Chung-Chi Lee, M. Sami, Emmanuel N. Saridakis, Alexei A. Starobinsky, JCAP 1706 (2017) 011, arXiv:1705.01329.
[Geng:2017mic]
[21-1022]
Neutrino Mass Generation at TeV Scale and New Physics Signatures from Charged Higgs at the LHC for Photon Initiated Processes, Kirtiman Ghosh, Sudip Jana, S. Nandi, JHEP 1803 (2018) 180, arXiv:1705.01121.
[Ghosh:2017jbw]
[21-1023]
Neutrinoless double beta decay and lepton flavour violation in broken $\mu-\tau$ symmetric neutrino mass models, Happy Borgohain, Mrinal Kumar Das, Int.J.Theor.Phys. 56 (2017) 2911-2934, arXiv:1705.00922.
[Borgohain:2017inp]
[21-1024]
A Radiative Neutrino Mass Model with SIMP Dark Matter, Shu-Yu Ho, Takashi Toma, Koji Tsumura, JHEP 1707 (2017) 101, arXiv:1705.00592.
[Ho:2017fte]
[21-1025]
Predictions for the neutrino parameters in the minimal gauged U(1)$_{L_\mu-L_\tau}$ model, Kento Asai, Koichi Hamaguchi, Natsumi Nagata, Eur.Phys.J. C77 (2017) 763, arXiv:1705.00419.
[Asai:2017ryy]
[21-1026]
Neutrino Mixing and Leptonic CP Violation from $S_4$ Flavour and Generalised CP Symmetries, J. T. Penedo, S. T. Petcov, A. V. Titov, JHEP 1712 (2017) 022, arXiv:1705.00309.
[Penedo:2017vtf]
[21-1027]
Like-sign dileptons in the framework of the Manifest Left-Right Symmetric Model, Aviad Roitgrund, JHEP 2021 (2020) 031, arXiv:1704.07772.
[Roitgrund:2020cge]
[21-1028]
Starobinsky-like Inflation, Supercosmology and Neutrino Masses in No-Scale Flipped SU(5), John Ellis, Marcos A. G. Garcia, Natsumi Nagata, Dimitri V. Nanopoulos, Keith A. Olive, JCAP 1707 (2017) 006, arXiv:1704.07331.
[Ellis:2017jcp]
[21-1029]
Reconsidering the One Leptoquark solution: flavor anomalies and neutrino mass, Yi Cai, John Gargalionis, Michael A. Schmidt, Raymond R. Volkas, JHEP 1710 (2017) 047, arXiv:1704.05849.
[Cai:2017wry]
[21-1030]
Right-handed neutrino dark matter in the classically conformal U(1)$^\prime$ extended Standard Model, Satsuki Oda, Nobuchika Okada, Dai-suke Takahashi, Phys.Rev. D96 (2017) 095032, arXiv:1704.05023.
[Oda:2017kwl]
[21-1031]
Multi-component Fermionic Dark Matter and IceCube PeV scale Neutrinos in Left-Right Model with Gauge Unification, Debasish Borah, Arnab Dasgupta, Ujjal Kumar Dey, Sudhanwa Patra, Gaurav Tomar, JHEP 1709 (2017) 005, arXiv:1704.04138.
[Borah:2017xgm]
[21-1032]
On the lepton CP violation in a $\nu$2HDM with flavor, E. Barradas-Guevara, O. Felix-Beltran, F. Gonzalez-Canales, M. Zeleny-Mora, Phys.Rev. D97 (2018) 035003, arXiv:1704.03474.
[Barradas-Guevara:2017iyt]
[21-1033]
Singlet-Doublet Fermionic Dark Matter, Neutrino Mass and Collider Signatures, Subhaditya Bhattacharya, Nirakar Sahoo, Narendra Sahu, Phys.Rev. D96 (2017) 035010, arXiv:1704.03417.
[Bhattacharya:2017sml]
[21-1034]
Higgs boson mass corrections in the $\mu\nu$SSM with effective potential methods, Hai-Bin Zhang, Tai-Fu Feng, Xiu-Yi Yang, Shu-Min Zhao, Guo-Zhu Ning, Phys.Rev. D95 (2017) 075013, arXiv:1704.03388.
[Zhang:2017agq]
[21-1035]
The study of the $Z\rightarrow l_i^{\pm}l_j^{\mp}$ processes in the BLMSSM, Xing-Xing Dong et al., Chin.Phys. C41 (2017) 073103, arXiv:1704.02202.
[Dong:2017ksc]
[21-1036]
Doublet-triplet dark matter with neutrino masses, Amalia Betancur, Robinson Longas, Oscar Zapata, Phys.Rev. D96 (2017) 035011, arXiv:1704.01162.
[Betancur:2017dhy]
[21-1037]
Singlet scalar Dark matter in $U(1)_{B-L}$ models without right-handed neutrinos, Shivaramakrishna Singirala, Rukmani Mohanta, Sudhanwa Patra, Eur.Phys.J.Plus 133 (2018) 477, arXiv:1704.01107.
[Singirala:2017see]
[21-1038]
One-loop radiative seesaw dark matter and neutrinoless double beta decay with two zero flavor neutrino mass texture, Teruyuki Kitabayashi, Shinya Ohkawa, Masaki Yasue, Int.J.Mod.Phys. A32 (2017) 1750186, arXiv:1703.09417.
[Kitabayashi:2017sjz]
[21-1039]
Dark Matter, Muon $g-2$, Electric Dipole Moments and $Z\to \ell_i^+ \ell_j^-$ in a One-Loop Induced Neutrino Model, Cheng-Wei Chiang, Hiroshi Okada, Eibun Senaha, Phys.Rev. D96 (2017) 015002, arXiv:1703.09153.
[Chiang:2017tai]
[21-1040]
Lepton Portal Limit of Inert Higgs Doublet Dark Matter with Radiative Neutrino Mass, Debasish Borah, Soumya Sadhukhan, Shibananda Sahoo, Phys.Lett. B771 (2017) 624-632, arXiv:1703.08674.
[Borah:2017dqx]
[21-1041]
Viable Twin Cosmology from Neutrino Mixing, Csaba Csaki, Eric Kuflik, Salvator Lombardo, Phys.Rev. D96 (2017) 055013, arXiv:1703.06884.
[Csaki:2017spo]
[21-1042]
Spacetime Deformation Effect on the Early Universe and the PTOLEMY Experiment, Raul Horvat, Josip Trampetic, Jiangyang You, Phys.Lett. B772 (2017) 130-135, arXiv:1703.04800.
[Horvat:2017gfm]
[21-1043]
A Radiative Neutrino Model Linking to A Monochromatic Gamma-ray Line, Seungwon Baek, Hiroshi Okada, Yuta Orikasa, Nucl.Phys. B941 (2019) 744-754, arXiv:1703.00685.
[Baek:2017qos]
[21-1044]
Constraining secret gauge interactions of neutrinos by meson decays, Pouya Bakhti, Yasaman Farzan, Phys.Rev. D95 (2017) 095008, arXiv:1702.04187.
[Bakhti:2017jhm]
[21-1045]
Constraints on Non-Standard Intermediate Boson Exchange Models from Neutrino-Electron Scattering, M. Deniz et al., Phys.Rev. D96 (2017) 035017, arXiv:1702.02353.
[Sevda:2017wwn]
[21-1046]
Cornering the $L_\mu-L_\tau$ gauge boson at Belle-II, Takeshi Araki, Shihori Hoshino, Toshihiko Ota, Joe Sato, Takashi Shimomura, Phys.Rev. D95 (2017) 055006, arXiv:1702.01497.
[Araki:2017wyg]
[21-1047]
A light $Z^\prime$ for the $R_K$ puzzle and nonstandard neutrino interactions, Alakabha Datta, Jiajun Liao, Danny Marfatia, Phys.Lett. B768 (2017) 265-269, arXiv:1702.01099.
[Datta:2017pfz]
[21-1048]
Dirac CP phase in the neutrino mixing matrix and the Froggatt-Nielsen mechanism with ${\rm \bf det} \bf [M_\nu]=0$, Yuya Kaneta, Morimitsu Tanimoto, Tsutomu T. Yanagida, Phys.Lett. B770 (2017) 546-550, arXiv:1701.08938.
[Kaneta:2017byo]
[21-1049]
Probing Left-Right Seesaw using Beam Polarization at an $e^+e^-$ Collider, Sudhansu S. Biswal, P. S. Bhupal Dev, Phys.Rev. D95 (2017) 115031, arXiv:1701.08751.
[Biswal:2017nfl]
[21-1050]
Lepton Flavour Violation in Left-Right Theory, Pavel Fileviez Perez, Clara Murgui, Phys.Rev. D95 (2017) 075010, arXiv:1701.06801.
[FileviezPerez:2017zwm]
[21-1051]
Neutrino mixing and $R_K$ anomaly in $U(1)_X$ models: a bottom-up approach, Disha Bhatia, Sabyasachi Chakraborty, Amol Dighe, JHEP 1703 (2017) 117, arXiv:1701.05825.
[Bhatia:2017tgo]
[21-1052]
Interference Between Light and Heavy Neutrinos for $0\nu\beta\beta$ Decay in the Left-Right Symmetric Model, Fahim Ahmed, Andrei Neacsu, Mihai Horoi, Phys.Lett. B769 (2017) 299-304, arXiv:1701.03177.
[Ahmed:2017pqa]
[21-1053]
Hunting for Heavy Majorana Neutrinos with Lepton Number Violating Signatures at LHC, Chao Guo, Shu-Yuan Guo, Zhi-Long Han, Bin Li, Yi Liao, JHEP 1704 (2017) 065, arXiv:1701.02463.
[Guo:2017ybk]
[21-1054]
Muon-to-Electron Conversion in Mirror Fermion Model with Electroweak Scale Non-Sterile Right-handed Neutrinos, P. Q. Hung, Trinh Le, Van Que Tran, Tzu-Chiang Yuan, Nucl.Phys. B932 (2018) 471-504, arXiv:1701.01761.
[Hung:2017voe]
[21-1055]
Neutrinoless double beta decay and chiral $SU(3)$, V. Cirigliano, W. Dekens, M. Graesser, E. Mereghetti, Phys.Lett. B769 (2017) 460-464, arXiv:1701.01443.
[Cirigliano:2017ymo]
[21-1056]
A model of neutrino mass and dark matter with large neutrinoless double beta decay, Julien Alcaide, Dipankar Das, Arcadi Santamaria, JHEP 1704 (2017) 049, arXiv:1701.01402.
[Alcaide:2017xoe]
[21-1057]
A Three-loop Neutrino Model with Leptoquark Triplet Scalars, Kingman Cheung, Takaaki Nomura, Hiroshi Okada, Phys.Lett. B768 (2017) 359-364, arXiv:1701.01080.
[Cheung:2017efc]
[21-1058]
Probing Lepton Flavor Violation Signal via $\gamma\gamma\to l_i\barl_j$ in the Left-Right Twin Higgs Model at the ILC, Guo-Li Liu, Fei Wang, Kuan Xie, Xiao-Fei Guo, Phys.Rev. D96 (2017) 035005, arXiv:1701.00947.
[Liu:2017agv]
[21-1059]
A neutrino mass-mixing sum rule from SO(10) and neutrinoless double beta decay, F. Buccella et al., JHEP 1704 (2017) 004, arXiv:1701.00491.
[Buccella:2017jkx]
[21-1060]
On the possibility of search for $L_\mu- L_\tau$ gauge boson at Belle-II and neutrino beam experiments, Yuya Kaneta, Takashi Shimomura, PTEP 2017 (2017) 053B04, arXiv:1701.00156.
[Kaneta:2016uyt]
[21-1061]
Analysis of right-handed majorana neutrino mass in $SU(4) \times SU(2)_{L} \times SU(2)_{R}$ Pati-Salam model with democratic texture, Masaki J. S. Yang, Phys.Rev. D95 (2017) 055029, arXiv:1612.09049.
[Yang:2016crz]
[21-1062]
Renormalization Group Running of Fermion Observables in an Extended Non-Supersymmetric SO(10) Model, Davide Meloni, Tommy Ohlsson, Stella Riad, JHEP 1703 (2017) 045, arXiv:1612.07973.
[Meloni:2016rnt]
[21-1063]
Majorana Higgses at colliders, Miha Nemevsek, Fabrizio Nesti, Juan Carlos Vasquez, JHEP 1704 (2017) 114, arXiv:1612.06840.
[Nemevsek:2016enw]
[21-1064]
Heavy Higgs Boson Production at Colliders in the Singlet-Triplet Scotogenic Dark Matter Model, Marco Aurelio Diaz, Nicolas Rojas, Sebastian Urrutia-Quiroga, Jose W. F. Valle, JHEP 1708 (2017) 017, arXiv:1612.06569.
[Diaz:2016udz]
[21-1065]
A Clockwork WIMP, Thomas Hambye, Daniele Teresi, Michel H.G. Tytgat, JHEP 1707 (2017) 047, arXiv:1612.06411.
[Hambye:2016qkf]
[21-1066]
Stellar energy loss rates in the pair-annihilation process beyond the standard model, M. A. Hernandez-Ruiz, A. Gutierrez-Rodriguez, A. Gonzalez-Sanchez, Eur.Phys.J. A53 (2017) 16, arXiv:1612.06046.
[Hernandez-Ruiz:2016vez]
[21-1067]
Novel SM-like Higgs decay into displaced heavy neutrino pairs in U(1)' models, E. Accomando, L. Delle Rose, S. Moretti, E. Olaiya, C. Shepherd-Themistocleous, JHEP 1704 (2017) 081, arXiv:1612.05977.
[Accomando:2016rpc]
[21-1068]
Yukawa Sector of Minimal SO(10) Unification, K.S. Babu, Borut Bajc, Shaikh Saad, JHEP 1702 (2017) 136, arXiv:1612.04329.
[Babu:2016bmy]
[21-1069]
Gauge vectors and double beta decay, Renato M. Fonseca, Martin Hirsch, Phys.Rev. D95 (2017) 035033, arXiv:1612.04272.
[Fonseca:2016jbm]
[21-1070]
New constraints on the 3-3-1 model with right-handed neutrinos, B. L. Sanchez-Vega, E. R. Schmitz, J. C. Montero, Eur.Phys.J. C78 (2018) 166, arXiv:1612.03827.
[Sanchez-Vega:2016dwe]
[21-1071]
FIMP and Muon ($g-2$) in a U$(1)_{L_\mu-L_\tau}$ Model, Anirban Biswas, Sandhya Choubey, Sarif Khan, JHEP 1702 (2017) 123, arXiv:1612.03067.
[Biswas:2016yjr]
[21-1072]
Neutrino and CP-even Higgs boson masses in an non-universal $\mathrm{U}(1)'$ extension, S.F. Mantilla, R. Martinez, F. Ochoa, Phys.Rev. D95 (2017) 095037, arXiv:1612.02081.
[Mantilla:2016lui]
[21-1073]
Charged-lepton decays from soft flavour violation, E.H. Aeikens, W. Grimus, L. Lavoura, Phys.Lett. B768 (2017) 365-372, arXiv:1612.00724.
[Aeikens:2016xgl]
[21-1074]
Dark matter physics in neutrino specific two Higgs doublet model, Seungwon Baek, Takaaki Nomura, JHEP 1703 (2017) 059, arXiv:1611.09145.
[Baek:2016wml]
[21-1075]
Flavored Universe dispatched via Axion and Neutrino, Y. H. Ahn, Phys.Rev. D96 (2017) 015022, arXiv:1611.08359.
[Ahn:2016hbn]
[21-1076]
Mu-tau reflection symmetry with a texture-zero, C. C. Nishi, B. L. Sanchez-Vega, JHEP 1701 (2017) 068, arXiv:1611.08282.
[Nishi:2016wki]
[21-1077]
Cosmology in Mirror Twin Higgs and Neutrino Masses, Zackaria Chacko, Nathaniel Craig, Patrick J. Fox, Roni Harnik, JHEP 1707 (2017) 023, arXiv:1611.07975.
[Chacko:2016hvu]
[21-1078]
Flavor origin of dark matter and its relation with leptonic nonzero $\theta_{13}$ and Dirac CP phase $\delta$, Subhaditya Bhattacharya, Biswajit Karmakar, Narendra Sahu, Arunansu Sil, JHEP 1705 (2017) 068, arXiv:1611.07419.
[Bhattacharya:2016rqj]
[21-1079]
Probing Neutrino and Higgs sectors in $SU(2)_1 \times SU(2)_2 \times U(1)_Y$ model with lepton-flavor non-universality, L. T. Hue, A. B. Arbuzov, N. T. K. Ngan, H. N. Long, Eur.Phys.J. C77 (2017) 346, arXiv:1611.06801.
[Hue:2016nya]
[21-1080]
QCD-improved limits from neutrinoless double beta decay, Carolina Arbelaez, Marcela Gonzalez, Sergey Kovalenko, Martin Hirsch, Phys.Rev. D96 (2017) 015010, arXiv:1611.06095.
[Arbelaez:2016uto]
[21-1081]
Reconciling Large And Small-Scale Structure In Twin Higgs Models, Valentina Prilepina, Yuhsin Tsai, JHEP 1709 (2017) 033, arXiv:1611.05879.
[Prilepina:2016rlq]
[21-1082]
One Leptoquark to unify them? Unification in the light of $(g-2)_\mu$, $R_{D^{(\star)}}$ and $R_K$ anomalies, Oleg Popov, Graham A White, Nucl.Phys. B923 (2017) 324-338, arXiv:1611.04566.
[Popov:2016fzr]
[21-1083]
Solar neutrinos, helicity effects and new affine gravity with torsion II, David Alvarez-Castillo, Diego Julio Cirilo-Lombardo, Jilberto Zamora-Saa, JHEAp 13 (2017) 14, arXiv:1611.02137.
[Alvarez-Castillo:2016wve]
[21-1084]
Extending two Higgs doublet models for two-loop neutrino mass generation and one-loop neutrinoless double beta decay, Zhen Liu, Pei-Hong Gu, Nucl. Phys. B915 (2017) 206-223, arXiv:1611.02094.
[Liu:2016mpf]
[21-1085]
Sterile Neutrino Dark Matter with Supersymmetry, Bibhushan Shakya, James D. Wells, Phys.Rev. D96 (2017) 031702, arXiv:1611.01517.
[Shakya:2016oxf]
[21-1086]
Probing Majorana Neutrino Textures at DUNE, Kalpana Bora, Debasish Borah, Debajyoti Dutta, Phys.Rev. D96 (2017) 075006, arXiv:1611.01097.
[Bora:2016ygl]
[21-1087]
Automated Neutrino Jet and Top Jet Predictions at Next-to-Leading-Order with Parton Shower Matching in Effective Left-Right Symmetric Models, Olivier Mattelaer, Manimala Mitra, Richard Ruiz, arXiv:1610.08985, 2016.
[Mattelaer:2016ynf]
[21-1088]
Neutrino oscillations from warped flavor symmetry: predictions for long baseline experiments T2K, NOvA and DUNE, Pedro Pasquini, S. C. Chulia, J. W. F. Valle, Phys.Rev. D95 (2017) 095030, arXiv:1610.05962.
[Pasquini:2016kwk]
[21-1089]
Not-that-heavy Majorana neutrino signals at the LHC, Lucia Duarte, Javier Peressutti, Oscar A. Sampayo, J.Phys. G45 (2018) 025001, arXiv:1610.03894.
[Duarte:2016caz]
[21-1090]
A testable radiative neutrino mass model without additional symmetries and Explanation for the $b \to s \ell^+ \ell^-$ anomaly, Kingman Cheung, Takaaki Nomura, Hiroshi Okada, Phys. Rev. D94 (2016) 115024, arXiv:1610.02322.
[Cheung:2016fjo]
[21-1091]
Baryogenesis and Dark Matter in $U(1)$ Extensions, Wan-Zhe Feng, Pran Nath, Mod.Phys.Lett. A32 (2017) 1740005, arXiv:1610.01996.
[Feng:2016juw]
[21-1092]
A neutrino mixing model based on an $A_4\times Z_3\times Z_4$ flavour symmetry, Nguyen Anh Ky, Phi Quang Van, Nguyen Thi Hong Van, Phys. Rev. D94 (2016) 095009, arXiv:1610.00304.
[AnhKy:2016ten]
[21-1093]
Perturbation to TBM mixing and its phenomenological implications, Sruthilaya M., Srinu Gollu, Mod.Phys.Lett.A 31 (2016) 1650207, arXiv:1609.09609.
[Sruthilaya:2016bzy]
[21-1094]
Leptoquark Flavor Patterns and B Decay Anomalies, Gudrun Hiller, Dennis Loose, Kay Schonwald, JHEP 1612 (2016) 027, arXiv:1609.08895.
[Hiller:2016kry]
[21-1095]
Relation between proton decay and PMNS phase in the minimal SUSY $SO(10)$ GUT, Takeshi Fukuyama, Koji Ichikawa, Yukihiro Mimura, Phys.Lett. B764 (2017) 114-120, arXiv:1609.08640.
[Fukuyama:2016vgi]
[21-1096]
Probing nonstandard neutrino cosmology with terrestrial neutrino experiments, Akshay Ghalsasi, David McKeen, Ann E. Nelson, Phys.Rev. D95 (2017) 115039, arXiv:1609.06326.
[Ghalsasi:2016pcj]
[21-1097]
A neutrino mass model with S3 symmetry and see-saw interplay, Soumita Pramanick, Amitava Raychaudhuri, Phys. Rev. D94 (2016) 115028, arXiv:1609.06103.
[Pramanick:2016mdp]
[21-1098]
Starobinsky-Like Inflation and Neutrino Masses in a No-Scale SO(10) Model, John Ellis, Marcos A. G. Garcia, Natsumi Nagata, Dimitri V. Nanopoulos, Keith A. Olive, JCAP 1611 (2016) 018, arXiv:1609.05849.
[Ellis:2016ipm]
[21-1099]
Phenomenology of minimal Z' models: from the LHC to the GUT scale, Elena Accomando, Claudio Coriano, Luigi Delle Rose, Juri Fiaschi, Carlo Marzo, Stefano Moretti, EPJ Web Conf. 129 (2016) 00006, arXiv:1609.05029.
[Accomando:2016eom]
[21-1100]
Observable Lepton Number Violation with Predominantly Dirac Nature of Active Neutrinos, Debasish Borah, Arnab Dasgupta, JHEP 1701 (2017) 072, arXiv:1609.04236.
[Borah:2016hqn]
[21-1101]
Precise predictions of neutrino mixing angles and $CP$ phase, Gauhar Abbas, Mehran Zahiri Abyaneh, Phys.Rev. D95 (2017) 075005, arXiv:1609.03886.
[Abbas:2016qbl]
[21-1102]
Phenomenology of the $ SU(3)_C \otimes SU(2)_L \otimes SU(3)_R \otimes U(1)_X $ gauge model, P. V. Dong, D. T. Huong, D. V. Loi, N. T. Nhuan, N. T. K. Ngan, Phys.Rev. D95 (2017) 075034, arXiv:1609.03444.
[Dong:2016gxl]
[21-1103]
Neutrino Masses and Scalar Singlet Dark Matter, Subhaditya Bhattacharya, Sudip Jana, S. Nandi, Phys.Rev. D95 (2017) 055003, arXiv:1609.03274.
[Bhattacharya:2016qsg]
[21-1104]
CP violating phase from minimal texture neutrino mass matrix: Test of the phase relevant to leptogenesis, Masataka Fukugita, Yuya Kaneta, Yusuke Shimizu, Morimitsu Tanimoto, Tsutomu T. Yanagida, Phys.Lett. B764 (2017) 163-166, arXiv:1609.01864.
[Fukugita:2016hzf]
[21-1105]
Obtaining nonvanishing $\theta_{13}$ with constrained neutrino Yukawa matrix and implications for flavor model buildings, Ya Zhao, Mod.Phys.Lett. A32 (2017) 1750080, arXiv:1608.08519.
[Zhao:2016qkd]
[21-1106]
Leptoquark model to explain the $B$-physics anomalies, $R_K$ and $R_D$, Damir Becirevic, Svjetlana Fajfer, Nejc Kosnik, Olcyr Sumensari, Phys. Rev. D94 (2016) 115021, arXiv:1608.08501.
[Becirevic:2016yqi]
[21-1107]
Charged Lepton Flavor-violating Transitions in Color Octet Model, Bin Li, Yi Liao, Xiao-Dong Ma, Eur.Phys.J. C76 (2016) 615, arXiv:1608.07785.
[Li:2016dou]
[21-1108]
Naturally Stable Right-Handed Neutrino Dark Matter, P. S. Bhupal Dev, Rabindra N. Mohapatra, Yongchao Zhang, JHEP 1611 (2016) 077, arXiv:1608.06266.
[BhupalDev:2016gna]
[21-1109]
Charged Lepton Flavor Violating Processes and Scalar Leptoquark Decay Branching Ratios in the Colored Zee-Babu Model, We-Fu Chang, Siao-Cing Liou, Chi-Fong Wong, Fanrong Xu, JHEP 1610 (2016) 106, arXiv:1608.05511.
[Chang:2016zll]
[21-1110]
Neutrino Mass, Dark Matter and Anomalous Magnetic Moment of Muon in a $U(1)_{L_{\mu}-L_{\tau}}$ Model, Anirban Biswas, Sandhya Choubey, Sarif Khan, JHEP 1609 (2016) 147, arXiv:1608.04194.
[Biswas:2016yan]
[21-1111]
$A_4$ and CP symmetry and a model with maximal CP violation, Cai-Chang Li, Jun-Nan Lu, Gui-Jun Ding, Nucl. Phys. B913 (2016) 110-131, arXiv:1608.01860.
[Li:2016nap]
[21-1112]
Phenomenology of an $SU(2) \times SU(2) \times U(1)$ model with lepton-flavour non-universality, Sofiane M. Boucenna, Alejandro Celis, Javier Fuentes-Martin, Avelino Vicente, Javier Virto, JHEP 1612 (2016) 059, arXiv:1608.01349.
[Boucenna:2016qad]
[21-1113]
Neutrino Oscillations as a Probe of Light Scalar Dark Matter, Asher Berlin, Phys. Rev. Lett. 117 (2016) 231801, arXiv:1608.01307.
[Berlin:2016woy]
[21-1114]
Edge of a cliff, Yusuke Shimizu, Yoshiyuki Tatsuta, JHEP 1610 (2016) 040, arXiv:1608.00200.
[Shimizu:2016eih]
[21-1115]
Multiple-point principle with a scalar singlet extension of the Standard Model, Naoyuki Haba, Hiroyuki Ishida, Nobuchika Okada, Yuya Yamaguchi, PTEP 2017 (2017) 013B03, arXiv:1608.00087.
[Haba:2016gqx]
[21-1116]
Testing neutrino mass generation mechanisms from the lepton flavor violating decay of the Higgs boson, Mayumi Aoki, Shinya Kanemura, Kodai Sakurai, Hiroaki Sugiyama, Phys.Lett. B763 (2016) 352-357, arXiv:1607.08548.
[Aoki:2016wyl]
[21-1117]
Zeros in the magic neutrino mass matrix, Radha Raman Gautam, Sanjeev Kumar, Phys. Rev. D94 (2016) 036004, arXiv:1607.08328.
[Gautam:2016qyw]
[21-1118]
Deviations in Tribimaximal Mixing From Sterile Neutrino Sector, S. Dev, Desh Raj, Radha Raman Gautam, Nucl. Phys. B911 (2016) 744-753, arXiv:1607.08051.
[Dev:2016bml]
[21-1119]
Perspectives for tests of neutrino mass generation at the GeV scale: Experimental reach versus theoretical predictions, Rasmus W. Rasmussen, Walter Winter, Phys. Rev. D94 (2016) 073004, arXiv:1607.07880.
[Rasmussen:2016njh]
[21-1120]
Neutrinophilic Non-Standard Interactions, Yasaman Farzan, Julian Heeck, Phys. Rev. D94 (2016) 053010, arXiv:1607.07616.
[Farzan:2016wym]
[21-1121]
$E_6$ and a 750 GeV Di-photon Resonance, Aniket Joglekar, Jonathan L. Rosner, Phys.Rev. D96 (2017) 015026, arXiv:1607.06900.
[Joglekar:2016yap]
[21-1122]
Lepton flavor violating Z' explanation of the muon anomalous magnetic moment, Wolfgang Altmannshofer, Chien-Yi Chen, P. S. Bhupal Dev, Amarjit Soni, Phys.Lett. B762 (2016) 389-398, arXiv:1607.06832.
[Altmannshofer:2016brv]
[21-1123]
Delta(54) flavor phenomenology and strings, Brenda Carballo-Perez, Eduardo Peinado, Saul Ramos-Sanchez, JHEP 1612 (2016) 131, arXiv:1607.06812.
[Carballo-Perez:2016ooy]
[21-1124]
Lepton number violation in 331 models, Renato M. Fonseca, Martin Hirsch, Phys. Rev. D94 (2016) 115003, arXiv:1607.06328.
[Fonseca:2016xsy]
[21-1125]
Flavon-induced connections between lepton flavour mixing and charged lepton flavour violation processes, Silvia Pascoli, Ye-Ling Zhou, JHEP 1610 (2016) 145, arXiv:1607.05599.
[Pascoli:2016wlt]
[21-1126]
Non-zero $\theta_{13}$ with Unbroken $\mu-\tau$ Symmetry of the Active Neutrino Mass Matrix in the Presence of a Light Sterile Neutrino, Debasish Borah, Phys.Rev. D95 (2017) 035016, arXiv:1607.05556.
[Borah:2016fqj]
[21-1127]
Light sterile neutrinos from a late phase transition, Luca Vecchi, Phys. Rev. D94 (2016) 113015, arXiv:1607.04161.
[Vecchi:2016lty]
[21-1128]
Gauged $U(1)_{L_\mu- L_\tau}$ model in light of muon $g-2$ anomaly, neutrino mass and dark matter phenomenology, Sudhanwa Patra, Soumya Rao, Nirakar Sahoo, Narendra Sahu, Nucl.Phys. B917 (2017) 317-336, arXiv:1607.04046.
[Patra:2016shz]
[21-1129]
Two-loop Dirac neutrino mass and WIMP dark matter, Cesar Bonilla, Ernest Ma, Eduardo Peinado, Jose W.F. Valle, Phys.Lett. B762 (2016) 214-218, arXiv:1607.03931.
[Bonilla:2016diq]
[21-1130]
Neutrino Jets from High-Mass $W_R$ Gauge Bosons in TeV-Scale Left-Right Symmetric Models, Manimala Mitra, Richard Ruiz, Darren J. Scott, Michael Spannowsky, Phys. Rev. D94 (2016) 095016, arXiv:1607.03504.
[Mitra:2016kov]
[21-1131]
Higgs mass from neutrino-messenger mixing, Pritibhajan Byakti, Charanjit K Khosa, V. Suryanarayana Mummidi, Sudhir K Vempati, JHEP 1703 (2017) 028, arXiv:1607.03447.
[Byakti:2016ayi]
[21-1132]
Implications of Fermionic Dark Matter on recent neutrino oscillation data, Shivaramakrishna Singirala, Chin.Phys. C41 (2017) 043102, arXiv:1607.03309.
[Singirala:2016kam]
[21-1133]
Sterile Neutrino portal to Dark Matter II: Exact Dark symmetry, Miguel Escudero, Nuria Rius, Veronica Sanz, Eur.Phys.J. C77 (2017) 397, arXiv:1607.02373.
[Escudero:2016ksa]
[21-1134]
Neutrino Mass Generation and 750 GeV Diphoton excess via photon-photon fusion at the Lage Hadron Collider, Kirtiman Ghosh, Sudip Jana, S. Nandi, arXiv:1607.01910, 2016.
[Ghosh:2016lnu]
[21-1135]
Freeze-in Production of Sterile Neutrino Dark Matter in U(1)$_{\rm B-L}$ Model, Anirban Biswas, Aritra Gupta, JCAP 1609 (2016) 044, arXiv:1607.01469.
[Biswas:2016bfo]
[21-1136]
Implications of $\delta^{CP}_l\sim 270^\circ$ and $\theta_{23}\gtrsim 45^\circ$ for texture specific lepton mass matrices and $0\nu\beta\beta$ decay, Rohit Verma, Adv.High Energy Phys. 2016 (2016) 2094323, arXiv:1607.00958.
[Verma:2016qhy]
[21-1137]
Clues on the Majorana scale from scalar resonances at the LHC, Oliver Fischer, Mod.Phys.Lett. A32 (2017) 1750035, arXiv:1607.00282.
[Fischer:2016rsh]
[21-1138]
Simple Left-Right Theory: Lepton Number Violation at the LHC, Pavel Fileviez Perez, Clara Murgui, Sebastian Ohmer, Phys. Rev. D94 (2016) 051701, arXiv:1607.00246.
[FileviezPerez:2016erl]
[21-1139]
Light Sterile Neutrino and Dark Matter in Left-Right Symmetric Models Without Higgs Bidoublet, Debasish Borah, Phys. Rev. D94 (2016) 075024, arXiv:1607.00244.
[Borah:2016lrl]
[21-1140]
Scalar-mediated double beta decay and LHC, L. Gonzales, J.C. Helo, M. Hirsch, S.G. Kovalenko, JHEP 12 (2016) 130, arXiv:1606.09555.
[Gonzalez:2016ztm]
[21-1141]
Right-handed neutrino dark matter under the B-L gauge interaction, Kunio Kaneta, Zhaofeng Kang, Hye-Sung Lee, JHEP 02 (2017) 031, arXiv:1606.09317.
[Kaneta:2016vkq]
[21-1142]
Neutrino masses from an approximate mixing matrix with $\theta_{13}\neq 0$, Asan Damanik, arXiv:1606.08843, 2016.
[Damanik:2016psb]
[21-1143]
Leptoquarks: 750 GeV Diphoton Resonance and IceCube Events, Ujjal Kumar Dey, Subhendra Mohanty, Gaurav Tomar, arXiv:1606.07903, 2016.
[Dey:2016sht]
[21-1144]
Predicting CP Violation from Flavor Symmetry in a Lepton Quarticity Dark Matter Model, Salvador Centelles Chulia, Rahul Srivastava, Jose W.F. Valle, Phys.Lett. B761 (2016) 431-436, arXiv:1606.06904.
[CentellesChulia:2016fxr]
[21-1145]
On neutrinoless double beta decay in the $\nu$MSM, Takehiko Asaka, Shintaro Eijima, Hiroyuki Ishida, Phys.Lett. B762 (2016) 371-375, arXiv:1606.06686.
[Asaka:2016zib]
[21-1146]
Neutrino masses from a pseudo-Dirac Bino, Pilar Coloma, Seyda Ipek, Phys. Rev. Lett. 117 (2016) 111803, arXiv:1606.06372.
[Coloma:2016vod]
[21-1147]
CP Symmetry and Lepton Mixing from a Scan of Finite Discrete Groups, Chang-Yuan Yao, Gui-Jun Ding, Phys. Rev. D94 (2016) 073006, arXiv:1606.05610.
[Yao:2016zev]
[21-1148]
Analysis of the Lepton Mixing Matrix in the Two Higgs Doublet Model, E. Barradas-Guevara, O. Felix-Beltran, F. Gonzalez-Canales, E. Rodriguez-Jauregui, M. Zeleny-Mora, arXiv:1606.05388, 2016.
[Barradas-Guevara:2016gda]
[21-1149]
Radiative neutrino models in light of diphoton signals, Oleg Antipin, Petar Culjak, Kresimir Kumericki, Ivica Picek, arXiv:1606.05163, 2016.
[Antipin:2016awv]
[21-1150]
Majorana Neutrino Masses from Neutrinoless Double-Beta Decays and Lepton-Number-Violating Meson Decays, Jun-Hao Liu, Jue Zhang, Shun Zhou, Phys.Lett. B760 (2016) 571, arXiv:1606.04886.
[Liu:2016oph]
[21-1151]
An electroweak basis for neutrinoless double $\beta$ decay, Michael L. Graesser, JHEP 1708 (2017) 099, arXiv:1606.04549.
[Graesser:2016bpz]
[21-1152]
Dirac Neutrinos and Dark Matter Stability from Lepton Quarticity, Salvador Centelles Chulia, Ernest Ma, Rahul Srivastava, Jose W.F. Valle, Phys.Lett. B767 (2017) 209-213, arXiv:1606.04543.
[CentellesChulia:2016rms]
[21-1153]
Heavy right-handed neutrino dark matter and PeV neutrinos at IceCube, P. S. Bhupal Dev, D. Kazanas, R. N. Mohapatra, V. L. Teplitz, Yongchao Zhang, JCAP 1608 (2016) 034, arXiv:1606.04517.
[Dev:2016qbd]
[21-1154]
Early Decay of Peccei-Quinn Fermion and the IceCube Neutrino Events, Yohei Ema, Takeo Moroi, Phys.Lett. B762 (2016) 353-361, arXiv:1606.04186.
[Ema:2016zzu]
[21-1155]
Analysis of four-zero textures in $3+1$ framework, Debasish Borah, Monojit Ghosh, Shivani Gupta, Suprabh Prakash, Sushant K. Raut, Phys. Rev. D94 (2016) 113001, arXiv:1606.02076.
[Borah:2016xkc]
[21-1156]
Higgs mass and right-handed sneutrino WIMP in a supersymmetric 3-3-1 model, C. A. de S. Pires, P. S. Rodrigues da Silva, A. C. O. Santos, Clarissa Siqueira, Phys. Rev. D94 (2016) 055014, arXiv:1606.01853.
[deSPires:2016kkg]
[21-1157]
Neutrino masses and mixing in $A_5$ with flavour antisymmetry, Anjan S Joshipura, Newton Nath, Phys. Rev. D94 (2016) 036008, arXiv:1606.01697.
[Joshipura:2016hvn]
[21-1158]
Bound States via Higgs Exchanging and Resonant Di-Higgs, Zhaofeng Kang, Phys.Lett. B771 (2017) 313-317, arXiv:1606.01531.
[Kang:2016wqi]
[21-1159]
Sterile neutrino portal to Dark Matter I: The $U(1)_{B-L}$ case, Miguel Escudero, Nuria Rius, Veronica Sanz, JHEP 1702 (2017) 045, arXiv:1606.01258.
[Escudero:2016tzx]
[21-1160]
R-parity Violating Supersymmetry at IceCube, P. S. Bhupal Dev, Dilip Kumar Ghosh, Werner Rodejohann, Phys.Lett. B762 (2016) 116-123, arXiv:1605.09743.
[Dev:2016uxj]
[21-1161]
Right-Handed Neutrinos and T-Violating, P-Conserving Interactions, Basem Kamal El-Menoufi, Michael J. Ramsey-Musolf, Chien-Yeah Seng, Phys.Lett. B765 (2017) 62-66, arXiv:1605.09060.
[El-Menoufi:2016cfo]
[21-1162]
Multi-step production of a diphoton resonance, Bogdan A. Dobrescu, Patrick J. Fox, John Kearney, J.Phys. G44 (2017) 065003, arXiv:1605.08772.
[Dobrescu:2016owc]
[21-1163]
Naturally light neutrinos in $Diracon$ model, Cesar Bonilla, Jose W.F. Valle, Phys.Lett. B762 (2016) 162-165, arXiv:1605.08362.
[Bonilla:2016zef]
[21-1164]
Radiative accidental matter, D. Aristizabal Sierra, C. Simoes, D. Wegman, JHEP 1607 (2016) 124, arXiv:1605.08267.
[AristizabalSierra:2016sux]
[21-1165]
Higgs lepton flavour violation: UV completions and connection to neutrino masses, Juan Herrero-Garcia, Nuria Rius, Arcadi Santamaria, JHEP 1611 (2016) 084, arXiv:1605.06091.
[Herrero-Garcia:2016uab]
[21-1166]
Non-zero $\theta_{13}$ and leptonic CP phase with $A_4$ Symmetry, Sruthilaya M., R. Mohanta, Eur.Phys.J. C77 (2017) 140, arXiv:1605.06029.
[Sruthilaya:2016ihi]
[21-1167]
Ruling out minimal anomaly free $\mathrm{U}(1)$ extensions of the Standard Model, Andreas Ekstedt, Rikard Enberg, Gunnar Ingelman, Johan Lofgren, Tanumoy Mandal, JHEP 1611 (2016) 071, arXiv:1605.04855.
[Ekstedt:2016wyi]
[21-1168]
Predictions for the Majorana CP Violation Phases in the Neutrino Mixing Matrix and Neutrinoless Double Beta Decay, I. Girardi, S. T. Petcov, A. V. Titov, Nucl. Phys. B911 (2016) 754-804, arXiv:1605.04172.
[Girardi:2016zwz]
[21-1169]
Probing Radiative Neutrino Mass Models Using Trilepton Channel at the LHC, Dounia Cherigui, Chahrazed Guella, Amine Ahriche, Salah Nasri, Phys.Lett. B762 (2016) 225-231, arXiv:1605.03640.
[Cherigui:2016tbm]
[21-1170]
$Z'$, Higgses and heavy neutrinos in $U(1)'$ models: from the LHC to the GUT scale, Elena Accomando et al., JHEP 1607 (2016) 086, arXiv:1605.02910.
[Accomando:2016sge]
[21-1171]
Lepton Flavor Violation in the singlet-triplet scotogenic model, Paulina Rocha-Moran, Avelino Vicente, JHEP 1607 (2016) 078, arXiv:1605.01915.
[Rocha-Moran:2016enp]
[21-1172]
Hierarchy spectrum of SM fermions: from top quark to electron neutrino, She-Sheng Xue, JHEP 1611 (2016) 072, arXiv:1605.01266.
[Xue:2016dpl]
[21-1173]
Neutrino masses and superheavy dark matter in the 3-3-1-1 model, D. T. Huong, P. V. Dong, Eur.Phys.J. C77 (2017) 204, arXiv:1605.01216.
[Huong:2016ybt]
[21-1174]
Classically conformal U(1)' extended standard model, electroweak vacuum stability, and LHC Run-2 bounds, Arindam Das, Satsuki Oda, Nobuchika Okada, Dai-suke Takahashi, Phys. Rev. D93 (2016) 115038, arXiv:1605.01157.
[Das:2016zue]
[21-1175]
Gauge $B-L$ Model of Radiative Neutrino Mass with Multipartite Dark Matter, Ernest Ma, Nicholas Pollard, Oleg Popov, Mohammadreza Zakeri, Mod.Phys.Lett. A31 (2016) 1650163, arXiv:1605.00991.
[Ma:2016nnn]
[21-1176]
Global $U(1)_{L}$ Breaking in Neutrinophilic 2HDM: From LHC Signatures to X-Ray Line, Weijian Wang, Zhi-Long Han, Phys. Rev. D94 (2016) 053015, arXiv:1605.00239.
[Wang:2016vfj]
[21-1177]
Stable lepton mass matrices, Valerie Domcke, Andrea Romanino, JHEP 06 (2016) 031, arXiv:1604.08879.
[Domcke:2016mzc]
[21-1178]
Left-Right Symmetry and Lepton Number Violation at the Large Hadron Electron Collider, Manfred Lindner, Farinaldo S. Queiroz, Werner Rodejohann, Carlos E. Yaguna, JHEP 06 (2016) 140, arXiv:1604.08596.
[Lindner:2016lxq]
[21-1179]
Lepton number violating processes in the minimal 3-3-1 model with sterile neutrinos, A. C. B. Machado, J. Montano, V. Pleitez, J.Phys. G46 (2019) 115005, arXiv:1604.08539.
[Machado:2016jzb]
[21-1180]
Lepton mixing patterns from combinations of elementary correlations, Shu-jun Rong, Phys. Rev. D93 (2016) 013010, arXiv:1604.08026.
[Rong:2016wvw]
[21-1181]
An SU(6) GUT Origin of the TeV-Scale Vector-like Particles Associated with the 750 GeV Diphoton Resonance, Bhaskar Dutta et al., Phys. Rev. D94 (2016) 036006, arXiv:1604.07838.
[Dutta:2016ach]
[21-1182]
Baryogenesis from leptomesons, Dmitry Zhuridov, Phys. Rev. D94 (2016) 035007, arXiv:1604.07740.
[Zhuridov:2016xls]
[21-1183]
Dilepton bounds on left-right symmetry at the LHC run II and neutrinoless double beta decay, Manfred Lindner, Farinaldo S. Queiroz, Werner Rodejohann, Phys.Lett. B762 (2016) 190-195, arXiv:1604.07419.
[Lindner:2016lpp]
[21-1184]
Extended scaling and residual flavor symmetry in the neutrino Majorana mass matrix, Rome Samanta, Probir Roy, Ambar Ghosal, Eur.Phys.J. C76 (2016) 662, arXiv:1604.06731.
[Samanta:2016wca]
[21-1185]
Two-Higgs-doublet models with maximally restrictive leptonic texture zeros, R. Gonzalez Felipe, H. Serodio, J.Phys. G44 (2017) 065002, arXiv:1604.06724.
[GonzalezFelipe:2016tkv]
[21-1186]
Galactic Gamma Ray Excess and Dark Matter Phenomenology in a $U(1)_{B-L}$ Model, Anirban Biswas, Sandhya Choubey, Sarif Khan, JHEP 1608 (2016) 114, arXiv:1604.06566.
[Biswas:2016ewm]
[21-1187]
Shedding Light on Neutrino Masses with Dark Forces, Brian Batell, Maxim Pospelov, Brian Shuve, JHEP 1608 (2016) 052, arXiv:1604.06099.
[Batell:2016zod]
[21-1188]
Classifying CP transformations according to their texture zeros: theory and implications, Peng Chen, Gui-Jun Ding, Felix Gonzalez-Canales, J. W. F. Valle, Phys. Rev. D94 (2016) 033002, arXiv:1604.03510.
[Chen:2016ica]
[21-1189]
General lepton textures and their implications, Gulsheen Ahuja, Samandeep Sharma, Priyanka Fakay, Manmohan Gupta, Mod.Phys.Lett. A30 (2015) 1530025, arXiv:1604.03339.
[Ahuja:2015gqa]
[21-1190]
Occam's Razor in Lepton Mass Matrices - The Sign of Universe's Baryon Asymmetry -, Yuya Kaneta, Yusuke Shimizu, Morimitsu Tanimoto, Tsutomu T. Yanagida, PTEP 2016 (2016) 063B03, arXiv:1604.03315.
[Kaneta:2016gbq]
[21-1191]
Lepton flavor violating decay of SM-like Higgs in a radiative neutrino mass model, T. T. Thuc, L. T. Hue, H. N. Long, T. Phong Nguyen, Phys. Rev. D93 (2016) 115026, arXiv:1604.03285.
[Thuc:2016qva]
[21-1192]
Di-Higgs signatures from R-parity violating supersymmetry as the origin of neutrino mass, Sanjoy Biswas, Eung Jin Chun, Pankaj Sharma, JHEP 1612 (2016) 062, arXiv:1604.02821.
[Biswas:2016ffy]
[21-1193]
Common Origin of $3.55$ keV X-ray line and Gauge Coupling Unification with Left-Right Dark Matter, Debasish Borah, Arnab Dasgupta, Sudhanwa Patra, Phys.Rev. D96 (2017) 115019, arXiv:1604.01929.
[Borah:2016ees]
[21-1194]
Physics from solar neutrinos in dark matter direct detection experiments, David G. Cerdeno, Malcolm Fairbairn, Thomas Jubb, Pedro A. N. Machado, Aaron C. Vincent, Celine Boehm, JHEP 05 (2016) 118, arXiv:1604.01025. [Erratum: JHEP 09, 048 (2016)].
[Cerdeno:2016sfi]
[21-1195]
The role of flavon cross couplings in leptonic flavour mixing, Silvia Pascoli, Ye-Ling Zhou, JHEP 1606 (2016) 073, arXiv:1604.00925.
[Pascoli:2016eld]
[21-1196]
Signatures of sneutrino dark matter in an extension of the CMSSM, Shankha Banerjee, Genevieve Belanger, Biswarup Mukhopadhyaya, Pasquale D. Serpico, JHEP 1607 (2016) 095, arXiv:1603.08834.
[Banerjee:2016uyt]
[21-1197]
Probing Models of Dirac Neutrino Masses via the Flavor Structure of the Mass Matrix, Shinya Kanemura, Kodai Sakurai, Hiroaki Sugiyama, Phys.Lett. B758 (2016) 465, arXiv:1603.08679.
[Kanemura:2016ixx]
[21-1198]
Revisiting the texture zero neutrino mass matrices, Madan Singh, Gulsheen Ahuja, Manmohan Gupta, PTEP 2016 (2016) 123B08, arXiv:1603.08083.
[Singh:2016qcf]
[21-1199]
Leptoquark patterns unifying neutrino masses, flavor anomalies and the diphoton excess, F. F. Deppisch, S. Kulkarni, H. Pas, E. Schumacher, Phys. Rev. D94 (2016) 013003, arXiv:1603.07672.
[Deppisch:2016qqd]
[21-1200]
Quasi-degenerate Neutrino mass models and their significance: A model independent investigation, S. Roy, N. N Singh, Nucl. Phys. B877 (2013) 321-342, arXiv:1603.07246.
[Roy:2013yka]
[21-1201]
Consistency of WIMP Dark Matter as radiative neutrino mass messenger, Alexander Merle, Moritz Platscher, Nicolas Rojas, Jose W. F. Valle, Avelino Vicente, JHEP 1607 (2016) 013, arXiv:1603.05685.
[Merle:2016scw]
[21-1202]
Short Wavelength Oscillations with Right-Handed Neutrinos, Emmanuel A. Paschos, arXiv:1603.05595, 2016.
[Paschos:2016tot]
[21-1203]
The 750 GeV Diphoton excess, Dark Matter and Constraints from the IceCube experiment, Enrico Morgante, Davide Racco, Mohamed Rameez, Antonio Riotto, JHEP 1607 (2016) 141, arXiv:1603.05592.
[Morgante:2016cfv]
[21-1204]
Unifying the flavor origin of dark matter with leptonic nonzero $\theta_{13}$, Subhaditya Bhattacharya, Biswajit Karmakar, Narendra Sahu, Arunansu Sil, Phys. Rev. D93 (2016) 115041, arXiv:1603.04776.
[Bhattacharya:2016lts]
[21-1205]
Closing in on minimal dark matter and radiative neutrino masses, D. Aristizabal Sierra, C. Simoes, D. Wegman, JHEP 1606 (2016) 108, arXiv:1603.04723.
[AristizabalSierra:2016vog]
[21-1206]
Radiative Seesaw Model with Degenerate Majorana Dark Matter, Takaaki Nomura, Hiroshi Okada, Yuta Orikasa, Phys. Rev. D93 (2016) 113008, arXiv:1603.04631.
[Nomura:2016vxr]
[21-1207]
The leptonic CP phase is determined by an equation involving the PMNS matrix elements, Hong-Wei Ke, Jia-Hui Zhou, Xue-Qian Li, J.Phys. G44 (2017) 045001, arXiv:1603.02769.
[Ke:2016bwh]
[21-1208]
Leptonic CP phases near the $\mu-\tau$ symmetric limit, Diana C. Rivera-Agudelo, Abdel Perez-Lorenzana, Phys.Lett. B760 (2016) 153-157, arXiv:1603.02336.
[Rivera-Agudelo:2016kjj]
[21-1209]
Propose economical and stable lepton mass matrices with texture zeros, Shu-jun Rong, Adv.High Energy Phys. 2017 (2017) 8785076, arXiv:1603.02230.
[Rong:2016stk]
[21-1210]
A CP-violating phase in a two Higgs triplet scenario : some phenomenological implications, Avinanda Chaudhuri, Biswarup Mukhopadhyaya, Phys. Rev. D93 (2016) 093003, arXiv:1602.07846.
[Chaudhuri:2016rwo]
[21-1211]
Consequences of an Abelian $Z'$ for neutrino oscillations and dark matter, Ryan Plestid, Phys. Rev. D93 (2016) 035011, arXiv:1602.06651.
[Plestid:2016esp]
[21-1212]
Probing the Higgs Sector of the Minimal Left-Right Symmetric Model at Future Hadron Colliders, P. S. Bhupal Dev, Rabindra N. Mohapatra, Yongchao Zhang, JHEP 1605 (2016) 174, arXiv:1602.05947.
[Dev:2016dja]
[21-1213]
Vacuum Stability and Radiative Electroweak Symmetry Breaking in an SO(10) Dark Matter Model, Yann Mambrini, Natsumi Nagata, Keith A. Olive, Jiaming Zheng, Phys. Rev. D93 (2016) 111703, arXiv:1602.05583.
[Mambrini:2016dca]
[21-1214]
Lepton flavor violation and scalar dark matter in a radiative model of neutrino masses, Michael Klasen, David R. Lamprea, Carlos E. Yaguna, Eur.Phys.J. C78 (2018) 88, arXiv:1602.05137.
[Esch:2016jyx]
[21-1215]
Lepton flavor violation with light vector bosons, Julian Heeck, Phys.Lett. B758 (2016) 101, arXiv:1602.03810.
[Heeck:2016xkh]
[21-1216]
Linking radiative seesaw-type mechanism of fermion masses and non-trivial quark mixing with the 750 GeV diphoton excess, Carolina Arbelaez, A. E. Carcamo Hernandez, Sergey Kovalenko, Ivan Schmidt, Eur.Phys.J. C77 (2017) 422, arXiv:1602.03607.
[Arbelaez:2016mhg]
[21-1217]
Invisible $K_L$ decays in the SM extensions, S.N. Gninenko, N.V. Krasnikov, Mod.Phys.Lett. A31 (2016) 1650142, arXiv:1602.03548.
[Gninenko:2016rjm]
[21-1218]
Long-range contributions to double beta decay revisited, J.C. Helo, M. Hirsch, T. Ota, JHEP 1606 (2016) 006, arXiv:1602.03362.
[Helo:2016vsi]
[21-1219]
Lepton flavour violating decays of $\mu$ and $\tau$ lepton in a gauge group $SU_L(2)\times SU_R(2)\times SU_l(2)$, Fayyazuddin, Int.J.Mod.Phys. A31 (2016) 1650094, arXiv:1602.02248.
[Fayyazuddin:2016odu]
[21-1220]
Probing a slepton Higgs on all frontiers, Carla Biggio, Jeff Asaf Dror, Yuval Grossman, Wee Hao Ng, JHEP 1604 (2016) 150, arXiv:1602.02162.
[Biggio:2016sdu]
[21-1221]
Lepton Flavor Violating Decays of Neutral Higgses in Extended Mirror Fermion Model, Chia-Feng Chang, Chia-Hung Vincent Chang, Chrisna Setyo Nugroho, Tzu-Chiang Yuan, Nucl. Phys. B910 (2016) 293-308, arXiv:1602.00680.
[Chang:2016ave]
[21-1222]
Isocurvature Constraints on Portal Couplings, Kimmo Kainulainen, Sami Nurmi, Tommi Tenkanen, Kimmo Tuominen, Ville Vaskonen, JCAP 1606 (2016) 022, arXiv:1601.07733.
[Kainulainen:2016vzv]
[21-1223]
$Z^\prime_{BL}$ portal dark matter and LHC Run-2 results, Nobuchika Okada, Satomi Okada, Phys. Rev. D93 (2016) 075003, arXiv:1601.07526.
[Okada:2016gsh]
[21-1224]
Neutrino Mass and Proton Decay in a Realistic Supersymmetric SO(10) Model, Matthew Severson, arXiv:1601.06478, 2016.
[Severson:2016rqb]
[21-1225]
Lepton Mixing Predictions from Infinite Group Series $D^{(1)}_{9n, 3n}$ with Generalized CP, Cai-Chang Li, Chang-Yuan Yao, Gui-Jun Ding, JHEP 1605 (2016) 007, arXiv:1601.06393.
[Li:2016ppt]
[21-1226]
Radiative Neutrino Mass with $Z_3$ Dark matter: From Relic Density to LHC Signatures, Ran Ding, Zhi-Long Han, Yi Liao, Wan-Peng Xie, JHEP 1605 (2016) 030, arXiv:1601.06355.
[Ding:2016wbd]
[21-1227]
Neutrino observables from predictive flavour patterns, Luis M. Cebola, David Emmanuel-Costa, Ricardo Gonzalez Felipe, Eur.Phys.J. C76 (2016) 156, arXiv:1601.06150.
[Cebola:2016jhz]
[21-1228]
Testing the 2-TeV Resonance with Trileptons, Arindam Das, Natsumi Nagata, Nobuchika Okada, JHEP 1603 (2016) 049, arXiv:1601.05079.
[Das:2016akd]
[21-1229]
Renormalizable Model for Neutrino Mass, Dark Matter, Muon $g-2$ and 750 GeV Diphoton Excess, Hiroshi Okada, Kei Yagyu, Phys.Lett. B756 (2016) 337-344, arXiv:1601.05038.
[Okada:2016rav]
[21-1230]
Flavor changing nucleon decay, Nobuhiro Maekawa, Yu Muramatsu, Phys.Lett. B767 (2017) 398-402, arXiv:1601.04789.
[Maekawa:2016tqi]
[21-1231]
Four-loop Radiative Seesaw Model with 750 GeV Diphoton Resonance, Takaaki Nomura, Hiroshi Okada, Phys.Lett. B770 (2017) 307-313, arXiv:1601.04516.
[Nomura:2016seu]
[21-1232]
Probing Radiative Neutrino Mass Models with Dilepton Events at the LHC, Chahrazed Guella, Dounia Cherigui, Amine Ahriche, Salah Nasri, Rachik Soualah, Phys. Rev. D93 (2016) 095022, arXiv:1601.04342.
[Guella:2016dwo]
[21-1233]
Neutrino mixing and CP violation from Dirac-Majorana mixing, Junpei Harada, arXiv:1601.04089, 2016.
[Harada:2015vzj]
[21-1234]
The $\Delta(27)$ flavor 3-3-1 model with neutral leptons, V. V. Vien, A. E. Carcamo Hernandez, H. N. Long, Nucl. Phys. B913 (2016) 792-814, arXiv:1601.03300.
[Vien:2016tmh]
[21-1235]
Interpretation of 750 GeV Diphoton Excess at LHC in Singlet Extension of Color-octet Neutrino Mass Model, Ran Ding, Zhi-Long Han, Yi Liao, Xiao-Dong Ma, Eur.Phys.J. C76 (2016) 204, arXiv:1601.02714.
[Ding:2016ldt]
[21-1236]
Hidden Gauged U(1) Model: Unifying Scotogenic Neutrino and Flavor Dark Matter, Jiang-Hao Yu, Phys. Rev. D93 (2016) 113007, arXiv:1601.02609.
[Yu:2016lof]
[21-1237]
Mass Spectrum and Higgs Profile in BLSSM, Cem Salih Un, Ozer Ozdal, Phys. Rev. D93 (2016) 055024, arXiv:1601.02494.
[Un:2016hji]
[21-1238]
750 GeV Diphoton excess from Gauged $B-L$ Symmetry, Tanmoy Modak, Soumya Sadhukhan, Rahul Srivastava, Phys.Lett. B756 (2016) 405-412, arXiv:1601.00836.
[Modak:2016ung]
[21-1239]
Some New Symmetric Relations and the Prediction of Left and Right Handed Neutrino Masses using Koide's Relation, Yong-Chang Huang, Syeda Tehreem Iqbal, Zhen Lei, Wen-Yu Wang, Chin.Phys. C41 (2017) 043104, arXiv:1601.00754.
[Huang:2016ocs]
[21-1240]
On the possible new 750 GeV heavy boson resonance at the LHC, Davor Palle, arXiv:1601.00618, 2016.
[Palle:2015vch]
[21-1241]
Four-loop Neutrino Model Inspired by Diphoton Excess at 750 GeV, Takaaki Nomura, Hiroshi Okada, Phys.Lett. B755 (2016) 306-311, arXiv:1601.00386.
[Nomura:2016fzs]
[21-1242]
Minimal Sneutrino Chaotic Inflation, Kazunori Nakayama, Fuminobu Takahashi, Tsutomu T. Yanagida, Phys.Lett. B757 (2016) 32-38, arXiv:1601.00192.
[Nakayama:2016gvg]
[21-1243]
Lepton Flavor Violating Non-Standard Interactions via Light Mediators, Yasaman Farzan, Ian M. Shoemaker, JHEP 1607 (2016) 033, arXiv:1512.09147.
[Farzan:2015hkd]
[21-1244]
The 750 GeV diphoton resonance can cause the SM fermion mass and mixing pattern, A. E. Carcamo Hernandez, Eur.Phys.J. C76 (2016) 503, arXiv:1512.09092.
[CarcamoHernandez:2015hjp]
[21-1245]
Radiative Model of Neutrino Mass with Neutrino Interacting MeV Dark Matter, Abdesslam Arhrib, Celine Bohm, Ernest Ma, Tzu-Chiang Yuan, JCAP 1604 (2016) 049, arXiv:1512.08796.
[Arhrib:2015dez]
[21-1246]
Neutrino Catalyzed Diphoton Excess, Wei Chao, Nucl. Phys. B911 (2016) 231-245, arXiv:1512.08484.
[Chao:2015nac]
[21-1247]
New Avenues to Heavy Right-handed Neutrinos with Pair Production at Hadronic Colliders, Zhaofeng Kang, P. Ko, Jinmian Li, Phys. Rev. D93 (2016) 075037, arXiv:1512.08373.
[Kang:2015uoc]
[21-1248]
Phenomenology of the new physics coming from 2HDMs to the neutrino magnetic dipole moment, Carlos G. Tarazona, Rodolfo A. Diaz, John Morales, Andres Castillo, Int.J.Mod.Phys. A32 (2017) 1750050, arXiv:1512.07722.
[Tarazona:2015drz]
[21-1249]
Strong CP Problem, Neutrino Masses and the 750 GeV Diphoton Resonance, Qing-Hong Cao, Shao-Long Chen, Pei-Hong Gu, arXiv:1512.07541, 2015.
[Cao:2015xjz]
[21-1250]
Extension of $\nu$MSM model and possible explanations of recent astronomical and collider observations, Krishna Kulkarni, arXiv:1512.06836, 2015.
[Kulkarni:2015gzu]
[21-1251]
Radiative Neutrino Model with Inert Triplet Scalar, Hiroshi Okada, Yuta Orikasa, Phys. Rev. D94 (2016) 055002, arXiv:1512.06687.
[Okada:2015vwh]
[21-1252]
Resonant mono Higgs at the LHC, Lorenzo Basso, JHEP 1604 (2016) 087, arXiv:1512.06381.
[Basso:2015aee]
[21-1253]
Explorations of two empirical formulae for fermion masses, Guan-Hua Gao, Nan Li, Eur.Phys.J. C76 (2016) 140, arXiv:1512.06349.
[Gao:2015xnv]
[21-1254]
Classically Scale Invariant Inflation, WIMPzilla, and (A)gravity, Arsham Farzinnia, Seyen Kouwn, Phys. Rev. D93 (2016) 063528, arXiv:1512.05890.
[Farzinnia:2015fka]
[21-1255]
Interpretation of the diphoton excess at CMS and ATLAS, Bhaskar Dutta, Yu Gao, Tathagata Ghosh, Ilia Gogoladze, Tianjun Li, Phys. Rev. D93 (2016) 055032, arXiv:1512.05439.
[Dutta:2015wqh]
[21-1256]
Three Twin Neutrinos: Evidence from LSND and MiniBooNE, Yang Bai, Ran Lu, Sida Lu, Jordi Salvado, Ben A. Stefanek, Phys. Rev. D93 (2016) 073004, arXiv:1512.05357.
[Bai:2015ztj]
[21-1257]
Lepton flavour violating B meson decays via scalar leptoquark, Suchismita Sahoo, Rukmani Mohanta, Phys. Rev. D93 (2016) 114001, arXiv:1512.04657.
[Sahoo:2015pzk]
[21-1258]
Probing the Origin of Neutrino Masses and Mixings via Doubly Charged Scalars: Complementarity of the Intensity and the Energy Frontiers, Tanja Geib, Stephen F. King, Alexander Merle, Jose Miguel No, Luca Panizzi, Phys. Rev. D93 (2016) 073007, arXiv:1512.04391.
[Geib:2015tvt]
[21-1259]
Conversions of Bound Muons: Lepton Flavour Violation from Doubly Charged Scalars, Tanja Geib, Alexander Merle, Phys. Rev. D93 (2016) 055039, arXiv:1512.04225.
[Geib:2015unm]
[21-1260]
New Physics of The $B-L$ Violation at 5 TeV Scale, Wei-Min Yang, Phys.Lett. B762 (2016) 138-144, arXiv:1512.04003.
[Yang:2015bin]
[21-1261]
Lepton flavor violating decays of Standard-Model-like Higgs in 3-3-1 model with neutral lepton, L. T. Hue, H. N. Long, T. T. Thuc, N. T. Phong, Nucl. Phys. B907 (2016) 37-76, arXiv:1512.03266.
[Hue:2015fbb]
[21-1262]
Scalar doublet models confront $\tau$ and $b$ anomalies, James M. Cline, Phys. Rev. D93 (2016) 075017, arXiv:1512.02210.
[Cline:2015lqp]
[21-1263]
Generalized $\mu-\tau$ reflection symmetry and leptonic CP violation, Peng Chen, Gui-Jun Ding, Felix Gonzalez-Canales, J. W. F. Valle, Phys. Lett. B753 (2016) 644-652, arXiv:1512.01551.
[Chen:2015siy]
[21-1264]
The Scalar Triplet Contribution to Lepton Flavour Violation and Neutrinoless Double Beta Decay in Left-Right Symmetric Model, Gulab Bambhaniya, P. S. Bhupal Dev, Srubabati Goswami, Manimala Mitra, JHEP 1604 (2016) 046, arXiv:1512.00440.
[Bambhaniya:2015ipg]
[21-1265]
$\tau$- and $\mu$-physics in a general two Higgs doublet model with $\mu-\tau$ flavor violation, Yuji Omura, Eibun Senaha, Kazuhiro Tobe, Phys. Rev. D94 (2016) 055019, arXiv:1511.08880.
[Omura:2015xcg]
[21-1266]
Model independent constraints on four-lepton operators, Adam Falkowski, Kin Mimouni, JHEP 02 (2016) 086, arXiv:1511.07434.
[Falkowski:2015krw]
[21-1267]
Constraints on $L_\mu- L_\tau$ interactions at the LHC and beyond, Fatemeh Elahi, Adam Martin, Phys. Rev. D93 (2016) 015022, arXiv:1511.04107.
[Elahi:2015vzh]
[21-1268]
Signals of a 2 TeV $W'$ boson and a heavier $Z'$ boson, Bogdan A. Dobrescu, Patrick J. Fox, JHEP 1605 (2016) 047, arXiv:1511.02148.
[Dobrescu:2015jvn]
[21-1269]
Quark-Lepton Complementarity Predictions for $\theta_{23}^{pmns}$ and CP Violation, Gazal Sharma, B. C. Chauhan, JHEP 1607 (2016) 075, arXiv:1511.02143.
[Sharma:2015dqi]
[21-1270]
Bounds on Neutrino-Scalar Yukawa Coupling, P. S. Pasquini, O. L. G. Peres, Phys. Rev. D93 (2016) 053007, arXiv:1511.01811.
[Pasquini:2015fjv]
[21-1271]
Probing Models of Neutrino Masses via the Flavor Structure of the Mass Matrix, Shinya Kanemura, Hiroaki Sugiyama, Phys. Lett. B753 (2016) 161-165, arXiv:1510.08726.
[Kanemura:2015cca]
[21-1272]
A polarized window for left-right symmetry at the Large Hadron-Electron Collider, Subhadeep Mondal, Santosh Kumar Rai, Phys. Rev. D93 (2016) 011702, arXiv:1510.08632.
[Mondal:2015zba]
[21-1273]
Hunting for heavy composite Majorana neutrinos at the LHC, R. Leonardi, L. Alunni, F. Romeo, L. Fano, O. Panella, Eur.Phys.J. C76 (2016) 593, arXiv:1510.07988.
[Leonardi:2015qna]
[21-1274]
Lepton Flavor and Non-Universality from Minimal Composite Higgs Setups, Adrian Carmona, Florian Goertz, Phys. Rev. Lett. 116 (2016) 251801, arXiv:1510.07658.
[Carmona:2015ena]
[21-1275]
Can we have another light (~ 145 GeV) Higgs boson?, S. Khalil, S. Moretti, arXiv:1510.05934, 2015.
[Khalil:2015vpa]
[21-1276]
Limits on Neutrinophilic Two-Higgs-Doublet Models from Flavor Physics, Enrico Bertuzzo, Yuber F. Perez G., Olcyr Sumensari, Renata Zukanovich Funchal, JHEP 01 (2016) 018, arXiv:1510.04284.
[Bertuzzo:2015ada]
[21-1277]
Constraints on Abelian Extensions of the Standard Model from Two-Loop Vacuum Stability and $U(1)_{B-L}$, Claudio Coriano, Luigi Delle Rose, Carlo Marzo, JHEP 02 (2016) 135, arXiv:1510.02379.
[Coriano:2015sea]
[21-1278]
$\mu\to e\gamma$ in a supersymmetric radiative neutrino mass model, Raghavendra Srikanth Hundi, Phys. Rev. D93 (2016) 015008, arXiv:1510.02253.
[Hundi:2015kea]
[21-1279]
Dark matter and muon $(g-2)$ in local $U(1)_{L_\mu-L_\tau}$-extended Ma Model, Seungwon Baek, Phys.Lett. B756 (2016) 1-5, arXiv:1510.02168.
[Baek:2015fea]
[21-1280]
Examination of pairs in neutrino mixing matrix, Dianjing Liu, Bo-Qiang Ma, Phys. Rev. D92 (2015) 033011, arXiv:1510.01602.
[Liu:2015sma]
[21-1281]
Simple mass matrices of neutrinos and quarks consistent with observed mixings and masses, Hiroyuki Nishiura, Takeshi Fukuyama, Phys. Lett. B753 (2016) 57-60, arXiv:1510.01035.
[Nishiura:2015qia]
[21-1282]
Flavor Anomalies at the LHC and the R-parity Violating Supersymmetric Model Extended with Vectorlike Particles, Weicong Huang, Yi-Lei Tang, Phys. Rev. D92 (2015) 094015, arXiv:1509.08599.
[Huang:2015vpt]
[21-1283]
Flooded Dark Matter and S Level Rise, Lisa Randall, Jakub Scholtz, James Unwin, JHEP 03 (2016) 011, arXiv:1509.08477.
[Randall:2015xza]
[21-1284]
Warped flavor symmetry predictions for neutrino physics, Peng Chen, Gui-Jun Ding, Alma. D. Rojas, C. A. Vaquera-Araujo, J. W. F. Valle, JHEP 01 (2016) 007, arXiv:1509.06683.
[Chen:2015jta]
[21-1285]
Hadron Collider Tests of Neutrino Mass-Generating Mechanisms, Richard E. Ruiz, arXiv:1509.06375, 2015.
[Ruiz:2015gsa]
[21-1286]
Maximal CP Violation in Flavor Neutrino Masses, Teruyuki Kitabayashi, Masaki Yasue, Int.J.Mod.Phys. A31 (2016) 1650043, arXiv:1509.06071.
[Kitabayashi:2015tka]
[21-1287]
Minimal nonabelian model of atomic dark matter, Jeremie Choquette, James M. Cline, Phys. Rev. D92 (2015) 115011, arXiv:1509.05764.
[Choquette:2015mca]
[21-1288]
Implications of the Diboson Excess for Neutrinoless Double Beta Decay and Lepton Flavor Violation in TeV Scale Left Right Symmetric Model, Ram Lal Awasthi, P. S. Bhupal Dev, Manimala Mitra, Phys. Rev. D93 (2015) 011701, arXiv:1509.05387.
[Awasthi:2015ota]
[21-1289]
Update on two-zero textures of the Majorana neutrino mass matrix in light of recent T2K, Super-Kamiokande and NO$\nu$A results, Shun Zhou, Chin. Phys. C40 (2016) 033102, arXiv:1509.05300.
[Zhou:2015qua]
[21-1290]
Scalar dark matter in the B-L model, Werner Rodejohann, Carlos E. Yaguna, JCAP 1512 (2015) 032, arXiv:1509.04036.
[Rodejohann:2015lca]
[21-1291]
Implications of the CMS search for W_R on Grand Unification, Triparno Bandyopadhyay, Biswajoy Brahmachari, Amitava Raychaudhuri, JHEP 02 (2016) 023, arXiv:1509.03232.
[Bandyopadhyay:2015fka]
[21-1292]
Cosmological bounds of sterile neutrinos in a $SU(3)_C\otimes SU(3)_L\otimes SU(3)_R\otimes U(1)_N$ model as dark matter candidates, Cesar P. Ferreira, Marcelo M. Guzzo, Pedro C. de Holanda, Braz. J. Phys. 46 (2016) 453-461, arXiv:1509.02977.
[Ferreira:2015wja]
[21-1293]
Toward the full test of the nuMSM sterile neutrino dark matter model with Athena, A. Neronov, D. Malyshev, Phys. Rev. D93 (2016) 063518, arXiv:1509.02758.
[Neronov:2015kca]
[21-1294]
Hybrid Textures of Neutrino Mass Matrix under the Lamppost of Latest Neutrino and Cosmology Data, Rupam Kalita, Debasish Borah, Int. J. Mod. Phys. A31 (2016) 1650008, arXiv:1509.02728.
[Kalita:2015tda]
[21-1295]
Leptonic Dirac CP Violation Predictions from Residual Discrete Symmetries, I. Girardi, S. T. Petcov, Alexander J. Stuart, A. V. Titov, Nucl. Phys. B902 (2016) 1-57, arXiv:1509.02502.
[Girardi:2015rwa]
[21-1296]
LHC dijet constraints on double beta decay, J. C. Helo, M. Hirsch, Phys. Rev. D92 (2015) 073017, arXiv:1509.00423.
[Helo:2015ffa]
[21-1297]
A Dynamic Modification to Sneutrino Chaotic Inflation, Abhijit Kumar Saha, Arunansu Sil, JHEP 11 (2015) 118, arXiv:1509.00218.
[Saha:2015afa]
[21-1298]
Sensitivity to Z-prime and non-standard neutrino interactions from ultra-low threshold neutrino-nucleus coherent scattering, Bhaskar Dutta, Rupak Mahapatra, Louis E. Strigari, Joel W. Walker, Phys. Rev. D93 (2016) 013015, arXiv:1508.07981.
[Dutta:2015vwa]
[21-1299]
New Mixing Angles in the Left-Right Symmetric Model, Akira Kokado, Takesi Saito, Phys. Rev. D92 (2015) 125008, arXiv:1508.07406.
[Kokado:2015iya]
[21-1300]
Revisiting fermion mass and mixing fits in the minimal SUSY $SO(10)$ GUT, Takeshi Fukuyama, Koji Ichikawa, Yukihiro Mimura, Phys. Rev. D94 (2016) 075018, arXiv:1508.07078.
[Fukuyama:2015kra]
[21-1301]
Lepton Flavor Violating Radiative Decays in EW-Scale $\nu_R$ Model: An Update, P. Q. Hung, Trinh Le, Van Que Tran, Tzu-Chiang Yuan, JHEP 12 (2015) 169, arXiv:1508.07016.
[Hung:2015hra]
[21-1302]
Predictions for Lepton Flavor Universality Violation in Rare B Decays in Models with Gauged $L_\mu- L_\tau$, Wolfgang Altmannshofer, Itay Yavin, Phys. Rev. D92 (2015) 075022, arXiv:1508.07009.
[Altmannshofer:2015mqa]
[21-1303]
Dark Matter and Global Symmetries, Yann Mambrini, Stefano Profumo, Farinaldo S. Queiroz, Phys.Lett. B760 (2016) 807-815, arXiv:1508.06635.
[Mambrini:2015sia]
[21-1304]
Robustness of Neutrino Mass Matrix Predictions, Werner Rodejohann, Xun-Jie Xu, Nucl. Phys. B899 (2015) 463-475, arXiv:1508.06063.
[Rodejohann:2015nva]
[21-1305]
Scalar Sector Phenomenology of Three-Loop Radiative Neutrino Mass Models, Amine Ahriche, Kristian L. McDonald, Salah Nasri, Phys. Rev. D92 (2015) 095020, arXiv:1508.05881.
[Ahriche:2015taa]
[21-1306]
Interplay between neutrino magnetic moments and $CP$ violating phases in left-right models, D. Delepine, H. Novales-Sanchez, Phys. Rev. D92 (2015) 095016, arXiv:1508.04835.
[Delepine:2015aja]
[21-1307]
TeV Lepton Number Violation: From Neutrinoless Double Beta Decay to the LHC, Tao Peng, Michael J. Ramsey-Musolf, Peter Winslow, Phys. Rev. D93 (2016) 093002, arXiv:1508.04444.
[Peng:2015haa]
[21-1308]
Dark matter and neutrino masses from a scale-invariant multi-Higgs portal, Alexandros Karam, Kyriakos Tamvakis, Phys. Rev. D92 (2015) 075010, arXiv:1508.03031.
[Karam:2015jta]
[21-1309]
IceCube Events from Heavy DM decays through the Right-handed Neutrino Portal, P. Ko, Yong Tang, Phys. Lett. B751 (2015) 81-89, arXiv:1508.02500.
[Ko:2015nma]
[21-1310]
An A4-based see-saw model for realistic neutrino mass and mixing, Soumita Pramanick, Amitava Raychaudhuri, Phys. Rev. D93 (2016) 033007, arXiv:1508.02330.
[Pramanick:2015qga]
[21-1311]
Unified explanation of the $eejj$, diboson and dijet resonances at the LHC, P. S. Bhupal Dev, R. N. Mohapatra, Phys. Rev. Lett. 115 (2015) 181803, arXiv:1508.02277.
[BhupalDev:2015kgw]
[21-1312]
CP Violation in Predictive Neutrino Mass Structures, Chao-Qiang Geng, Da Huang, Lu-Hsing Tsai, Eur. Phys. J. C75 (2015) 557, arXiv:1508.02180.
[Geng:2015oga]
[21-1313]
Light top squarks in $U(1)_{R}$-lepton number model with a right handed neutrino and the LHC, Sabyasachi Chakraborty, AseshKrishna Datta, Katri Huitu, Sourov Roy, Harri Waltari, Phys. Rev. D93 (2016) 075005, arXiv:1508.01875.
[Chakraborty:2015wga]
[21-1314]
Explaining the CMS excesses, baryogenesis and neutrino masses in $E_{6}$ motivated $U(1)_{N}$ model, Mansi Dhuria, Chandan Hati, Utpal Sarkar, Phys. Rev. D93 (2016) 015001, arXiv:1507.08297.
[Dhuria:2015swa]
[21-1315]
On the Viability of Minimal Neutrinophilic Two-Higgs-Doublet Models, P. A. N. Machado, Y. F. Perez, O. Sumensari, Z. Tabrizi, R. Zukanovich Funchal, JHEP 12 (2015) 160, arXiv:1507.07550.
[Machado:2015sha]
[21-1316]
Large invisible decay of a Higgs boson to neutrinos, Osamu Seto, Phys. Rev. D92 (2015) 073005, arXiv:1507.06779.
[Seto:2015rma]
[21-1317]
Lepton flavor violation in the BLMSSM, Shu-Min Zhao et al., Phys. Rev. D92 (2015) 115016, arXiv:1507.06732.
[Zhao:2015dna]
[21-1318]
A Minimal Non-Supersymmetric $SO(10)$ Model: Gauge coupling unification, Proton decay and Fermion masses, K. S. Babu, S. Khan, Phys. Rev. D92 (2015) 075018, arXiv:1507.06712.
[Babu:2015bna]
[21-1319]
Testing the minimal $S_4$ model of neutrinos with the Dirac and Majorana phases, Yusuke Shimizu, Morimitsu Tanimoto, JHEP 12 (2015) 132, arXiv:1507.06221.
[Shimizu:2015tta]
[21-1320]
Sterile Neutrino Dark Matter Production in the Neutrino-phillic Two Higgs Doublet Model, Adisorn Adulpravitchai, Michael A. Schmidt, JHEP 12 (2015) 023, arXiv:1507.05694.
[Adulpravitchai:2015mna]
[21-1321]
Neutron-antineutron Oscillation and Baryonic Majoron: Low Scale Spontaneous Baryon Violation, Zurab Berezhiani, Eur.Phys.J. C76 (2016) 705, arXiv:1507.05478.
[Berezhiani:2015afa]
[21-1322]
Is the CMS eejj excess a hint for light supersymmetry?, Manuel E. Krauss, Werner Porod, Phys. Rev. D92 (2015) 055019, arXiv:1507.04349.
[Krauss:2015nba]
[21-1323]
Origin of Constrained Maximal CP Violation in Flavor Symmetry, Hong-Jian He, Werner Rodejohann, Xun-Jie Xu, Phys. Lett. B751 (2015) 586-594, arXiv:1507.03541.
[He:2015xha]
[21-1324]
Higgs Decay $h\to\mu\tau$ with Minimal Flavor Violation, Xiao-Gang He, Jusak Tandean, Ya-Juan Zheng, JHEP 09 (2015) 093, arXiv:1507.02673.
[He:2015rqa]
[21-1325]
Diluted Equilibrium Sterile Neutrino Dark Matter, Amol V. Patwardhan, George M. Fuller, Chad T. Kishimoto, Alexander Kusenko, Phys. Rev. D92 (2015) 103509, arXiv:1507.01977.
[Patwardhan:2015kga]
[21-1326]
Non-thermal Production of Minimal Dark Matter via Right-handed Neutrino Decay, Mayumi Aoki, Takashi Toma, Avelino Vicente, JCAP 1509 (2015) 063, arXiv:1507.01591.
[Aoki:2015nza]
[21-1327]
Decaying Leptophilic Dark Matter at IceCube, Sofiane M. Boucenna et al., JCAP 1512 (2015) 055, arXiv:1507.01000.
[Boucenna:2015tra]
[21-1328]
Is $\delta_{\rm CKM}=\pm \delta_{\rm PMNS}$ ?, Jihn E. Kim, Soonkeon Nam, Eur. Phys. J. C75 (2015) 619, arXiv:1506.08491.
[Kim:2015etv]
[21-1329]
Implications of $\mu-\tau$ Flavored CP Symmetry of Leptons, R.N. Mohapatra, C.C. Nishi, JHEP 08 (2015) 092, arXiv:1506.06788.
[Mohapatra:2015gwa]
[21-1330]
A $W'$ boson near 2 TeV: predictions for Run 2 of the LHC, Bogdan A. Dobrescu, Zhen Liu, Phys. Rev. Lett. 115 (2015) 211802, arXiv:1506.06736.
[Dobrescu:2015qna]
[21-1331]
Probing flavor models with Ge-76-based experiments on neutrinoless double-beta decay, Matteo Agostini, Alexander Merle, Kai Zuber, Eur.Phys.J. C76 (2016) 176, arXiv:1506.06133.
[Agostini:2015dna]
[21-1332]
Neutrino Mixing with Non-Zero $\theta_{13}$ and CP Violation in the 3-3-1 Model Based on $S_4$ Flavor Symmetry, Vo Van Vien, Hoang Ngoc Long, Dinh Phan Khoi, Int.J.Mod.Phys. A30 (2015) 1550102, arXiv:1506.06063.
[Vien:2015fhk]
[21-1333]
Vector-like $W^\pm$-boson coupling at TeV and fermion-mass hierarchy (two boson-tagged jets vs four quark jets), She-Sheng Xue, Phys. Rev. D93 (2016) 073001, arXiv:1506.05994.
[Xue:2015wha]
[21-1334]
Neutrino Mass Matrices with Two Vanishing Elements/Cofactors, S. Dev, Lal Singh, Desh Raj, Eur. Phys. J. C75 (2015) 394, arXiv:1506.04951.
[Dev:2015lya]
[21-1335]
Neutrino mass matrices with one texture zero and a vanishing neutrino mass, Radha Raman Gautam, Madan Singh, Manmohan Gupta, Phys. Rev. D92 (2015) 013006, arXiv:1506.04868.
[Gautam:2015kya]
[21-1336]
Effective theories for Dark Matter interactions and the neutrino portal paradigm, Vannia Gonzalez Macias, Jose Wudka, JHEP 07 (2015) 161, arXiv:1506.03825.
[GonzalezMacias:2015rxl]
[21-1337]
Stringent Dilepton Bounds on Left-Right Models using LHC data, Sudhanwa Patra, Farinaldo S. Queiroz, Werner Rodejohann, Phys. Lett. B752 (2016) 186-190, arXiv:1506.03456.
[Patra:2015bga]
[21-1338]
Constraints on neutrino masses coming from magnetic dipole moments in a two Higgs doublet model type I and II, Carlos G. Tarazona, Rodolfo A. Diaz, John Morales, arXiv:1506.00735, 2015.
[Tarazona:2015xwa]
[21-1339]
Lepton Flavor Violation in the Inert Scalar Model with Higher Representations, Talal Ahmed Chowdhury, Salah Nasri, JHEP 12 (2015) 040, arXiv:1506.00261.
[Chowdhury:2015sla]
[21-1340]
Study of lepton flavor violation in flavor symmetric models for lepton sector, Tatsuo Kobayashi, Yuji Omura, Fumihiro Takayama, Daiki Yasuhara, JHEP 10 (2015) 042, arXiv:1505.07636.
[Kobayashi:2015gwa]
[21-1341]
A model for large non-standard interactions of neutrinos leading to the LMA-Dark solution, Yasaman Farzan, Phys. Lett. B748 (2015) 311-315, arXiv:1505.06906.
[Farzan:2015doa]
[21-1342]
SU(5)-inspired double beta decay, Renato M. Fonseca, Martin Hirsch, Phys. Rev. D92 (2015) 015014, arXiv:1505.06121.
[Fonseca:2015ena]
[21-1343]
Probing the Type I Seesaw Mechanism with Displaced Vertices at the LHC, Alberto M. Gago, Pilar Hernandez, Joel Jones-Perez, Marta Losada, Alexander Moreno Briceno, Eur. Phys. J. C75 (2015) 470, arXiv:1505.05880.
[Gago:2015vma]
[21-1344]
A Further Study of the Frampton-Glashow-Yanagida Model for Neutrino Masses, Flavor Mixing and Baryon Number Asymmetry, Jue Zhang, Shun Zhou, JHEP 09 (2015) 065, arXiv:1505.04858.
[Zhang:2015tea]
[21-1345]
Democratic neutrino mass matrix from generalized Fridberg-Lee model with the perturbative solar mass splitting, N. Razzaghi, arXiv:1505.04783, 2015.
[Razzaghi:2015oea]
[21-1346]
Minimal Lepton Flavor Violation Implications of the b - > s Anomalies, Chao-Jung Lee, Jusak Tandean, JHEP 08 (2015) 123, arXiv:1505.04692.
[Lee:2015qra]
[21-1347]
Probing lepton non-universality in tau neutrino Scattering, Hongkai Liu, Ahmed Rashed, Alakabha Datta, Phys. Rev. D92 (2015) 073016, arXiv:1505.04594.
[Liu:2015rqa]
[21-1348]
Perturbative generation of CP violation and solar mass splitting from Fridberg-Lee model on the basic tribimaximal structure, N. Razzaghi, S.S. Gousheh, Phys.Rev.D 89 (2014) 033010, arXiv:1505.04296.
[Razzaghi:2014mqd]
[21-1349]
Fermionic dark matter and neutrino masses in a $\mathcal{B-L}$ model, B. L. Sanchez-Vega, E. R. Schmitz, Phys. Rev. D92 (2015) 053007, arXiv:1505.03595.
[Sanchez-Vega:2015qva]
[21-1350]
Constraints on Leptoquark Models from IceCube Data, Ujjal Kumar Dey, Subhendra Mohanty, JHEP 1604 (2016) 187, arXiv:1505.01037.
[Dey:2015eaa]
[21-1351]
Constraining Neutrino Mass Matrix from Modified BM with Softly Broken $\mu-\tau$ Symmetry, Asan Damanik, arXiv:1505.00681, 2015.
[Damanik:2015jua]
[21-1352]
Signatures of Leptoquarks at the LHC and Right-handed Neutrinos, Jason L. Evans, Natsumi Nagata, Phys. Rev. D92 (2015) 015022, arXiv:1505.00513.
[Evans:2015ita]
[21-1353]
The Leptoquark Implication from the CMS and IceCube Experiments, Bhaskar Dutta, Yu Gao, Tianjun Li, Carsten Rott, Louis E. Strigari, Phys. Rev. D91 (2015) 125015, arXiv:1505.00028.
[Dutta:2015dka]
[21-1354]
Observational constraints on varying neutrino-mass cosmology, Chao-Qiang Geng, Chung-Chi Lee, R. Myrzakulov, M. Sami, Emmanuel N. Saridakis, JCAP 1601 (2016) 049, arXiv:1504.08141.
[Geng:2015haa]
[21-1355]
Radiative neutrino mass and 3.5 keV X-ray line, Seungwon Baek, arXiv:1504.08112, 2015.
[Baek:2015sba]
[21-1356]
Radiative neutrino masses in the singlet-doublet fermion dark matter model with scalar singlets, Diego Restrepo, Andres Rivera, Marta Sanchez-Pelaez, Oscar Zapata, Walter Tangarife, Phys. Rev. D92 (2015) 013005, arXiv:1504.07892.
[Restrepo:2015ura]
[21-1357]
Dark matter for excess of AMS-02 positrons and antiprotons, Chuan-Hung Chen, Cheng-Wei Chiang, Takaaki Nomura, Phys.Lett. B747 (2015) 495-499, arXiv:1504.07848.
[Chen:2015cqa]
[21-1358]
Baryon Number Violation via Majorana Neutrinos in the Early Universe, at the LHC, and Deep Underground, Hooman Davoudiasl, Yue Zhang, Phys. Rev. D92 (2015) 016005, arXiv:1504.07244.
[Davoudiasl:2015jja]
[21-1359]
Confronting predictive texture zeros in lepton mass matrices with current data, Luis M. Cebola, David Emmanuel-Costa, Ricardo Gonzalez Felipe, Phys. Rev. D92 (2015) 025005, arXiv:1504.06594.
[Cebola:2015dwa]
[21-1360]
Vacuum stability in the $U(1)_\chi$ extended model with vanishing scalar potential at the Planck scale, Naoyuki Haba, Yuya Yamaguchi, PTEP 2015 (2015) 093B05, arXiv:1504.05669.
[Haba:2015rha]
[21-1361]
Heavy neutrinos and the $pp\to lljj$ CMS data, J. Gluza, T. Jelinski, Phys. Lett. B748 (2015) 125-131, arXiv:1504.05568.
[Gluza:2015goa]
[21-1362]
Non-Zero $\theta_{13}$ and $\delta_{CP}$ in a Neutrino Mass Model with $A_4$ Symmetry, Abhish Dev, P. Ramadevi, S. Uma Sankar, JHEP 11 (2015) 034, arXiv:1504.04034.
[Dev:2015dha]
[21-1363]
$A_4$ symmetry at colliders and in the universe, Ivo de Medeiros Varzielas, Oliver Fischer, Vinzenz Maurer, JHEP 08 (2015) 080, arXiv:1504.03955.
[deMedeirosVarzielas:2015ybd]
[21-1364]
Left-Right Symmetric Models at the High-Intensity Frontier, Oscar Castillo-Felisola, Claudio O. Dib, Juan C. Helo, Sergey G. Kovalenko, Sebastian E. Ortiz, Phys. Rev. D92 (2015) 013001, arXiv:1504.02489.
[Castillo-Felisola:2015bha]
[21-1365]
Predictions for the Leptonic Dirac CP Violation Phase: a Systematic Phenomenological Analysis, I. Girardi, S. T. Petcov, A. V. Titov, Eur. Phys. J. C75 (2015) 345, arXiv:1504.00658.
[Girardi:2015vha]
[21-1366]
Mixing angle and phase correlations from A5 with generalised CP and their prospects for discovery, Peter Ballett, Silvia Pascoli, Jessica Turner, Phys. Rev. D92 (2015) 093008, arXiv:1503.07543.
[Ballett:2015wia]
[21-1367]
Are the B decay anomalies related to neutrino oscillations?, Sofiane M. Boucenna, Jose W.F. Valle, Avelino Vicente, Phys. Lett. B750 (2015) 367-371, arXiv:1503.07099.
[Boucenna:2015raa]
[21-1368]
On the ambiguities in the tri-bimaximal mixing matrix and corresponding charged lepton corrections, Chandan Duarah, N. Nimai Singh, Phys.Scripta 88 (2013) 065101, arXiv:1503.06999.
[Duarah:2013imq]
[21-1369]
Lepton Number Violation in Higgs Decay, Alessio Maiezza, Miha Nemevsek, Fabrizio Nesti, Phys. Rev. Lett. 115 (2015) 081802, arXiv:1503.06834.
[Maiezza:2015lza]
[21-1370]
Phenomenological constraints on light mixed sneutrino dark matter scenarios, Mitsuru Kakizaki, Eun-Kyung Park, Jae-hyeon Park, Akiteru Santa, Phys. Lett. B749 (2015) 44-49, arXiv:1503.06783.
[Kakizaki:2015nua]
[21-1371]
Common Origin of 3.55 keV X-Ray Line and Galactic Center Gamma Ray Excess in a Radiative Neutrino Mass Model, Debasish Borah, Arnab Dasgupta, Rathin Adhikari, Phys. Rev. D92 (2015) 075005, arXiv:1503.06130.
[Borah:2015rla]
[21-1372]
Lepton flavor violating decays of vector quarkonia and of the $Z$ boson, Asmaa Abada, Damir Becirevic, Michele Lucente, Olcyr Sumensari, Phys. Rev. D91 (2015) 113013, arXiv:1503.04159.
[Abada:2015zea]
[21-1373]
Lepton mixing from the interplay of the alternating group A5 and CP, Andrea Di Iura, Claudia Hagedorn, Davide Meloni, JHEP 08 (2015) 037, arXiv:1503.04140.
[DiIura:2015kfa]
[21-1374]
Discriminating Majorana Neutrino Textures in the light of Baryon Asymmetry, Manikanta Borah, Debasish Borah, Mrinal Kumar Das, Phys. Rev. D91 (2015) 113008, arXiv:1503.03431.
[Borah:2015vra]
[21-1375]
Lepton number violation and neutrino masses in 3-3-1 models, Richard H. Benavides, Luis N. Epele, Huner Fanchiotti, Carlos Garcia Canal, William A. Ponce, Adv.High Energy Phys. 2015 (2015) 813129, arXiv:1503.01686.
[Benavides:2015afa]
[21-1376]
Scotogenic R$\nu$MDM at Three-Loop Level, Petar Culjak, Kresimir Kumericki, Ivica Picek, Phys.Lett. B744 (2015) 237-243, arXiv:1502.07887.
[Culjak:2015qja]
[21-1377]
Constraints on Dark Photon from Neutrino-Electron Scattering Experiments, S. Bilmis et al., Phys. Rev. D92 (2015) 033009, arXiv:1502.07763.
[Bilmis:2015lja]
[21-1378]
Predicting charged lepton flavor violation from gauge symmetry, Sofiane M. Boucenna, Jose W. F. Valle, Avelino Vicente, Phys. Rev. D92 (2015) 053001, arXiv:1502.07546.
[Boucenna:2015zwa]
[21-1379]
SUSY Implications from WIMP Annihilation into Scalars at the Galactic Centre, Tony Gherghetta, Benedict von Harling, Anibal D. Medina, Michael A. Schmidt, Timothy Trott, Phys. Rev. D91 (2015) 105004, arXiv:1502.07173.
[Gherghetta:2015ysa]
[21-1380]
PeV Scale Right Handed Neutrino Dark Matter in $S_4$ Flavor Symmetric extra U(1) model, Yasuhiro Daikoku, Hiroshi Okada, Phys. Rev. D91 (2015) 075009, arXiv:1502.07032.
[Daikoku:2015vsa]
[21-1381]
Testing sterile neutrino extensions of the Standard Model at future lepton colliders, Stefan Antusch, Oliver Fischer, JHEP 1505 (2015) 053, arXiv:1502.05915.
[Antusch:2015mia]
[21-1382]
Restoration of Parity and the Right-Handed Analog of the CKM Matrix, Goran Senjanovic, Vladimir Tello, Phys. Rev. D94 (2016) 095023, arXiv:1502.05704.
[Senjanovic:2015yea]
[21-1383]
Double beta decay and neutrino mass models, J. C. Helo, M. Hirsch, T. Ota, F. A. Pereira dos Santos, JHEP 1505 (2015) 092, arXiv:1502.05188.
[Helo:2015fba]
[21-1384]
Majorana Neutrino and $W_{R}$ at TeV scale $ep$ Colliders, U. Kaya, M. Sahin, S. Sultansoy, arXiv:1502.04115, 2015.
[Kaya:2015tia]
[21-1385]
The signatures of the quintuplet leptons at the LHC, You Yu, Chong-Xing Yue, Shuo Yang, Phys. Rev. D91 (2015) 093003, arXiv:1502.02801.
[Yu:2015pwa]
[21-1386]
Neutrino mass and invisible Higgs decays at the LHC, Cesar Bonilla, Jorge C. Romao, Jose W.F. Valle, Phys. Rev. D91 (2015) 113015, arXiv:1502.01649.
[Bonilla:2015uwa]
[21-1387]
Prediction of Leptonic CP Phase in $A_4$ symmetric model, Sin Kyu Kang, Morimitsu Tanimoto, Phys. Rev. D91 (2015) 073010, arXiv:1501.07428.
[Kang:2015xfa]
[21-1388]
Charged Lepton Flavor Violation in the Semi-Constrained NMSSM with Right-Handed Neutrinos, Keisuke Nakamura, Daisuke Nomura, Phys.Lett. B746 (2015) 396-405, arXiv:1501.05058.
[Nakamura:2015sya]
[21-1389]
Dark matter, neutrino masses and high scale validity of an inert Higgs doublet model, Nabarun Chakrabarty, Dilip Kumar Ghosh, Biswarup Mukhopadhyaya, Ipsita Saha, Phys. Rev. D92 (2015) 015002, arXiv:1501.03700.
[Chakrabarty:2015yia]
[21-1390]
Two-loop snail diagrams: relating neutrino masses to dark matter, Yasaman Farzan, JHEP 1505 (2015) 029, arXiv:1412.6283.
[Farzan:2014aca]
[21-1391]
Radiative generation of neutrino mixing: degenerate masses and threshold corrections, Wolfgang Gregor Hollik, Phys. Rev. D91 (2015) 033001, arXiv:1412.4585.
[Hollik:2014hya]
[21-1392]
Dipolar dark matter in light of 3.5 keV X-ray Line, Neutrino mass and LUX data, Sudhanwa Patra, Nirakar Sahoo, Narendra Sahu, Phys. Rev. D91 (2015) 115013, arXiv:1412.4253.
[Patra:2014sua]
[21-1393]
Degenerate spectrum in the neutrino mass anarchy with Wishart matrices and implications for $0\nu\beta\beta$ and $\delta_{\rm CP}$, Kwang Sik Jeong, Naoya Kitajima, Fuminobu Takahashi, Phy s.Rev. D91 (2015) 113010, arXiv:1412.4061.
[Jeong:2014qpa]
[21-1394]
Higgs $\to \mu\tau$ in Abelian and Non-Abelian Flavor Symmetry Models, Julian Heeck, Martin Holthausen, Werner Rodejohann, Yusuke Shimizu, Nucl. Phys. B896 (2015) 281-310, arXiv:1412.3671.
[Heeck:2014qea]
[21-1395]
Probing the scotogenic model with lepton flavor violating processes, Avelino Vicente, Carlos E. Yaguna, JHEP 1502 (2015) 144, arXiv:1412.2545.
[Vicente:2014wga]
[21-1396]
An underlying symmetry determines all elements of CKM and PMNS up to a universal constant?, Hong-Wei Ke, Xue-Qian Li, Commun. Theor. Phys. 64 (2015) 519-524, arXiv:1412.0116.
[Ke:2014gda]
[21-1397]
Collider limits on leptophilic interactions, Francisco del Aguila, Mikael Chala, Jose Santiago, Yasuhiro Yamamoto, JHEP 1503 (2015) 059, arXiv:1411.7394.
[delAguila:2014soa]
[21-1398]
Gravity induced left-right gauge theory at LHC and experimental tests, M. K. Parida, Biswonath Sahoo, Nucl. Phys. B906 (2016) 77-104, arXiv:1411.6748.
[Parida:2014dla]
[21-1399]
The double mass hierarchy pattern: simultaneously understanding quark and lepton mixing, Wolfgang Gregor Hollik, Ulises Jesus Saldana Salazar, Nucl. Phys. B892 (2015) 364-389, arXiv:1411.3549.
[Hollik:2014jda]
[21-1400]
Dark Matter and Lepton Flavour Violation in a Hybrid Neutrino Mass Model, Frank F. Deppisch, Wei-Chih Huang, JHEP 1501 (2015) 066, arXiv:1411.2922.
[Deppisch:2014jka]
[21-1401]
FImP Miracle of Sterile Neutrino Dark Matter by Scale Invariance, Zhaofeng Kang, Eur. Phys. J. C75 (2015) 471, arXiv:1411.2773.
[Kang:2014cia]
[21-1402]
$h \rightarrow \gamma \gamma$ in $U(1)_{R}-$ lepton number model with a right-handed neutrino, Sabyasachi Chakraborty, AseshKrishna Datta, Sourov Roy, JHEP 1502 (2015) 124, arXiv:1411.1525.
[Chakraborty:2014sda]
[21-1403]
The Propagation Matrix and Flavor Triangle for Cosmic Neutrinos, Lingjun Fu, Chiu Man Ho, Thomas J. Weiler, Phys. Rev. D91 (2015) 053001, arXiv:1411.1174.
[Fu:2014isa]
[21-1404]
Neutrino Portal Dark Matter: From Dwarf Galaxies to IceCube, John F. Cherry, Alexander Friedland, Ian M. Shoemaker, arXiv:1411.1071, 2014.
[Cherry:2014xra]
[21-1405]
Little Flavor: Heavy Leptons, Z' and Higgs Phenomenology, Sichun Sun, arXiv:1411.0131, 2014.
[Sun:2014jha]
[21-1406]
Determining the Dirac CP Violation Phase in the Neutrino Mixing Matrix from Sum Rules, I. Girardi, S. T. Petcov, A. V. Titov, Nucl. Phys. B894 (2015) 733-768, arXiv:1410.8056.
[Girardi:2014faa]
[21-1407]
A First Test of the Framed Standard Model against Experiment, J Bordes, HM Chan, ST Tsou, Int.J.Mod.Phys. A30 (2015) 0051, arXiv:1410.8022.
[Bordes:2014eaa]
[21-1408]
Testing solar lepton mixing sum rules in neutrino oscillation experiments, Peter Ballett, Stephen F. King, Christoph Luhn, Silvia Pascoli, Michael A. Schmidt, JHEP 1412 (2014) 122, arXiv:1410.7573.
[Ballett:2014dua]
[21-1409]
A natural Little Hierarchy for SUSY from radiative breaking of PQ symmetry, Kyu Jung Bae, Howard Baer, Hasan Serce, Phys. Rev. D91 (2015) 015003, arXiv:1410.7500.
[Bae:2014yta]
[21-1410]
Textures and Lepton Mass Matrices, Priyanka Fakay, Samandeep Sharma, arXiv:1410.7137, 2014.
[Fakay:2014pea]
[21-1411]
Double Beta Decay, Lepton Flavour Violation and Collider Signatures of Left-Right Symmetric Models with Spontaneous D Parity Breaking, Frank F. Deppisch, Tomas E. Gonzalo, Sudhanwa Patra, Narendra Sahu, Utpal Sarkar, Phys. Rev. D91 (2015) 015018, arXiv:1410.6427.
[Deppisch:2014zta]
[21-1412]
Viable textures for the fermion sector, A. E. Carcamo Hernandez, I. de Medeiros Varzielas, J. Phys. G42 (2015) 065002, arXiv:1410.2481.
[CarcamoHernandez:2014lhu]
[21-1413]
Testing the Zee-Babu model via neutrino data, lepton flavour violation and direct searches at the LHC, Juan Herrero-Garcia, Miguel Nebot, Nuria Rius, Arcadi Santamaria, Nucl.Part.Phys.Proc. 273-275 (2016) 1678-1684, arXiv:1410.2299.
[Herrero-Garcia:2014usa]
[21-1414]
Probing the $\mu\nu$SSM with light scalars, pseudoscalars and neutralinos from the decay of a SM-like Higgs boson at the LHC, Pradipta Ghosh, Daniel E. Lopez-Fogliani, Vasiliki A. Mitsou, Carlos Munoz, Roberto Ruiz de Austri, JHEP 1411 (2014) 102, arXiv:1410.2070.
[Ghosh:2014ida]
[21-1415]
Charged Lepton Flavor Violation $\mu\rightarrow e\gamma$ in $\mu-\tau$ Symmetric SUSY SO(10) Theories and LHC, Kalpana Bora, Gayatri Ghosh, Eur. Phys. J. C75 (2015) 428, arXiv:1410.1265.
[Bora:2014mna]
[21-1416]
Testing Radiative Neutrino Mass Models at the LHC, Yi Cai, Jackson D. Clarke, Michael A. Schmidt, Raymond R. Volkas, JHEP 1502 (2015) 161, arXiv:1410.0689.
[Cai:2014kra]
[21-1417]
Lepton Universality in the $\nu$MSM, Takehiko Asaka, Shintaro Eijima, Kazuhiro Takeda, Phys.Lett. B742 (2015) 303-309, arXiv:1410.0432.
[Asaka:2014kia]
[21-1418]
Muon Anomalous Magnetic Moment in a $SU(4) \otimes U(1)_N$ Model, D. Cogollo, Int.J.Mod.Phys. A30 (2015) 1550038, arXiv:1409.8115.
[Cogollo:2014tra]
[21-1419]
$\bar{B}\rightarrow X_s\gamma$ in the $\mu\nu$SSM, Hai-Bin Zhang et al., Mod.Phys.Lett. A29 (2014) 1450196, arXiv:1409.6837.
[Zhang:2014nya]
[21-1420]
Production of Sterile Neutrino Dark Matter and the 3.5 keV line, Alexander Merle, Aurel Schneider, Phys. Lett. B749 (2015) 283-288, arXiv:1409.6311.
[Merle:2014xpa]
[21-1421]
A Fresh Look at keV Sterile Neutrino Dark Matter from Frozen-In Scalars, Adisorn Adulpravitchai, Michael A. Schmidt, JHEP 1501 (2015) 006, arXiv:1409.4330.
[Adulpravitchai:2014xna]
[21-1422]
Mind the gap on Icecube: Cosmic neutrino spectrum and muon anomalous magnetic moment in the gauged $L_\mu - L_\tau$ model, Takeshi Araki et al., Phys. Rev. D91 (2015) 037301, arXiv:1409.4180.
[Araki:2014ona]
[21-1423]
Galactic Center Gamma Ray Excess in a Radiative Neutrino Mass Model, Debasish Borah, Arnab Dasgupta, Phys.Lett. B741 (2015) 103-110, arXiv:1409.1406.
[Borah:2014ska]
[21-1424]
Exploring X-Ray Lines as Scotogenic Signals, Gaber Faisel, Shu-Yu Ho, Jusak Tandean, Phys.Lett. B738 (2014) 380-385, arXiv:1408.5887.
[Faisel:2014gda]
[21-1425]
Explaining the CMS $eejj$ Excess With $\mathcal{R}-$parity Violating Supersymmetry and Implications for Neutrinoless Double Beta Decay, Ben Allanach, Sanjoy Biswas, Subhadeep Mondal, Manimala Mitra, Phys.Rev. D91 (2015) 015011, arXiv:1408.5439.
[Allanach:2014nna]
[21-1426]
Resolving the octant of $\theta^{}_{23}$ via radiative $\mu$-$\tau$ symmetry breaking, Shu Luo, Zhi-zhong Xing, Phys. Rev. D90 (2014) 073005, arXiv:1408.5005.
[Luo:2014upa]
[21-1427]
Stop and Sbottom LSP with R-parity Violation, Eung Jin Chun, Sunghoon Jung, Hyun Min Lee, Seong Chan Park, Phys. Rev. D90 (2014) 115023, arXiv:1408.4508.
[Chun:2014jha]
[21-1428]
Predicting Leptonic CP phase by considering deviations in charged lepton and neutrino sectors, Sruthilaya M., Soumya C., K. N. Deepthi, R. Mohanta, New J. Phys. 17 (2015) 083028, arXiv:1408.4392.
[Sruthilaya:2014dpx]
[21-1429]
Strongly First-Order Electroweak Phase Transition and Classical Scale Invariance, Arsham Farzinnia, Jing Ren, Phys. Rev. D90 (2014) 075012, arXiv:1408.3533.
[Farzinnia:2014yqa]
[21-1430]
Multicomponent Dark Matter in Radiative Seesaw Model and Monochromatic Neutrino Flux, Mayumi Aoki, Jisuke Kubo, Hiroshi Takano, Phys. Rev. D90 (2014) 076011, arXiv:1408.1853.
[Aoki:2014lha]
[21-1431]
Determination of the mixing between active neutrinos and sterile neutrino through the quark-lepton complementarity and self-complementarity, Hong-Wei Ke, Tan Liu, Xue-Qian Li, Phys. Rev. D90 (2014) 053009, arXiv:1408.1315.
[Ke:2014hxa]
[21-1432]
Is it possible to unify three kinds of Dark Matters into a Kaluza-Klein Neutrino?, Sakiko G.J. Nishio, Kazuharu Bamba, Akio Sugamoto, Mod.Phys.Lett. A29 (2014) 1450201, arXiv:1408.1203.
[Nishio:2014sva]
[21-1433]
Lepton Flavor Violation in Flavored Gauge Mediation, Lorenzo Calibbi, Paride Paradisi, Robert Ziegler, Eur.Phys.J. C74 (2014) 3211, arXiv:1408.0754.
[Calibbi:2014yha]
[21-1434]
Neutrino mixing and CP violation phases in Zee-Babu model, Vo Van Vien, Hoang Ngoc Long, Pham Ngoc Thu, Commun.Phys. 25 (2015) 291-298, arXiv:1407.8286.
[VanVien:2014apa]
[21-1435]
Lepton flavor violation in the $\mu\nu$SSM with slepton flavor mixing, Hai-Bin Zhang, Tai-Fu Feng, Shu-Min Zhao, Fei Sun, Int.J.Mod.Phys. A29 (2014) 1450123, arXiv:1407.7365.
[Zhang:2014osa]
[21-1436]
$\nu_R$ dark matter-philic Higgs for 3.5 keV X-ray signal, Naoyuki Haba, Hiroyuki Ishida, Ryo Takahashi, Phys.Lett. B743 (2015) 35-38, arXiv:1407.6827.
[Haba:2014taa]
[21-1437]
Bounds on the mass of doubly-charged Higgs bosons in the same-sign diboson decay scenario, Shinya Kanemura, Mariko Kikuchi, Kei Yagyu, Hiroshi Yokoya, Phys. Rev. D90 (2014) 115018, arXiv:1407.6547.
[Kanemura:2014goa]
[21-1438]
Testable constraint on near-tribimaximal neutrino mixing, Biswajoy Brahmachari, Probir Roy, JHEP 1502 (2015) 135, arXiv:1407.5293.
[Brahmachari:2014npa]
[21-1439]
Earth Matter Effect on Democratic Neutrinos, Dmitry Zhuridov, Electron.J.Theor.Phys. 13 (2016) 199-206, arXiv:1407.5221.
[Zhuridov:2014mpa]
[21-1440]
Pure leptonic proposal to $W^{+}W^{-}$ excess and neutrino mass generation, Hui Luo, Ming-xing Luo, Kai Wang, Tao Xu, Guohuai Zhu, Phys.Lett. B738 (2014) 160-165, arXiv:1407.4912.
[Luo:2014fva]
[21-1441]
Simple 3-3-1 model and implication for dark matter, P. V. Dong, N. T. K. Ngan, D. V. Soa, Phys. Rev. D90 (2014) 075019, arXiv:1407.3839.
[Dong:2014esa]
[21-1442]
Resurrecting Sneutrino ($\tilde\nu_L$) Dark Matter in light of Neutrino Mass and LUX, Arindam Chatterjee, Narendra Sahu, Phys. Rev. D90 (2014) 095021, arXiv:1407.3030.
[Chatterjee:2014vua]
[21-1443]
X-ray line in Radiative Neutrino Model with Global $U(1)$ Symmetry, Hiroshi Okada, Yuta Orikasa, Phys. Rev. D90 (2014) 075023, arXiv:1407.2543.
[Okada:2014oda]
[21-1444]
Radiative corrections to $M_h$ from three generations of Majorana neutrinos and sneutrinos, S. Heinemeyer, J. Hernandez-Garcia, M.J. Herrero, X. Marcano, A.M. Rodriguez-Sanchez, Adv. High Energy Phys. 2015 (2015) 152394, arXiv:1407.1083.
[Heinemeyer:2014hka]
[21-1445]
3.5 keV X-ray line and R-Parity Conserving Supersymmetry, Bhaskar Dutta, Ilia Gogoladze, Rizwan Khalid, Qaisar Shafi, JHEP 1411 (2014) 018, arXiv:1407.0863.
[Dutta:2014saa]
[21-1446]
A new mechanism for dark energy: the adaptive screening, Andi Hektor, Luca Marzola, Martti Raidal, Hardi Veermae, JHEP 1501 (2015) 101, arXiv:1407.0389.
[Hektor:2014mqa]
[21-1447]
Partial quark-lepton universality and neutrino CP violation, Jiajun Liao, D. Marfatia, K. Whisnant, Adv. High Energy Phys. 2015 (2015) 561910, arXiv:1407.0352.
[Liao:2014vla]
[21-1448]
CP violation in bilinear R-parity violation and its consequences for the early universe, Asma Cheriguene, Stefan Liebler, Werner Porod, Phys. Rev. D90 (2014) 055012, arXiv:1406.7837.
[Cheriguene:2014bxa]
[21-1449]
Helicitogenesis: WIMPy baryogenesis with sterile neutrinos and other realizations, J. Racker, N. Rius, JHEP 1411 (2014) 163, arXiv:1406.6105.
[Racker:2014uga]
[21-1450]
3.55 keV X-ray Line Interpretation in Radiative Neutrino Model, Hiroyuki Ishida, Hiroshi Okada, arXiv:1406.5808, 2014.
[Ishida:2014fra]
[21-1451]
Calculable Leptonic CP Violation, Sin Kyu Kang, C. S. Kim, Phys. Rev. D90 (2014) 077301, arXiv:1406.5014.
[Kang:2014mka]
[21-1452]
Effective theory of a doubly charged singlet scalar: complementarity of neutrino physics and the LHC, Stephen F. King, Alexander Merle, Luca Panizzi, JHEP 1411 (2014) 124, arXiv:1406.4137.
[King:2014uha]
[21-1453]
Search for 100 MeV to 10 GeV gamma-ray lines in the Fermi-LAT data and implications for gravitino dark matter in the $\mu\nu$SSM, Andrea Albert et al. (Fermi-LAT), JCAP 1410 (2014) 023, arXiv:1406.3430.
[Albert:2014hwa]
[21-1454]
Gravitino Dark Matter in Split Supersymmetry with Bilinear R-Parity Violation, Giovanna Cottin, Marco A. Diaz, Maria Jose Guzman, Boris Panes, Eur.Phys.J. C74 (2014) 3138, arXiv:1406.2368.
[Cottin:2014cca]
[21-1455]
Neutrino Trident Production: A Powerful Probe of New Physics with Neutrino Beams, Wolfgang Altmannshofer, Stefania Gori, Maxim Pospelov, Itay Yavin, Phys. Rev. Lett. 113 (2014) 091801, arXiv:1406.2332.
[Altmannshofer:2014pba]
[21-1456]
FlexibleSUSY - A spectrum generator generator for supersymmetric models, Peter Athron, Jae-hyeon Park, Dominik Stockinger, Alexander Voigt, Comput.Phys.Commun. 190 (2015) 139-172, arXiv:1406.2319.
[Athron:2014yba]
[21-1457]
Deviations from Tribimaximal Neutrino Mixing using a Model with $\Delta(27)$ Symmetry, P. F. Harrison, R. Krishnan, W. G. Scott, Int.J.Mod.Phys. 29 (2014) 1450095, arXiv:1406.2025.
[Harrison:2014jqa]
[21-1458]
Lepton textures and neutrino oscillations, Rohit Verma, Int.J.Mod.Phys. A29 (2014) 1444009, arXiv:1406.0640.
[Verma:2014lpa]
[21-1459]
Phenomenology in supersymmetric neutrinophilic Higgs model with sneutrino dark matter, Ki-Young Choi, Osamu Seto, Chang Sub Shin, JHEP 1409 (2014) 068, arXiv:1406.0228.
[Choi:2014tga]
[21-1460]
Vanishing Higgs potential at the Planck scale in singlets extension of the standard model, Naoyuki Haba, Hiroyuki Ishida, Kunio Kaneta, Ryo Takahashi, Phys. Rev. D90 (2014) 036006, arXiv:1406.0158.
[Haba:2014sia]
[21-1461]
Direct search for heavy gauge bosons at the LHC in the nonuniversal SU(2) model, Yeong Gyun Kim, Kang Young Lee, Phys. Rev. D90 (2014) 117702, arXiv:1405.7762.
[Kim:2014afa]
[21-1462]
The corrections from one loop and two-loop Barr-Zee type diagrams to muon MDM in BLMSSM, Shu-Min Zhao, Tai-Fu Feng, Hai-Bin Zhang, Ben Yan, Xi-Jie Zhan, JHEP 1411 (2014) 119, arXiv:1405.7561.
[Zhao:2014dxa]
[21-1463]
Heavy neutrinos and neutral gauge boson Z' at the LHC, A. A. Abdelalim, A. Hammad, S. Khalil, Phys. Rev. D90 (2014) 115015, arXiv:1405.7550.
[Abdelalim:2014cxa]
[21-1464]
Searching for non-diagonal Mass varying mechanism in the $\nu_\mu$-$\nu_\tau$ system, D. R. Gratieri, O. L. G. Peres, Phys. Rev. D90 (2014) 013011, arXiv:1405.7053.
[Gratieri:2014jsa]
[21-1465]
Leptophobic Dark Matter at Neutrino Factories, Brian Batell, Patrick deNiverville, David McKeen, Maxim Pospelov, Adam Ritz, Phys. Rev. D90 (2014) 115014, arXiv:1405.7049.
[Batell:2014yra]
[21-1466]
7 keV Sterile neutrino dark matter in $U(1)_R-$ lepton number model, Sabyasachi Chakraborty, Dilip Kumar Ghosh, Sourov Roy, JHEP 1410 (2014) 146, arXiv:1405.6967.
[Chakraborty:2014tma]
[21-1467]
Post-Sphaleron baryogenesis and $n-\bar{n}$ oscillation in non-SUSY SO(10) GUT with gauge coupling unification and proton decay, Sudhanwa Patra, Prativa Pritimita, Eur.Phys.J. C74 (2014) 3078, arXiv:1405.6836.
[Patra:2014goa]
[21-1468]
Dark matter indirect detection signals and the nature of neutrinos in the supersymmetric $U(1)_{B-L}$ extension of the standard model, Rouzbeh Allahverdi, Sheldon S. Campbell, Bhaskar Dutta, Yu Gao, Phys. Rev. D90 (2014) 073002, arXiv:1405.6253.
[Allahverdi:2014eca]
[21-1469]
Chaotic Hybrid Inflation with a Gauged B - L, Linda M. Carpenter, Stuart Raby, Phys.Lett. B738 (2014) 109-112, arXiv:1405.6143.
[Carpenter:2014saa]
[21-1470]
Discrete flavour symmetries for degenerate solar neutrino pair and their predictions, Anjan S. Joshipura, Ketan M. Patel, Phys. Rev. D90 (2014) 036005, arXiv:1405.6106.
[Joshipura:2014qaa]
[21-1471]
Predicting the Values of the Leptonic CP Violation Phases, S. T. Petcov, Nucl. Phys. B892 (2015) 400-428, arXiv:1405.6006.
[Petcov:2014laa]
[21-1472]
Impact of Semi-annihilation of Z3 Symmetric Dark Matter with Radiative Neutrino Masses, Mayumi Aoki, Takashi Toma, JCAP 09 (2014) 016, arXiv:1405.5870.
[Aoki:2014cja]
[21-1473]
Higgs inflation and Higgs portal dark matter with right-handed neutrinos, Naoyuki Haba, Hiroyuki Ishida, Ryo Takahashi, PTEP 2015 (2014) 053B01, arXiv:1405.5738.
[Haba:2014zja]
[21-1474]
Spherical collapse in $\nu\Lambda\text{CDM}$, Marilena LoVerde, Phys. Rev. D90 (2014) 083518, arXiv:1405.4858.
[LoVerde:2014rxa]
[21-1475]
Extra light fermions in $E_6$-inspired models and the 3.5 keV X-ray line signal, Kazunori Nakayama, Fuminobu Takahashi, Tsutomu T. Yanagida, Phys.Lett. B737 (2014) 311-313, arXiv:1405.4670.
[Nakayama:2014rra]
[21-1476]
Neutrino mixing with non-zero $\theta_{13}$ and CP violation in the 3-3-1 model based on $A_4$ flavor symmetry, V.V.Vien, H.N.Long, Int.J.Mod.Phys. A30 (2015) 1550117, arXiv:1405.4665.
[Vien:2014pta]
[21-1477]
Abelian realization of phenomenological two-zero neutrino textures, R. Gonzalez Felipe, H. Serodio, Nucl. Phys. B886 (2014) 75, arXiv:1405.4263.
[GonzalezFelipe:2014zjk]
[21-1478]
Dirac CP violation in bipair neutrino mixing, Jun Iizuka, Teruyuki Kitabayashi, Yuki Minagawa, Masaki Yasue, Mod.Phys.Lett. A30 (2015) 1550019, arXiv:1405.4045.
[Iizuka:2014mka]
[21-1479]
Z-Z' Mixing and Z-Mediated FCNCs in $SU(3)_C \times SU(3)_L \times U(1)_X$ Models, Andrzej J. Buras, Fulvia De Fazio, Jennifer Girrbach-Noe, JHEP 1408 (2014) 039, arXiv:1405.3850.
[Buras:2014yna]
[21-1480]
Classification of lepton mixing matrices from residual symmetries, Renato M. Fonseca, Walter Grimus, JHEP 09 (2014) 033, arXiv:1405.3678.
[Fonseca:2014koa]
[21-1481]
Revisiting Discrete Dark Matter Model:$\theta_{13}\neq0$ and $\nu_{R}$ Dark Matter, Yuta Hamada et al., JHEP 1410 (2014) 183, arXiv:1405.3592.
[Hamada:2014xha]
[21-1482]
Phenomenological consequences of a simple neutrino mass matrix, Zhen-hua Zhao, JHEP 1411 (2014) 143, arXiv:1405.3022.
[Zhao:2014yaa]
[21-1483]
Phenomenology of 3-3-1-1 model, P. V. Dong, D. T. Huong, Farinaldo S. Queiroz, N. T. Thuy, Phys. Rev. D90 (2014) 075021, arXiv:1405.2591.
[Dong:2014wsa]
[21-1484]
Simple neutrino mass matrix with only two free parameters, Hiroyuki Nishiura, Takeshi Fukuyama, Mod.Phys.Lett. A29 (2014) 0147, arXiv:1405.2416.
[Nishiura:2014psa]
[21-1485]
Radiative Generation of Lepton Masses with the $U(1)'$ Gauge Symmetry, Hiroshi Okada, Kei Yagyu, Phys. Rev. D90 (2014) 035019, arXiv:1405.2368.
[Okada:2014nsa]
[21-1486]
Radiative neutrino mass in 331 scheme, Sofiane M. Boucenna, Stefano Morisi, Jose W.F. Valle, Phys. Rev. D90 (2014) 013005, arXiv:1405.2332.
[Boucenna:2014ela]
[21-1487]
A model for Dirac neutrino mass matrix with only four parameters, Shreyashi Chakdar, Kirtiman Ghosh, S. Nandi, arXiv:1405.2328, 2014.
[Chakdar:2014dla]
[21-1488]
Neutrino Mass and Dark Matter from Gauged $U(1)_{B-L}$ Breaking, Shinya Kanemura, Toshinori Matsui, Hiroaki Sugiyama, Phys. Rev. D90 (2014) 013001, arXiv:1405.1935.
[Kanemura:2014rpa]
[21-1489]
Ultraviolet fixed point and massive composite particles in TeV scales, She-Sheng Xue, Phys.Lett. B737 (2014) 172-177, arXiv:1405.1867.
[Xue:2014opa]
[21-1490]
Neutrino Mixing With Non-Zero $\theta_{13}$ In Zee-Babu Model, H.N. Long, V.V. Vien, Int.J.Mod.Phys. A29 (2014) 1450072, arXiv:1405.1622.
[Long:2014fja]
[21-1491]
Predicting CP violation in Deviation from Tri-bimaximal mixing of Neutrinos, Yusuke Shimizu, Morimitsu Tanimoto, Mod.Phys.Lett. A30 (2015) 1550002, arXiv:1405.1521.
[Shimizu:2014ria]
[21-1492]
LHC signatures of neutrino mass generation through R-parity violation, Roshni Bose, Amitava Datta, Anirban Kundu, Sujoy Poddar, Phys. Rev. D90 (2014) 035007, arXiv:1405.1282.
[Bose:2014vea]
[21-1493]
FIMP realization of the scotogenic model, Emiliano Molinaro, Carlos E. Yaguna, Oscar Zapata, JCAP 1407 (2014) 015, arXiv:1405.1259.
[Molinaro:2014lfa]
[21-1494]
Effects of Mass Varying Neutrinos on Cosmological Parameters as determined from the Cosmic Microwave Background, Akshay Ghalsasi, Ann E. Nelson, Phys. Rev. D90 (2014) 045002, arXiv:1405.0711.
[Ghalsasi:2014mja]
[21-1495]
Near Maximal Atmospheric Neutrino Mixing in Neutrino Mass Models with Two Texture Zeros, S. Dev, Radha Raman Gautam, Lal Singh, Manmohan Gupta, Phys. Rev. D90 (2014) 013021, arXiv:1405.0566.
[Dev:2014dla]
[21-1496]
Neutrino Mass Anarchy and the Universe, Xiaochuan Lu, Hitoshi Murayama, JHEP 1408 (2014) 101, arXiv:1405.0547.
[Lu:2014cla]
[21-1497]
Baryogenesis and Asymmetric Dark Matter from The Left-Right Mirror Symmetric Model, Wei-Min Yang, Nucl. Phys. B885 (2014) 505-523, arXiv:1405.0389.
[Yang:2014jca]
[21-1498]
Confronting the Galactic Center Gamma Ray Excess With a Light Scalar Dark Matter, Dilip Kumar Ghosh, Subhadeep Mondal, Ipsita Saha, JCAP 1502 (2015) 035, arXiv:1405.0206.
[Ghosh:2014pwa]
[21-1499]
Neutrinoful Universe, Tetsutaro Higaki, Ryuichiro Kitano, Ryosuke Sato, JHEP 1407 (2014) 044, arXiv:1405.0013.
[Higaki:2014dwa]
[21-1500]
A Dynamical Framework for KeV Dirac Neutrino Warm Dark Matter, Dean J. Robinson, Yuhsin Tsai, Phys. Rev. D90 (2014) 045030, arXiv:1404.7118.
[Robinson:2014bma]
[21-1501]
A partial $\mu$-$\tau$ symmetry and its prediction for leptonic CP violation, Zhi-zhong Xing, Shun Zhou, Phys.Lett. B737 (2014) 196, arXiv:1404.7021.
[Xing:2014zka]
[21-1502]
Complex Scalar DM in a B-L Model, B. L. Sanchez-Vega, J. C. Montero, E. R. Schmitz, Phys. Rev. D90 (2014) 055022, arXiv:1404.5973.
[Sanchez-Vega:2014rka]
[21-1503]
Sterile neutrinos and right-handed currents in KATRIN, James Barry, Julian Heeck, Werner Rodejohann, JHEP 1407 (2014) 081, arXiv:1404.5955.
[Barry:2014ika]
[21-1504]
Scalar Dark Matter with Type II Seesaw, Arnab Dasgupta, Debasish Borah, Nucl. Phys. B889 (2014) 637, arXiv:1404.5261.
[Dasgupta:2014hha]
[21-1505]
The 3.55 keV X-ray Line Signal from Excited Dark Matter in Radiative Neutrino Model, Hiroshi Okada, Takashi Toma, Phys.Lett. B737 (2014) 162-166, arXiv:1404.4795.
[Okada:2014zea]
[21-1506]
Higgs inflation with singlet scalar dark matter and right-handed neutrino in the light of BICEP2, Naoyuki Haba, Ryo Takahashi, Phys. Rev. D89 (2014) 115009, arXiv:1404.4737.
[Haba:2014zda]
[21-1507]
Effective Theory and Simple Completions for Neutrino Interactions, Mark B. Wise, Yue Zhang, Phys. Rev. D90 (2014) 053005, arXiv:1404.4663.
[Wise:2014oea]
[21-1508]
Fermion EDMs with Minimal Flavor Violation, Xiao-Gang He, Chao-Jung Lee, Siao-Fong Li, Jusak Tandean, JHEP 1408 (2014) 019, arXiv:1404.4436.
[He:2014uya]
[21-1509]
Sneutrino Chaotic Inflation and Landscape, Hitoshi Murayama, Kazunori Nakayama, Fuminobu Takahashi, Tsutomu T. Yanagida, Phys.Lett. B738 (2014) 196-200, arXiv:1404.3857.
[Murayama:2014saa]
[21-1510]
3.5 keV X-ray Line Signal from Decay of Right-Handed Neutrino due to Transition Magnetic Moment, Kamakshya Prasad Modak, JHEP 1503 (2015) 064, arXiv:1404.3676.
[Modak:2014vva]
[21-1511]
A Three-Loop Model of Neutrino Mass with Dark Matter, Amine Ahriche, Chian-Shu Chen, Kristian L. McDonald, Salah Nasri, Phys. Rev. D90 (2014) 015024, arXiv:1404.2696.
[Ahriche:2014cda]
[21-1512]
Reconciling BICEP2 and Planck results with right-handed Dirac neutrinos in the fundamental representation of grand unified $E_6$, Luis A. Anchordoqui, Haim Goldberg, Xing Huang, Brian J. Vlcek, JCAP 1406 (2014) 042, arXiv:1404.1825.
[Anchordoqui:2014dpa]
[21-1513]
TeV scale seesaw from supersymmetric Higgs-lepton inflation and BICEP2, Shinsuke Kawai, Nobuchika Okada, Phys.Lett. B735 (2014) 186-190, arXiv:1404.1450.
[Kawai:2014doa]
[21-1514]
Probing Radiative Neutrino Mass Generation through Monotop Production, John N. Ng, Alejandro de la Puente, Phys. Rev. D90 (2014) 095018, arXiv:1404.1415.
[Ng:2014pqa]
[21-1515]
Lepton Mixing Parameters from $\Delta(48)$ Family Symmetry and Generalised CP, Gui-Jun Ding, Ye-Ling Zhou, JHEP 1406 (2014) 023, arXiv:1404.0592.
[Ding:2014hva]
[21-1516]
Two loop Induced Dirac Neutrino Model and Dark Matters with Global $U(1)'$ Symmetry, Hiroshi Okada, arXiv:1404.0280, 2014.
[Okada:2014vla]
[21-1517]
$\nu\Lambda$MDM: A Model for Sterile Neutrino and Dark Matter Reconciles Cosmological and Neutrino Oscillation Data after BICEP2, P. Ko, Yong Tang, Phys.Lett. B739 (2014) 62-67, arXiv:1404.0236.
[Ko:2014bka]
[21-1518]
Grand Unification, Axion, and Inflation in Intermediate Scale Supersymmetry, Lawrence J. Hall, Yasunori Nomura, Satoshi Shirai, JHEP 1406 (2014) 137, arXiv:1403.8138.
[Hall:2014vga]
[21-1519]
Residual Symmetries Applied to Neutrino Oscillations at NO$\nu$A and T2K, Andrew D. Hanlon, Wayne W. Repko, Duane A. Dicus, Adv.High Energy Phys. 2014 (2014) 469572, arXiv:1403.7552.
[Hanlon:2014bga]
[21-1520]
The Majorana neutrino mass matrix indicated by the current data, Xinyi Zhang, Bo-Qiang Ma, Astronomy 58 (2015) 071002, arXiv:1403.6969.
[Zhang:2014rua]
[21-1521]
Scotogenic $Z_2$ or $U(1)_D$ Model of Neutrino Mass with $\Delta(27)$ Symmetry, Ernest Ma, Alexander Natale, Phys.Lett. B723 (2014) 403-405, arXiv:1403.6772.
[Ma:2014eka]
[21-1522]
$\theta_{13}$ and The Flavor Ring, Jennifer Kile, M. Jay Perez, Pierre Ramond, Jue Zhang, Phys. Rev. D90 (2014) 013004, arXiv:1403.6136.
[Kile:2014kya]
[21-1523]
The Quest for an Intermediate-Scale Accidental Axion and Further ALPs, A. G. Dias, A. C. B. Machado, C. C. Nishi, A. Ringwald, P. Vaudrevange, JHEP 1406 (2014) 037, arXiv:1403.5760.
[Dias:2014osa]
[21-1524]
Radiative Neutrino Mass Model at the $e^{-}e^{+}$ Linear Collider, Amine Ahriche, Salah Nasri, Rachik Soualah, Phys. Rev. D89 (2014) 095010, arXiv:1403.5694.
[Ahriche:2014xra]
[21-1525]
Constraining new physics scenarios in neutrino oscillations from Daya Bay data, I. Girardi, D. Meloni, Phys. Rev. D90 (2014) 073011, arXiv:1403.5507.
[Girardi:2014gna]
[21-1526]
R-Parity Conservation from a Top Down Perspective, Bobby S. Acharya, Gordon L. Kane, Piyush Kumar, Ran Lu, Bob Zheng, JHEP 1410 (2014) 1, arXiv:1403.4948.
[Acharya:2014vha]
[21-1527]
Relic Gravity Waves and 7 keV Dark Matter from a GeV scale inflaton, F. Bezrukov, D. Gorbunov, Phys.Lett. B736 (2014) 494-498, arXiv:1403.4638.
[Bezrukov:2014nza]
[21-1528]
A Bayesian comparison of U(1) lepton flavour models, Johannes Bergstrom, Davide Meloni, Luca Merlo, Phys. Rev. D89 (2014) 093021, arXiv:1403.4528.
[Bergstrom:2014owa]
[21-1529]
Hunting physics beyond the standard model with unusual $W^\pm$ and $Z$ decays in the $\mu$-from-$\nu$ supersymmetric standard model, Pradipta Ghosh, Daniel E. Lopez-Fogliani, Vasiliki A. Mitsou, Carlos Munoz, Roberto Ruiz de Austri, Phys. Rev. D91 (2015) 035020, arXiv:1403.3675.
[Ghosh:2014rha]
[21-1530]
A Dark Matter Progenitor: Light Vector Boson Decay into (Sterile) Neutrinos, Brian Shuve, Itay Yavin, Phys. Rev. D89 (2014) 113004, arXiv:1403.2727.
[Shuve:2014doa]
[21-1531]
Trinification Phenomenology and the structure of Higgs Bosons, Berthold Stech, JHEP 1408 (2014) 139, arXiv:1403.2714.
[Stech:2014tla]
[21-1532]
Fermion masses and mixings in an SU(5) Grand Unified Model with an Extra Flavor Symmetry, Miguel D. Campos, A. E. Carcamo Hernandez, S. Kovalenko, Ivan Schmidt, Erik Schumacher, Phys. Rev. D90 (2014) 016006, arXiv:1403.2525.
[Campos:2014lla]
[21-1533]
X-ray line signal from decaying axino warm dark matter, Ki-Young Choi, Osamu Seto, Phys.Lett. B735 (2014) 92, arXiv:1403.1782.
[Choi:2014tva]
[21-1534]
Lepton Mixing Predictions including Majorana Phases from $\Delta(6n^2)$ Flavour Symmetry and Generalised CP, Stephen F. King, Thomas Neder, Phys.Lett. B736 (2014) 308-316, arXiv:1403.1758.
[King:2014rwa]
[21-1535]
7 keV Dark Matter as X-ray Line Signal in Radiative Neutrino Model, Seungwon Baek, Hiroshi Okada, arXiv:1403.1710, 2014.
[Baek:2014qwa]
[21-1536]
Dressing $L_\mu - L_\tau$ in Color, Wolfgang Altmannshofer, Stefania Gori, Maxim Pospelov, Itay Yavin, Phys. Rev. D89 (2014) 095033, arXiv:1403.1269.
[Altmannshofer:2014cfa]
[21-1537]
Effective field theory and keV lines from dark matter, Rebecca Krall, Matthew Reece, Thomas Roxlo, JCAP 1409 (2014) 007, arXiv:1403.1240.
[Krall:2014dba]
[21-1538]
Resonantly-Produced 7 keV Sterile Neutrino Dark Matter Models and the Properties of Milky Way Satellites, Kevork N. Abazajian, Phys. Rev. Lett. 112 (2014) 161303, arXiv:1403.0954.
[Abazajian:2014gza]
[21-1539]
Effects to $\sin\theta_{12}$ from perturbation of the neutrino mixing matrix with the partially degenerated neutrino masses, Takeshi Araki, Eiichi Takasugi, PTEP 2014 (2014) 053B05, arXiv:1402.7188.
[Araki:2014ofa]
[21-1540]
PQ-symmetry for a small Dirac neutrino mass, dark radiation and cosmic neutrinos, Wan-Il Park, JCAP 1406 (2014) 049, arXiv:1402.6523.
[Park:2014qha]
[21-1541]
Common origin of reactor and sterile neutrino mixing, Alexander Merle, Stefano Morisi, Walter Winter, JHEP 1407 (2014) 039, arXiv:1402.6332.
[Merle:2014eja]
[21-1542]
7 keV sterile neutrino dark matter from split flavor mechanism, Hiroyuki Ishida, Kwang Sik Jeong, Fuminobu Takahashi, Phys.Lett. B732 (2014) 196-200, arXiv:1402.5837.
[Ishida:2014dlp]
[21-1543]
LSP Squark Decays at the LHC and the Neutrino Mass Hierarchy, Zachary Marshall, Burt A. Ovrut, Austin Purves, Sogee Spinner, Phys. Rev. D90 (2014) 015034, arXiv:1402.5434.
[Marshall:2014cwa]
[21-1544]
The Zee-Babu Model revisited in the light of new data, Juan Herrero-Garcia, Miguel Nebot, Nuria Rius, Arcadi Santamaria, Nucl. Phys. B885 (2014) 542-570, arXiv:1402.4491.
[Herrero-Garcia:2014hfa]
[21-1545]
Analysis of excited neutrinos at the CLIC, M. Koksal, Int.J.Mod.Phys. A29 (2014) 1450138, arXiv:1402.2915.
[Koksal:2014gca]
[21-1546]
Status of the Zee-Babu model for neutrino mass and possible tests at a like-sign linear collider, Daniel Schmidt, Thomas Schwetz, He Zhang, Nucl. Phys. B885 (2014) 524-541, arXiv:1402.2251.
[Schmidt:2014zoa]
[21-1547]
Reducing $\theta_{13}$ to 9 degrees, Werner Rodejohann, He Zhang, Phys.Lett. B732 (2014) 174-181, arXiv:1402.2226.
[Rodejohann:2014xoa]
[21-1548]
Generic lepton mass matrices and neutrino oscillations, Rohit Verma, Phys. Rev. D89 (2014) 053007, arXiv:1402.2174.
[Verma:2014woa]
[21-1549]
Color octet neutrino as the source of the IceCube PeV energy neutrino events, A. N. Akay, U. Kaya, S. Sultansoy, arXiv:1402.1681, 2014.
[Akay:2014tga]
[21-1550]
Majorana neutrinos and non minimal lepton mass textures, Samandeep Sharma, Priyanka Fakay, Gulsheen Ahuja, Manmohan Gupta, arXiv:1402.1598, 2014.
[Sharma:2014oha]
[21-1551]
Fully Constrained Majorana Neutrino Mass Matrices using $\Sigma(72\times3)$, R. Krishnan, Eur.Phys.J. C78 (2018) 74, arXiv:1402.0857.
[Krishnan:2014kqa]
[21-1552]
CP violating phase from charged-lepton mixing, J. Alberto Acosta, Alfredo Aranda, Julio Virrueta, JHEP 1404 (2014) 134, arXiv:1402.0754.
[Acosta:2014dqa]
[21-1553]
Radiative neutrino mass generation linked to neutrino mixing and neutrinoless double beta decay predictions, Michael Gustafsson, Jose M. No, Maximiliano A. Rivera, Phys. Rev. D90 (2014) 013012, arXiv:1402.0515.
[Gustafsson:2014vpa]
[21-1554]
Nonzero $\theta_{13}$ and CP Violation from Broken $\mu-\tau$ Symmetry, Asan Damanik, J. Phys. Conf. Ser. 539 (2014) 012012, arXiv:1402.0399.
[Damanik:2014oka]
[21-1555]
Towards a realistic model of quarks and leptons, leptonic CP violation and neutrinoless $\beta\beta$-decay, Y. H. Ahn, Paolo Gondolo, Phys. Rev. D91 (2015) 013007, arXiv:1402.0150.
[Ahn:2014zja]
[21-1556]
Leptonic mixing angle $\theta_{13}$ and ruling out of minimal texture for Dirac neutrinos, Priyanka Fakay, Samandeep Sharma, Gulsheen Ahuja, Manmohan Gupta, PTEP 2014 (2014) 023B03, arXiv:1401.8121.
[Fakay:2014nea]
[21-1557]
Spontaneous R-Parity Breaking, Stop LSP Decays and the Neutrino Mass Hierarchy, Zachary Marshall, Burt A. Ovrut, Austin Purves, Sogee Spinner, Phys.Lett. B732 (2014) 325-329, arXiv:1401.7989.
[Marshall:2014kea]
[21-1558]
Residual Z2 x Z2 symmetries and lepton mixing, Luis Lavoura, Patrick Otto Ludl, Phys.Lett. B731 (2014) 331-336, arXiv:1401.5036.
[Lavoura:2014kwa]
[21-1559]
Spontaneous R-parity violation in the minimal gauged $(B-L)$ supersymmetry with a $125\;{\rm GeV}$ Higgs, Chao-Hsi Chang, Tai-Fu Feng, Yu-Li Yan, Hai-Bin Zhang, Shu-Min Zhao, Phys. Rev. D90 (2014) 035013, arXiv:1401.4586.
[Chang:2014zva]
[21-1560]
Parallel Texture Structures with Cofactor Zeros in Leptonic Sector, Weijian Wang, Phys. Rev. D90 (2014) 033014, arXiv:1401.3949.
[Wang:2014vua]
[21-1561]
Two-zero Majorana textures in the light of the Planck results, D. Meloni, A. Meroni, E. Peinado, Phys. Rev. D89 (2014) 053009, arXiv:1401.3207.
[Meloni:2014yea]
[21-1562]
Transition magnetic moment of Majorana neutrinos in the $\mu\nu$SSM, Hai-Bin Zhang, Tai-Fu Feng, Zhao-Feng Ge, Shu-Min Zhao, JHEP 1402 (2014) 012, arXiv:1401.2704.
[Zhang:2014iva]
[21-1563]
A Large Electron EDM and Minimal Flavor Violation, Xiao-Gang He, Chao-Jung Lee, Siao-Fong Li, Jusak Tandean, Phys. Rev. D89 (2014) 091901, arXiv:1401.2615.
[He:2014fva]
[21-1564]
Baryon Asymmetry, Dark Matter, and Density Perturbation from PBH, Tomohiro Fujita, Masahiro Kawasaki, Keisuke Harigaya, Ryo Matsuda, Phys. Rev. D89 (2014) 103501, arXiv:1401.1909.
[Fujita:2014hha]
[21-1565]
Searching for an elusive charged Higgs at the Large Hadron Collider, Ushoshi Maitra, Biswarup Mukhopadhyaya, S. Nandi, Santosh Kumar Rai, Ambresh Shivaji, Phys. Rev. D89 (2014) 055024, arXiv:1401.1775.
[Maitra:2014qea]
[21-1566]
Proton decay and new contribution to neutrino-less double beta decay in SO(10) with low-mass Z-prime boson, observable n-nbar oscillation, lepton flavor violation, and rare kaon decay, M. K. Parida, Ram Lal Awasthi, P. K. Sahu, JHEP 1501 (2015) 045, arXiv:1401.1412.
[Parida:2014dba]
[21-1567]
Predicting Lepton Flavor Mixing from $\Delta(48)$ and Generalized CP Symmetries, Gui-Jun Ding, Ye-Ling Zhou, Chin.Phys. C39 (2015) 021001, arXiv:1312.5222.
[Ding:2013nsa]
[21-1568]
Tight bonds between sterile neutrinos and dark matter, Torsten Bringmann, Jasper Hasenkamp, Joern Kersten, JCAP 1407 (2014) 042, arXiv:1312.4947.
[Bringmann:2013vra]
[21-1569]
Linking Starobinsky-Type Inflation to MSSM, C. Pallis, JCAP 1404 (2014) 024, arXiv:1312.3623.
[Pallis:2013yda]
[21-1570]
Heavy neutrino searches at the LHC with displaced vertices, Juan Helo, Martin Hirsch, Sergey Kovalenko, Phys. Rev. D89 (2014) 073005, arXiv:1312.2900.
[Helo:2013esa]
[21-1571]
Lepton Flavor Violation in the Scotogenic Model, Takashi Toma, Avelino Vicente, JHEP 1401 (2014) 160, arXiv:1312.2840.
[Toma:2013zsa]
[21-1572]
Large Neutrino Magnetic Dipole Moments in MSSM Extensions, Amin Aboubrahim, Tarek Ibrahim, Ahmad Itani, Pran Nath, Phys. Rev. D89 (2014) 055009, arXiv:1312.2505.
[Aboubrahim:2013yfa]
[21-1573]
Probing Scotogenic Effects in e+e- Colliders, Shu-Yu Ho, Jusak Tandean, Phys. Rev. D89 (2014) 114025, arXiv:1312.0931.
[Ho:2013spa]
[21-1574]
Golden ratio lepton mixing and nonzero reactor angle with $A_5$, I. de Medeiros Varzielas, L. Lavoura, J. Phys. G41 (2014) 055005, arXiv:1312.0215.
[deMedeirosVarzielas:2013tbq]
[21-1575]
Multi-lepton signatures at LHC from sneutrino dark matter, Chiara Arina, Maria Eugenia Cabrera, JHEP 1404 (2014) 100, arXiv:1311.6549.
[Arina:2013zca]
[21-1576]
Dark Matter or Neutrino recoil? Interpretation of Recent Experimental Results, Maxim Pospelov, Josef Pradler, Phys. Rev. D89 (2014) 055012, arXiv:1311.5764.
[Pospelov:2013rha]
[21-1577]
Scalar leptoquarks and Higgs pair production at the LHC, Tsedenbaljir Enkhbat, JHEP 1401 (2014) 158, arXiv:1311.4445.
[Enkhbat:2013oba]
[21-1578]
Left-Right Symmetry and the Charged Higgs Bosons at the LHC, G. Bambhaniya, J. Chakrabortty, J. Gluza, M. Kordiaczynska, R. Szafron, JHEP 1405 (2014) 033, arXiv:1311.4144.
[Bambhaniya:2013wza]
[21-1579]
Radiative Origin of All Quark and Lepton Masses through Dark Matter with Flavor Symmetry, Ernest Ma, Phys. Rev. Lett. 112 (2014) 091801, arXiv:1311.3213.
[Ma:2013mga]
[21-1580]
Texture and Cofactor Zeros of the Neutrino Mass Matrix, Jiajun Liao, D. Marfatia, K. Whisnant, JHEP 1409 (2014) 013, arXiv:1311.2639.
[Liao:2013saa]
[21-1581]
Simple Mass Matrix Ansatze for Neutrino Mixing, HoSeong La, Thomas J. Weiler, arXiv:1311.1550, 2013.
[La:2013qia]
[21-1582]
Hidden sector monopole, vector dark matter and dark radiation with Higgs portal, S. Baek, P. Ko, Wan-Il Park, JCAP 1410 (2014) 067, arXiv:1311.1035.
[Baek:2013dwa]
[21-1583]
Prediction of Neutrino Mixing based on $C_2\times D_3$, HoSeong La, arXiv:1311.0827, 2013.
[La:2013rra]
[21-1584]
Dark matter and $U(1)'$ symmetry for the right-handed neutrinos, Manfred Lindner, Daniel Schmidt, Atsushi Watanabe, Phys. Rev. D89 (2014) 013007, arXiv:1310.6582.
[Lindner:2013awa]
[21-1585]
Charged lepton mixing processes in 331 Models, J. M. Cabarcas, J. Duarte, J.-Alexis Rodriguez, Int.J.Mod.Phys. A29 (2014) 1450015, arXiv:1310.1407.
[Cabarcas:2013jba]
[21-1586]
On neutrinoless double beta decay in the minimal left-right symmetric model, Wei-Chih Huang, J. Lopez-Pavon, Eur.Phys.J. C74 (2014) 2853, arXiv:1310.0265.
[Huang:2013kma]
[21-1587]
A Minimal Supersymmetric Model of Particle Physics and the Early Universe, W. Buchmuller, V. Domcke, K. Kamada, K. Schmitz, 47-77 (2013) 47-77, arXiv:1309.7788.
[Buchmuller:2013dja]
[21-1588]
Higgs boson mass, neutrino masses and mixing and keV dark matter in an $U(1)_R-$ lepton number model, Sabyasachi Chakraborty, Sourov Roy, JHEP 1401 (2014) 101, arXiv:1309.6538.
[Chakraborty:2013gea]
[21-1589]
Longevity Problem of Sterile Neutrino Dark Matter, Hiroyuki Ishida, Kwang Sik Jeong, Fuminobu Takahashi, Phys.Lett. B731 (2014) 242-247, arXiv:1309.3069.
[Ishida:2013mva]
[21-1590]
On the neutrino mass ordering and flavor mixing structure, Zhi-zhong Xing, arXiv:1309.2102, 2013.
[Xing:2013oca]
[21-1591]
Comment on 'Is Dark Matter with Long-Range Interactions a Solution to All Small-Scale Problems of $\Lambda$CDM Cosmology?', Bjorn Ahlgren, Tommy Ohlsson, Shun Zhou, Phys. Rev. Lett. 111 (2013) 199001, arXiv:1309.0991.
[Ahlgren:2013wba]
[21-1592]
Is charged lepton flavour violation a high energy phenomenon?, Frank F. Deppisch, Nishita Desai, Jose W.F. Valle, Phys. Rev. D89 (2014) 051302, arXiv:1308.6789.
[Deppisch:2013cya]
[21-1593]
Phenomenological Study of Residual $Z^s_2$ and $\bar{Z}^s_2$ Symmetries, Andrew D. Hanlon, Shao-Feng Ge, Wayne W. Repko, Phys.Lett. B729 (2014) 185-191, arXiv:1308.6522.
[Hanlon:2013ska]
[21-1594]
Checking Flavour Models at Neutrino Facilities, Davide Meloni, Phys.Lett. B728 (2014) 118-124, arXiv:1308.4578.
[Meloni:2013qda]
[21-1595]
Supersymmetric Left-Right Model of Radiative Neutrino Mass with Multipartite Dark Matter, Subhaditya Bhattacharya, Ernest Ma, Daniel Wegman, Eur.Phys.J. C74 (2014) 2902, arXiv:1308.4177.
[Bhattacharya:2013nya]
[21-1596]
WIMP Dark Matter and Neutrino Mass from Peccei-Quinn Symmetry, Basudeb Dasgupta, Ernest Ma, Koji Tsumura, Phys. Rev. D89 (2014) 041702, arXiv:1308.4138.
[Dasgupta:2013cwa]
[21-1597]
The 3-3-1 model with inert scalar triplet, P. V. Dong, T. Phong Nguyen, D. V. Soa, Phys. Rev. D 88, 095014 (2013) 095014, arXiv:1308.4097.
[Dong:2013ioa]
[21-1598]
Models with radiative neutrino masses and viable dark matter candidates, Diego Restrepo, Oscar Zapata, Carlos Yaguna, JHEP 1311 (2013) 011, arXiv:1308.3655.
[Restrepo:2013aga]
[21-1599]
Fourth generation Majorana neutrino, dark matter and Higgs physics, Shou-Shan Bao, Xue Gong, Zong-Guo Si, Yu-Feng Zhou, Int.J.Mod.Phys. A29 (2014) 1450010, arXiv:1308.3021.
[Bao:2013zua]
[21-1600]
Mass bounds for baryogenesis from particle decays and the inert doublet model, J. Racker, JCAP 1403 (2014) 025, arXiv:1308.1840.
[Racker:2013lua]
[21-1601]
Smallness of $\theta_{13}$ and the size of the Solar Mass Splitting: Are they related?, Soumita Pramanick, Amitava Raychaudhuri, Phys. Rev. D88, 093009 (2013) 093009, arXiv:1308.1445.
[Pramanick:2013coa]
[21-1602]
Dual models of the neutrino mass spectrum, Jiajun Liao, Danny Marfatia, Kerry Whisnant, Phys. Rev. D89 (2014) 013009, arXiv:1308.1368.
[Liao:2013aka]
[21-1603]
Supersymmetry at the LHC and The Theory of R-parity, Pavel Fileviez Perez, Sogee Spinner, Phys.Lett. B728 (2014) 489-495, arXiv:1308.0524.
[FileviezPerez:2013fsv]
[21-1604]
Testable two-loop radiative neutrino mass model based on an $LLQd^cQd^c$ effective operator, Paul W. Angel, Yi Cai, Nicholas L. Rodd, Michael A. Schmidt, Raymond R. Volkas, JHEP 1310 (2013) 118, arXiv:1308.0463.
[Angel:2013hla]
[21-1605]
Dependence of the leptonic decays of $H^-$ on the neutrino mixing angles $\theta_{13}$ and $\theta_{23}$ in models with neutrinophilic charged scalars, A.G. Akeroyd, S. Moretti, Hiroaki Sugiyama, Phys.Lett. B728 (2014) 157, arXiv:1308.0230.
[Akeroyd:2013kga]
[21-1606]
Implications of the Fermi-LAT gamma ray observation on minimal $U(1)_{B-L}$ model, Tanushree Basak, Tanmoy Mondal, Phys. Rev. D89 (2014) 063527, arXiv:1308.0023.
[Basak:2013cga]
[21-1607]
Constraining the Z' Mass in 331 Models using Direct Dark Matter Detection, Stefano Profumo, Farinaldo S. Queiroz, Eur.Phys.J. 74 (2014) 2960, arXiv:1307.7802.
[Profumo:2013sca]
[21-1608]
Large $\theta_{13}$ in a SUSY $SU(5) \times T'$ Model, Mu-Chun Chen, Jinrui Huang, K.T. Mahanthappa, Alexander M. Wijangco, JHEP 1310 (2013) 112, arXiv:1307.7711.
[Chen:2013wba]
[21-1609]
On baryogenesis from dark matter annihilation, Nicolas Bernal, Stefano Colucci, Francois-Xavier Josse-Michaux, J. Racker, Lorenzo Ubaldi, JCAP 1310 (2013) 035, arXiv:1307.6878.
[Bernal:2013bga]
[21-1610]
Geometrical CP violation with a complete fermion sector, Ivo de Medeiros Varzielas, Daniel Pidt, JHEP 1311 (2013) 206, arXiv:1307.6545.
[deMedeirosVarzielas:2013dmf]
[21-1611]
Reproducing lepton mixing in a texture zero model, Luis Lavoura, Werner Rodejohann, Atsushi Watanabe, Phys.Lett. B726 (2013) 352-355, arXiv:1307.6421.
[Lavoura:2013ysa]
[21-1612]
Higgs quartic coupling and neutrino sector evolution in 2UED models, Ammar Abdalgabar, Alan S. Cornell, Aldo Deandrea, Ahmad Tarhini, Eur.Phys.J. C74 (2014) 2893, arXiv:1307.6401.
[Abdalgabar:2013xsa]
[21-1613]
Proton Decay and the Origin of Quark and Lepton Mixing, Stephen M. Barr, Heng-Yu Chen, JHEP 1310 (2013) 049, arXiv:1307.5755.
[Barr:2013dca]
[21-1614]
Physics Case for the ILC Project: Perspective from Beyond the Standard Model, Howard Baer et al., arXiv:1307.5248, 2013.
[Baer:2013vqa]
[21-1615]
Bilinear R Parity Violation at the ILC - Neutrino Physics at Colliders, Jenny List, Benedikt Vormwald, Eur.Phys.J. C74 (2014) 2720, arXiv:1307.4074.
[Vormwald:2013sfm]
[21-1616]
The Power of Neutrino Mass Sum Rules for Neutrinoless Double Beta Decay Experiments, Stephen F. King, Alexander Merle, Alexander J. Stuart, JHEP 1312 (2013) 005, arXiv:1307.2901.
[King:2013psa]
[21-1617]
Dark matter from unification, Kimmo Kainulainen, Kimmo Tuominen, Jussi Virkajarvi, JCAP 1310 (2013) 036, arXiv:1307.1546.
[Kainulainen:2013sva]
[21-1618]
MeV dark matter in the 3+1+1 model, Jinrui Huang, Ann E Nelson, Phys. Rev. D88 (2013) 033016, arXiv:1306.6079.
[Huang:2013zga]
[21-1619]
One diagonal texture or cofactor zero of the neutrino mass matrix, Jiajun Liao, Danny Marfatia, Kerry Whisnant, Phys. Rev. D88 (2013) 033011, arXiv:1306.4659.
[Liao:2013rca]
[21-1620]
New Production Mechanism for keV Sterile Neutrino Dark Matter by Decays of Frozen-In Scalars, Alexander Merle, Viviana Niro, Daniel Schmidt, JCAP 1403 (2014) 028, arXiv:1306.3996.
[Merle:2013wta]
[21-1621]
Neutrino mass textures with one vanishing minor and two equal cofactors, Weijian Wang, arXiv:1306.3556, 2013.
[Wang:2013srq]
[21-1622]
The Sterile Neutrino Field and Late Time Acceleration, Stephon H.S. Alexander, arXiv:1306.2964, 2013.
[Alexander:2013baa]
[21-1623]
Probing Heavy-Light Neutrino Mixing in Left-Right Seesaw Models at the LHC, Chien-Yi Chen, P. S. Bhupal Dev, R. N. Mohapatra, Phys. Rev. D88 (2013) 033014, arXiv:1306.2342.
[Chen:2013foz]
[21-1624]
Radiative Decays of Cosmic Background Neutrinos in Extensions of MSSM with a Vector Like Lepton Generation, Amin Aboubrahim, Tarek Ibrahim, Pran Nath, Phys. Rev. D88 (2013) 013019, arXiv:1306.2275.
[Aboubrahim:2013gfa]
[21-1625]
Charged Higgs and Neutral Higgs pair production of weak gauge bosons fusion process in e+ e- collision, Takuya Morozumi, Kotaro Tamai, PTEP 2013 (2013) 9, arXiv:1306.1670.
[Morozumi:2013rfa]
[21-1626]
Neutrinoless Quadruple Beta Decay, Julian Heeck, Werner Rodejohann, EPL, 103 (2013) 32001, arXiv:1306.0580.
[Heeck:2013rpa]
[21-1627]
A Left-Right Symmetric Theory with Light Sterile Neutrinos, Michael Duerr, Pavel Fileviez Perez, Manfred Lindner, Phys. Rev. D88 (2013) 051701, arXiv:1306.0568.
[Duerr:2013opa]
[21-1628]
Lepton Flavor Violations in High-Scale SUSY with Right-Handed Neutrinos, Takeo Moroi, Minoru Nagai, Tsutomu T. Yanagida, Phys.Lett. B728 (2014) 342-346, arXiv:1305.7357.
[Moroi:2013vya]
[21-1629]
Nonzero $\theta_{13}$, CP Violation, and $\mu-\tau$ Symmetry, Asan Damanik, Chin. J. Phys. 52 (2013) 2014, arXiv:1305.6900.
[Damanik:2013aoa]
[21-1630]
Neutrino mixing with revamped A4 flavour symmetry, S. Morisi, D. V. Forero, J. C. Romao, J. W. F. Valle, Phys. Rev. D88 (2013) 016003, arXiv:1305.6774.
[Morisi:2013qna]
[21-1631]
A flavour GUT model with $\theta_{13}^{\text{PMNS}} = \theta_{\text{C}} / \sqrt{2}$, Stefan Antusch, Christian Gross, Vinzenz Maurer, Constantin Sluka, Nucl. Phys. B879 (2014) 19-36, arXiv:1305.6612.
[Antusch:2013tta]
[21-1632]
A Class of Inert N-tuplet Models with Radiative Neutrino Mass and Dark Matter, Sandy S. C. Law, Kristian L. McDonald, JHEP 1309 (2013) 092, arXiv:1305.6467.
[Law:2013saa]
[21-1633]
Non-Standard Models, Solar Neutrinos, and Large $\theta_{13}$, R. Bonventre et al., Phys. Rev. D88 (2013) 053010, arXiv:1305.5835.
[Bonventre:2013loa]
[21-1634]
Do leptoquarks manifest themselves in ultra-high energy neutrino interactions?, I. Alikhanov, JHEP 1307 (2013) 093, arXiv:1305.2905.
[Alikhanov:2013fda]
[21-1635]
Dark Matter and Vector-like Leptons From Gauged Lepton Number, Pedro Schwaller, Tim M.P. Tait, Roberto Vega-Morales, Phys. Rev. D88 (2013) 035001, arXiv:1305.1108.
[Schwaller:2013hqa]
[21-1636]
Is $\theta_{13}^{PMNS}$ correlated with $\theta_{23}^{PMNS}$ or not?, Takeshi Araki, PTEP 2013 (2013) 103B02, arXiv:1305.0248.
[Araki:2013qya]
[21-1637]
Decoupling of the Right-handed Neutrino Contribution to the Higgs Mass in Supersymmetric Models, Patrick Draper, Howard E. Haber, Eur.Phys.J. C73 (2013) 2522, arXiv:1304.6103.
[Drapera:2013kwi]
[21-1638]
Note on Neutrino Masses and Mixing, Dmitry Zhuridov, arXiv:1304.4870, 2013.
[Zhuridov:2013eqa]
[21-1639]
Non-maximal $\theta_{23}$, large $\theta_{13}$ and tri-bimaximal $\theta_{12}$ via quark-lepton complementarity at next-to-leading order, Junpei Harada, Europhys.Lett. 103 (2013) 21001, arXiv:1304.4526.
[Harada:2013aja]
[21-1640]
Neutrino masses and mixing in A4 models with three Higgs doublets, R. Gonzalez Felipe, H. Serodio, Joao P. Silva, Phys. Rev. D 88 (2013) 015015, arXiv:1304.3468.
[GonzalezFelipe:2013yhh]
[21-1641]
Hybrid Textures of Majorana Neutrino Mass Matrix and Current Experimental Tests, Ji-Yuan Liu, Shun Zhou, Phys. Rev. D87 (2013) 093010, arXiv:1304.2334.
[Liu:2013oxa]
[21-1642]
Dark Matter and Strong Electroweak Phase Transition in a Radiative Neutrino Mass Model, Amine Ahriche, Salah Nasri, JCAP 07 (2013) 035, arXiv:1304.2055.
[Ahriche:2013zwa]
[21-1643]
Five models for lepton mixing, P.M. Ferreira, L. Lavoura, P.O. Ludl, JHEP 1308 (2013) 113, arXiv:1304.1654.
[Ferreira:2013zqa]
[21-1644]
Spontaneous CP Violation in $A_4$ Flavor Symmetry and Leptogenesis, Y. H. Ahn, Sin Kyu Kang, C. S. Kim, Phys. Rev. D88 (2014) 036017, arXiv:1304.0921.
[Vien:2014gza]
[21-1645]
Multi-component Dark Matters in Two Loop Neutrino Model, Yuji Kajiyama, Hiroshi Okada, Takashi Toma, Phys. Rev. D88 (2013) 015029, arXiv:1303.7356.
[Kajiyama:2013rla]
[21-1646]
S4 and CP in a SUSY Model, Ferruccio Feruglio, Claudia Hagedorn, Robert Ziegler, Eur.Phys.J. C74 (2014) 2753, arXiv:1303.7178.
[Feruglio:2013hia]
[21-1647]
Phenomenology of $S_4$ Flavor Symmetric extra U(1) model, Yasuhiro Daikoku, Hiroshi Okada, Phys. Rev. D88 (2013) 015034, arXiv:1303.7056.
[Daikoku:2013fia]
[21-1648]
Phenomenological Aspects of R-parity Violating Supersymmetry with A Vector-like Extra Generation, Xue Chang, Chun Liu, Yi-Lei Tang, Phys. Rev. D87 (2013) 075012, arXiv:1303.7055.
[Chang:2013eia]
[21-1649]
Stitching the Yukawa Quilt in the light of $\theta_{13}$, L. J. Hall, G. G. Ross, JHEP 1311 (2013) 091, arXiv:1303.6962.
[Hall:2013yha]
[21-1650]
The Neutrinos of the Neighboring Brane, A. Nicolaidis, arXiv:1303.6479, 2013.
[Nicolaidis:2013hxa]
[21-1651]
Higgs boson mass in NMSSM with right-handed neutrino, Wenyu Wang, Jin Min Yang, Lin Lin You, JHEP 1307 (2013) 158, arXiv:1303.6465.
[Wang:2013jya]
[21-1652]
Probing Scotogenic Effects in Higgs Boson Decays, Shu-Yu Ho, Jusak Tandean, Phys. Rev. D87 (2013) 095015, arXiv:1303.5700.
[Ho:2013hia]
[21-1653]
Minimal lepton flavour structures lead to non-maximal 2-3 mixing, Michele Frigerio, Albert Villanova del Moral, JHEP 1307 (2013) 146, arXiv:1303.5284.
[Frigerio:2013uva]
[21-1654]
Implications of Higgs to diphoton decay rate in the bilinear R-parity violating supersymmetric model, R. S. Hundi, Phys. Rev. D87 (2013) 115005, arXiv:1303.4583.
[Hundi:2013lca]
[21-1655]
Quark-Lepton Mass Relation and CKM mixing in an A4 Extension of the Minimal Supersymmetric Standard Model, S. Morisi, M. Nebot, Ketan M. Patel, E. Peinado, J. W. F. Valle, Phys. Rev. D88 (2013) 036001, arXiv:1303.4394.
[Morisi:2013eca]
[21-1656]
Unique heavy lepton signature at $e^+e^-$ linear collider with polarized beams, G. Moortgat-Pick, P. Osland, A. A. Pankov, A. V. Tsytrinov, Phys. Rev. D87 (2013) 095017, arXiv:1303.3845.
[Moortgat-Pick:2013jra]
[21-1657]
Charged lepton correction to tribimaximal lepton mixing and its implications to neutrino phenomenology, Srinu Gollu, K.N. Deepthi, R. Mohanta, Mod.Phys.Lett. A28 (2013) 1350131, arXiv:1303.3393.
[Gollu:2013yla]
[21-1658]
Neutrino Mass Matrices with Two Equalities Between the Elements or Cofactors, S. Dev, Radha Raman Gautam, Lal Singh, Phys. Rev. D87 (2013) 073011, arXiv:1303.3092.
[Dev:2013xca]
[21-1659]
Theta(13) and charged Lepton Flavor Violation in 'warped' A(4) models, Avihay Kadosh, JHEP 1306 (2013) 114, arXiv:1303.2645.
[Kadosh:2013nra]
[21-1660]
Study on perturbation schemes for achieving the real PMNS matrix from various symmetric textures, Bin Wang, Jian Tang, Xue-Qian Li, Phys. Rev. D88 (2013) 073003, arXiv:1303.1592.
[Wang:2013wya]
[21-1661]
Minimal Z' models and the 125 GeV Higgs boson, Lorenzo Basso, Phys.Lett. B725 (2013) 322-326, arXiv:1303.1084.
[Basso:2013vla]
[21-1662]
Electroweak precision constraints on the electroweak-scale right-handed neutrino model, Vinh Hoang, Pham Q. Hung, Ajinkya Kamat, Nucl. Phys. B877 (2013) 190-232, arXiv:1303.0428.
[Hoang:2013jfa]
[21-1663]
Baryonic violation of R-parity from anomalous $U(1)_H$, Andres Florez, Diego Restrepo, Mauricio Velasquez, Oscar Zapata, Phys. Rev. D87 (2013) 095010, arXiv:1303.0278.
[Florez:2013mxa]
[21-1664]
An eigenvector based approach to neutrino mixing, D. Aristizabal Sierra, I. de Medeiros Varzielas, E. Houet, Phys. Rev. D87 (2013) 093009, arXiv:1302.6499.
[AristizabalSierra:2013mba]
[21-1665]
Broken S3 Neutrinos, H.B. Benaoum, Phys. Rev. D87 (2013) 073010, arXiv:1302.0950.
[Benaoum:2013ji]
[21-1666]
Neutrino masses, dominant neutrinoless double beta decay, and observable lepton flavor violation in left-right models and SO(10) grand unification with low mass $ W_R, Z_R$ bosons, Ram Lal Awasthi, M. K. Parida, Sudhanwa Patra, JHEP 1308 (2013) 122, arXiv:1302.0672.
[Awasthi:2013ff]
[21-1667]
Neutrino Mass Matrix Textures: A Data-driven Approach, E. Bertuzzo, P. A. N. Machado, R. Zukanovich Funchal, JHEP 1306 (2013) 097, arXiv:1302.0653.
[Bertuzzo:2013ew]
[21-1668]
Nonzero $|U_{e3}|$ from Charged Lepton Corrections and the Atmospheric Neutrino Mixing Angle, David Marzocca, Serguey T. Petcov, Andrea Romanino, Maria C. Sevilla, JHEP 1305 (2013) 073, arXiv:1302.0423.
[Marzocca:2013cr]
[21-1669]
Majorana neutrino mass matrices with three texture zeros and the sterile neutrino, Yongchao Zhang, Phys. Rev. D87 (2013) 053020, arXiv:1301.7302.
[Zhang:2013mb]
[21-1670]
How good is mu-tau symmetry after results on non-zero $\theta_{13}$?, Shivani Gupta, Anjan S. Joshipura, Ketan M. Patel, JHEP 09 (2013) 035, arXiv:1301.7130.
[Gupta:2013it]
[21-1671]
A Model of Four Generation Fermions and Cold Dark Matter and Matter-Antimatter Asymmetry, Wei-Min Yang, Phys. Rev. D87 (2013) 095003, arXiv:1301.6253.
[Yang:2013ra]
[21-1672]
Neutrino textures and charged lepton flavour violation in light of $\theta_{13}$, MEG and LHC data, Mirco Cannoni, John Ellis, Mario E. Gomez, Smaragda Lola, Phys. Rev. D88 (2013) 075005, arXiv:1301.6002.
[Cannoni:2013gq]
[21-1673]
Implications of $\theta_{13}$ on Fritzsch-like lepton mass matrices, Priyanka Fakay, Samandeep Sharma, Rohit Verma, Gulsheen Ahuja, Manmohan Gupta, Physics Letters B720 (2013) 366, arXiv:1301.5970.
[Fakay:2013gf]
[21-1674]
From old to new particles: a simple symmetry is guiding us, S. Khalil, S. Moretti, Front. Physics 1 (2013) 10, arXiv:1301.0144.
[Khalil:2013in]
[21-1675]
Vacuum Stability and Higgs Diphoton Decay Rate in the Zee-Babu Model, Wei Chao, Jian-Hui Zhang, Yongchao Zhang, JHEP 1306 (2013) 039, arXiv:1212.6272.
[Chao:2012xt]
[21-1676]
Multi high charged scalars in the LHC searches and Majorana neutrino mass generations, Chian-Shu Chen, Chao-Qiang Geng, Lu-Hsing Tsai, Phys. Rev. D87, 077702 (2013) 077702, arXiv:1212.6208.
[Chen:2012vm]
[21-1677]
The little hierarchy problem for new physics just beyond the LHC, F. Bazzocchi, M. Fabbrichesi, Eur.Phys.J. C74 (2014) 2774, arXiv:1212.5065.
[Fabbrichesi:2013bax]
[21-1678]
Neutrino Mass and Proton Decay in a ${U(1)}_R$ Symmetric Model, Yusuke Morita, Hiroaki Nakano, Takashi Shimomura, PTEP 2013 (2013) 053B02, arXiv:1212.4304.
[Morita:2012kh]
[21-1679]
Neutrino Mixing: Perturbation, Parameterization and Trimaximal-Cabibbo Mixing, Bo Hu, Phys. Rev. D87 (2013) 053011, arXiv:1212.4079.
[Hu:2012eb]
[21-1680]
LSP sneutrino decays into heavy standard model pairs, D. Aristizabal Sierra, D. Restrepo, S. Spinner, JHEP 1305 (2013) 046, arXiv:1212.3310.
[AristizabalSierra:2012qa]
[21-1681]
Neutrino Mixing and Discrete Symmetries, Bo Hu, Phys. Rev. D87 (2013) 033002, arXiv:1212.2819.
[Hu:2012ei]
[21-1682]
The pair production of Charged and Neutral Higgs bosons in W and Z gauge boson fusion process, Takuya Morozumi, Kotaro Tamai, arXiv:1212.2138, 2012.
[Morozumi:2012sg]
[21-1683]
A Golden $A_5$ Model of Leptons with a Minimal NLO Correction, Iain K. Cooper, Stephen F. King, Alexander J. Stuart, Nucl. Phys. B875 (2013) 650-677, arXiv:1212.1066.
[Cooper:2012bd]
[21-1684]
$0\nu\beta\beta$ decay process in left-right symmetric models without scalar Bidoublet, Sudhanwa Patra, Phys. Rev. D87 (2013) 015002, arXiv:1212.0612.
[Patra:2012ur]
[21-1685]
Dark Matters in Gauged $B-3L_i$ Model, Hiroshi Okada, arXiv:1212.0492, 2012.
[Okada:2012sp]
[21-1686]
Neutrino Mixing Angles from Texture Zeros of the Lepton Mass Matrices, Harald Fritzsch, Shun Zhou, Phys. Lett. B718 (2013) 1457-1464, arXiv:1212.0411.
[Fritzsch:2012rg]
[21-1687]
Universality of Quark-Lepton Mass Matrix, Takeshi Fukuyama, Hiroyuki Nishiura, Mod.Phys.Lett. A28 (2013) 1350017, arXiv:1212.0071.
[Fukuyama:2012mm]
[21-1688]
Bi-Large neutrino mixing with charged lepton correction, Subhankar Roy, N. Nimai Singh, Indian J. Phys. 88 (2014) 513-519, arXiv:1211.7207.
[Roy:2012ib]
[21-1689]
Bi-large Neutrino Mixing and Abelian Flavor Symmetry, Gui-Jun Ding, S. Morisi, J. W. F. Valle, Phys. Rev. D87,053013 (2013) 053013, arXiv:1211.6506.
[Ding:2012wh]
[21-1690]
Neutrino Assisted Gauge Mediation, Hyung Do Kim, Doh Young Mo, Min-Seok Seo, Eur.Phys.J. C73 (2013) 2449, arXiv:1211.6479.
[Kim:2012vz]
[21-1691]
Abelian symmetries as the source of the small neutrino-related flavor parameters, Shahar Amitai, arXiv:1211.6252, 2012.
[Amitai:2012pk]
[21-1692]
Lepton Mixing Parameters from Discrete and CP Symmetries, Ferruccio Feruglio, Claudia Hagedorn, Robert Ziegler, JHEP 1307 (2013) 027, arXiv:1211.5560.
[Feruglio:2012cw]
[21-1693]
UV completions of flavour models and large $\theta_{13}$, Ivo de Medeiros Varzielas, Daniel Pidt, JHEP 1303 (2013) 065, arXiv:1211.5370.
[deMedeirosVarzielas:2012cet]
[21-1694]
Left-right models with light neutrino mass prediction and dominant neutrinoless double beta decay rate, M. K. Parida, Sudhanwa Patra, Phys. Lett B718 (2013) 1407-1412, arXiv:1211.5000.
[Parida:2012sq]
[21-1695]
Neutrino and Extra World, D.S. Baranov, G.G. Volkov, arXiv:1211.4708, 2012.
[Baranov:2013nla]
[21-1696]
Is the 125 GeV Higgs the superpartner of a neutrino?, Francesco Riva, Carla Biggio, Alex Pomarol, JHEP 1302 (2013) 081, arXiv:1211.4526.
[Riva:2012hz]
[21-1697]
Partial mass-degeneracy and spontaneous CP violation in the lepton sector, Takeshi Araki, Hiroyuki Ishida, PTEP 2014 (2012) 013B01, arXiv:1211.4452.
[Araki:2012hb]
[21-1698]
Generalized Friedberg-Lee model for CP violation in neutrino physics, N. Razzaghi, S. S. Gousheh, Phys. Rev. D86 (2012) 053006, arXiv:1211.4389.
[Razzaghi:2012rr]
[21-1699]
Tree-level lepton universality violation in the presence of sterile neutrinos: impact for $R_K$ and $R_pi$, A. Abada, D. Das, A.M. Teixeira, A. Vicente, C. Weiland, JHEP 1302 (2013) 048, arXiv:1211.3052.
[Abada:2012mc]
[21-1700]
Combining searches of Z' and W' bosons, J. de Blas, J. M. Lizana, M. Perez-Victoria, JHEP 1301 (2013) 166, arXiv:1211.2229.
[deBlas:2012qp]
[21-1701]
Simplest Neutrino Mixing from S4 Symmetry, R. Krishnan, P. F. Harrison, W. G. Scott, JHEP 1304 (2013) 087, arXiv:1211.2000.
[Krishnan:2012me]
[21-1702]
Neutrinos and the Higgs Boson in Split Supersymmetry, Giovanna Cottin, Marco Aurelio Diaz, Sebastian Olivares, Nicolas Rojas, arXiv:1211.1000, 2012.
[Cottin:2012is]
[21-1703]
Constraints on the R-Parity violating minimal supersymmetric standard model with neutrino masses from multi-lepton studies at the LHC, M. Hanussek, J. S. Kim, Phys. Rev. D87 (2013) 035002, arXiv:1211.0725.
[Hanussek:2012fc]
[21-1704]
Texture Zeros for Dirac Neutrinos and Current Experimental Tests, Xue-wen Liu, Shun Zhou, Int.J.Mod.Phys. A28 (2013) 1350040, arXiv:1211.0472.
[Liu:2012axa]
[21-1705]
Impact of a light stabilized radion in supernovae cooling, Prasanta Kumar Das, J. R. Selvaganapathy, Chandradew Sharma, Tarun Kumar Jha, V. Sunil Kumar, arXiv:1210.7407, 2012.
[Das:2012zk]
[21-1706]
EITHER keV sterile neutrinos OR quasi-degenerate active neutrinos, Alexander Merle, Phys. Rev. D86 (2012) 121701, arXiv:1210.6036.
[Merle:2012xq]
[21-1707]
'L=R' - $U(1)_R$ Lepton Number at the LHC, Claudia Frugiuele, Thomas Gregoire, Piyush Kumar, Eduardo Ponton, JHEP 1305 (2013) 012, arXiv:1210.5257.
[Frugiuele:2012kp]
[21-1708]
Indirect Probes of Supersymmetry Breaking in Multi-Km3 Neutrino Telescopes, Ivone Freire M. Albuquerque, Jairo Cavalcante de Souza, arXiv:1210.5141, 2012.
[Albuquerque:2012ik]
[21-1709]
'L=R' - $U(1)_R$ as the Origin of Leptonic 'RPV', Claudia Frugiuele, Thomas Gregoire, Piyush Kumar, Eduardo Ponton, JHEP 1303 (2013) 156, arXiv:1210.0541.
[Frugiuele:2012pe]
[21-1710]
Comparison of neutralino and sneutrino dark matter in a model with spontaneous CP violation, Katri Huitu, Jari Laamanen, Lasse Leinonen, Santosh Kumar Rai, Timo Ruppell, JHEP 1211 (2012) 129, arXiv:1209.6302.
[Huitu:2012rd]
[21-1711]
A Possible Hermitian Neutrino Mixing Ansatz, Wu-zhong Guo, Miao Li, Phys. Lett. B718 (2013) 1385-1389, arXiv:1209.5161.
[Guo:2012xb]
[21-1712]
Can Zee-Babu model implemented with scalar dark matter explain both Fermi/LAT 130 GeV $\gamma$-ray excess and neutrino physics ?, Seungwon Baek, P. Ko, Eibun Senaha, JHEP 1409 (2014) 153, arXiv:1209.1685.
[Baek:2012ub]
[21-1713]
Stability of Leptonic Self-complementarity, Naoyuki Haba, Kunio Kaneta, Ryo Takahashi, Europhys. Lett. 101 (2013) 11001, arXiv:1209.1522.
[Haba:2012qx]
[21-1714]
Neutrino mass characteristics in a phenomenological 3+2+1 model, N. Yu. Zysina, S. V. Fomichev, V. V. Khruschov, arXiv:1209.0545, 2012.
[Zysina:2012wz]
[21-1715]
The 130 GeV Fingerprint of Right-Handed Neutrino Dark Matter, Lars Bergstrom, Phys. Rev. D86 (2012) 103514, arXiv:1208.6082.
[Bergstrom:2012bd]
[21-1716]
Finite Symmetry of Leptonic Mass Matrices, C. S. Lam, Phys. Rev. D87 (2013) 013001, arXiv:1208.5527.
[Lam:2012ga]
[21-1717]
Dark Matter, Baryogenesis and Neutrino Oscillations from Right Handed Neutrinos, Laurent Canetti, Marco Drewes, Tibor Frossard, Mikhail Shaposhnikov, Phys. Rev. D87 (2013) 093006, arXiv:1208.4607.
[Canetti:2012kh]
[21-1718]
Limits on MeV Dark Matter from the Effective Number of Neutrinos, Chiu Man Ho, Robert J. Scherrer, Phys. Rev. D87 (2013) 023505, arXiv:1208.4347.
[Ho:2012ug]
[21-1719]
Grand unification in the minimal left-right symmetric extension of the standard model, Fabio Siringo, Phys.Part.Nucl.Lett. 10 (2013) 94-98, arXiv:1208.3599.
[Siringo:2012bc]
[21-1720]
Neutrinos as a probe of dark-matter particles, W.-Y. Pauchy Hwang, Hyperfine Interact. 215 (2013) 105-110, arXiv:1207.6837.
[Hwang:2012vx]
[21-1721]
Neutrino masses and proton decay in SO(10), M. Abud, F. Buccella, D. Falcone, Phys. Rev. D86 (2012) 073014, arXiv:1207.4979.
[Abud:2012xp]
[21-1722]
Baryon number asymmetry and dark matter in the neutrino mass model with an inert doublet, Shoichi Kashiwase, Daijiro Suematsu, Phys. Rev. D86 (2012) 053001, arXiv:1207.2594.
[Kashiwase:2012xd]
[21-1723]
Phases of Flavor Neutrino Masses and CP Violation, Masaki Yasue, Phys. Lett. B718 (2012) 153-159, arXiv:1207.2318.
[Yasue:2012sx]
[21-1724]
Heavy neutrinos, Z' and Higgs bosons at the LHC: new particles from an old symmetry, S. Khalil, S. Moretti, J.Mod.Phys. 4 (2013) 7-10, arXiv:1207.1590.
[Khalil:2012gs]
[21-1725]
Higgs boson of mass 125 GeV in GMSB models with messenger-matter mixing, A. Albaid, K.S. Babu, Phys. Rev. D88 (2013) 055007, arXiv:1207.1014.
[Albaid:2012qk]
[21-1726]
Leptonic CP violation and mixing patterns at neutrino telescopes, Davide Meloni, Tommy Ohlsson, Phys. Rev. D86 (2012) 067701, arXiv:1206.6886.
[Meloni:2012nk]
[21-1727]
Maximal CP-Violation in Neutrino Mass Matrix in light of the latest Daya Bay result on $\theta_{13}$, Surender Verma, Phys. Lett. B714 (2012) 92-96, arXiv:1206.6583.
[Verma:2012ed]
[21-1728]
Updated values of running quark and lepton masses at GUT scale in SM, 2HDM and MSSM, Kalpana Bora, J. Phys. 2 (2012) 2013, arXiv:1206.5909.
[Bora:2012tx]
[21-1729]
CP violating Tri-bimaximal-Cabibbo mixing, D. V. Ahluwalia, ISRN High Energy Phys. 2012 (2012) 954272, arXiv:1206.4779.
[Ahluwalia:2012gw]
[21-1730]
Search for Heavy Majorana Neutrinos at LHC using Monte Carlo simulation, Hesham Mansour, Nady Bakhet, Open J.Microphys. 3 (2013) 12-17, arXiv:1206.4534.
[Mansour:2012em]
[21-1731]
Probing neutralino properties in minimal supergravity with bilinear R-parity violation, F. de Campos et al., Phys. Rev. D86 (2012) 075001, arXiv:1206.3605.
[deCampos:2012pf]
[21-1732]
Bi-large neutrino mixing and the Cabibbo angle, S. M. Boucenna, S. Morisi, M. Tortola, J. W. F. Valle, Phys. Rev. D86 (2012) 051301, arXiv:1206.2555.
[Boucenna:2012xb]
[21-1733]
Radiative Scaling Neutrino Mass and Warm Dark Matter, Ernest Ma, Phys. Lett. B717 (2012) 235-237, arXiv:1206.1812.
[Ma:2012if]
[21-1734]
Mixed sneutrino dark matter in light of the 2011 XENON and LHC results, Beranger Dumont, Genevieve Belanger, Sylvain Fichet, Sabine Kraml, Thomas Schwetz, JCAP 1209 (2012) 013, arXiv:1206.1521.
[Dumont:2012ee]
[21-1735]
A further study of mu-tau symmetry breaking at neutrino telescopes after the Daya Bay and RENO measurements of $\theta_{13}$, Zhi-zhong Xing, Phys. Lett. B716 (2012) 220-224, arXiv:1205.6532.
[Xing:2012sj]
[21-1736]
Mass-Varying Neutrino Cosmologies in light of CMB and Weak Lensing measurements, Giuseppe La Vacca, David F. Mota, Astron.Astrophys. 560 (2013) A53, arXiv:1205.6059.
[LaVacca:2012ir]
[21-1737]
Is dark matter with long-range interactions a solution to all small-scale problems of $\Lambda$CDM cosmology?, Laura G. van den Aarssen, Torsten Bringmann, Christoph Pfrommer, Phys. Rev. Lett. 109 (2012) 231301, arXiv:1205.5809.
[vandenAarssen:2012vpm]
[21-1738]
Discrete Flavour Groups, $\theta_{13}$ and Lepton Flavour Violation, Guido Altarelli, Ferruccio Feruglio, Luca Merlo, Emmanuel Stamou, JHEP 08 (2012) 021, arXiv:1205.4670.
[Altarelli:2012bn]
[21-1739]
Possibility of observing Leptonic CP violation with perturbed Democratic mixing patterns, K. N. Deepthi, R. Mohanta, Mod. Phys. Lett. A27 (2012) 1250175, arXiv:1205.4497.
[Deepthi:2012zt]
[21-1740]
Neutrino masses from lepton and quark mass relations and neutrino oscillations, Fu-Guang Cao, Phys. Rev. D85 (2012) 113003, arXiv:1205.4068.
[Cao:2012un]
[21-1741]
$\theta_{13}$ and the Higgs mass from high scale supersymmetry, Chun Liu, Zhen-hua Zhao, Commun.Theor.Phys. 59 (2013) 467-471, arXiv:1205.3849.
[Liu:2012qua]
[21-1742]
Signatures of sub-GeV dark matter beams at neutrino experiments, Patrick deNiverville, David McKeen, Adam Ritz, Phys. Rev. D86 (2012) 035022, arXiv:1205.3499.
[deNiverville:2012ij]
[21-1743]
A Dirac right-handed sneutrino dark matter and its signature in the gamma-ray lines, Ki-Young Choi, Osamu Seto, Phys. Rev. D86 (2012) 043515, arXiv:1205.3276.
[Choi:2012ap]
[21-1744]
$\theta^{PMNS}_{13} = \theta_C / \sqrt{2}$ from GUTs, Stefan Antusch, Christian Gross, Vinzenz Maurer, Constantin Sluka, Nucl. Phys. B866 (2013) 255-269, arXiv:1205.1051.
[Antusch:2012fb]
[21-1745]
Neutrino mass determination from a four-zero texture mass matrix, J. Barranco, D. Delepine, L. Lopez-Lozano, Phys. Rev. D86 (2012) 053012, arXiv:1205.0859.
[Barranco:2012ci]
[21-1746]
Warm Dark Matter in Low Scale Left-Right Theory, Miha Nemevsek, Goran Senjanovic, Yue Zhang, JCAP 1207 (2012) 006, arXiv:1205.0844.
[Nemevsek:2012cd]
[21-1747]
KeV Warm Dark Matter and Composite Neutrinos, Dean J Robinson, Yuhsin Tsai, JHEP 08 (2012) 161, arXiv:1205.0569.
[Robinson:2012wu]
[21-1748]
Warm Dark Matter from keVins, Stephen F. King, Alexander Merle, JCAP 1208 (2012) 016, arXiv:1205.0551.
[King:2012wg]
[21-1749]
Testing neutrino masses in the R-parity violating minimal supersymmetric standard model with LHC results, M. Hanussek, J.S. Kim, Phys. Rev. D85 (2012) 115021, arXiv:1205.0019.
[Hanussek:2012eh]
[21-1750]
Forbidden and invisible Z boson decays in covariant theta-exact noncommutative standard model, Raul Horvat, Amon Ilakovac, Dalibor Kekez, Josip Trampetic, Jiangyabg You, J. Phys. G41 (2014) 055007, arXiv:1204.6201.
[Horvat:2012vn]
[21-1751]
Effective Lagrangian approach to neutrinoless double beta decay and neutrino masses, Francisco del Aguila, Alberto Aparici, Subhaditya Bhattacharya, Arcadi Santamaria, Jose Wudka, JHEP 06 (2012) 146, arXiv:1204.5986.
[delAguila:2012nu]
[21-1752]
On the simplicity of numbers, Peter Minkowski, arXiv:1204.4376, 2012.
[Minkowski:2012cf]
[21-1753]
Phenomenology of SUSY SU(5) GUT with neutrinophilic Higgs, Naoyuki Haba, Kunio Kaneta, Yasuhiro Shimizu, Phys. Rev. D86 (2012) 015019, arXiv:1204.4254.
[Haba:2012ai]
[21-1754]
Constraints on sub-GeV hidden sector gauge bosons from a search for heavy neutrino decays, S. N. Gninenko, Phys. Lett. B713 (2012) 244-248, arXiv:1204.3583.
[Gninenko:2012eq]
[21-1755]
Neutrinoless double-$beta$ decay in TeV scale Left-Right symmetric models, Joydeep Chakrabortty, H. Zeen Devi, Srubabati Goswami, Sudhanwa Patra, JHEP 08 (2012) 008, arXiv:1204.2527.
[Chakrabortty:2012mh]
[21-1756]
$\theta_{13}$ in Neutrino Mass Matrix with the Minimal Texture, Masataka Fukugita, Yusuke Shimizu, Morimitsu Tanimoto, Tsutomu T. Yanagida, Phys. Lett. B716 (2012) 294-297, arXiv:1204.2389.
[Fukugita:2012jr]
[21-1757]
Corrections to the atmospheric neutrino mixing from charged Higgs and $W'$ contribution to $\nu_\tau$-nucleon scattering, Ahmed Rashed, Murugeswaran Duraisamy, Alakabha Datta, Phys. Rev. D87 (2013) 013002, arXiv:1204.2023.
[Rashed:2012bd]
[21-1758]
Neutrino Mixing Anarchy: Alive and Kicking, Andre de Gouvea, Hitoshi Murayama, Phys.Lett. B747 (2015) 479-483, arXiv:1204.1249.
[deGouvea:2012ac]
[21-1759]
Lower Limits on $\mu\to e \gamma$ from new Measurements on $U_{e3}$, Joydeep Chakrabortty, Pradipta Ghosh, Werner Rodejohann, Phys. Rev. D86 (2012) 075020, arXiv:1204.1000.
[Chakrabortty:2012vp]
[21-1760]
Neutrino masses and LFV from minimal breaking of $U(3)^5$ and $U(2)^5$ flavor symmetries, Gianluca Blankenburg, Gino Isidori, Joel Jones-Perez, Eur. Phys. J. C72 (2012) 2126, arXiv:1204.0688.
[Blankenburg:2012nx]
[21-1761]
Flavour in heavy neutrino searches at the LHC, J. A. Aguilar-Saavedra, F. Deppisch, O. Kittel, J. W. F. Valle, Phys. Rev. D85 (2012) 091301(R), arXiv:1203.5998.
[Aguilar-Saavedra:2012dga]
[21-1762]
Mixing and 1-loop flavor structure of fermionic currents in the Standard Model of electroweak interactions, Bruno Machet, arXiv:1203.5902, 2012.
[Machet:2012et]
[21-1763]
Fitting Neutrino Physics with a $U(1)_R$ Lepton Number, Enrico Bertuzzo, Claudia Frugiuele, JHEP 05 (2012) 100, arXiv:1203.5340.
[Bertuzzo:2012su]
[21-1764]
From dark matter to neutrinoless double beta decay, Pei-Hong Gu, arXiv:1203.4165, 2012.
[Gu:2012tn]
[21-1765]
Linear Collider Test of a Neutrinoless Double Beta Decay Mechanism in left-right Symmetric Theories, James Barry, Luis Dorame, Werner Rodejohann, Eur. Phys. J. C72 (2012) 2023, arXiv:1203.3365.
[Barry:2012ga]
[21-1766]
Lepton Flavor Violation at the Large Hadron Collider, Rouzbeh Allahverdi, Bhaskar Dutta, Teruki Kamon, Abram Krislock, Phys. Rev. D86 (2012) 015026, arXiv:1203.3276.
[Allahverdi:2012fb]
[21-1767]
Cosmological models with interacting components and mass-varying neutrinos, Lucas G. Collodel, Gilberto M. Kremer, Grav. Cosmol. 18 (2012) 196-200, arXiv:1203.3061.
[Collodel:2012bp]
[21-1768]
Spontaneous B-L Breaking as the Origin of the Hot Early Universe, Wilfried Buchmuller, Valerie Domcke, Kai Schmitz, Nucl. Phys. B862 (2012) 587-632, arXiv:1202.6679.
[Buchmuller:2012wn]
[21-1769]
$\theta_{13}$ and Proton Decay in a Minimal $SO(10) \times S_4$ model of Flavor, P.S.Bhupal Dev, Bhaskar Dutta, R.N. Mohapatra, Matthew Severson, Phys. Rev. D86 (2012) 035002, arXiv:1202.4012.
[BhupalDev:2012nm]
[21-1770]
Enhancing $l_i \to 3 l_j$ with the $Z^0$-penguin, M. Hirsch, F. Staub, A. Vicente, Phys. Rev. D85 (2012) 113013, arXiv:1202.1825.
[Hirsch:2012ax]
[21-1771]
Dark matter in the classically conformal B-L model, Nobuchika Okada, Yuta Orikasa, Phys. Rev. D85 (2012) 115006, arXiv:1202.1405.
[Okada:2012sg]
[21-1772]
Extension of a radiative neutrino mass model based on a cosmological view point, Daijiro Suematsu, Phys. Rev. D85 (2012) 073008, arXiv:1202.0656.
[Suematsu:2012gk]
[21-1773]
Light Sterile Neutrinos and Short Baseline Neutrino Oscillation Anomalies, JiJi Fan, Paul Langacker, JHEP 04 (2012) 083, arXiv:1201.6662.
[Fan:2012ca]
[21-1774]
Radiative corrections to electroweak parameters in the Y=1 Higgs triplet model and implication with the recent Higgs boson searches at the CERN LHC, Shinya Kanemura, Kei Yagyu, Phys. Rev. D85 (2012) 115009, arXiv:1201.6287.
[Kanemura:2012rs]
[21-1775]
The Minimal Theory for R-parity Violation at the LHC, Pavel Fileviez Perez, Sogee Spinner, JHEP 04 (2012) 118, arXiv:1201.5923.
[FileviezPerez:2012mj]
[21-1776]
Relating large $U_{e3}$ to the ratio of neutrino mass-squared differences, Werner Rodejohann, Morimitsu Tanimoto, Atsushi Watanabe, Phys. Lett. B710 (2012) 636-640, arXiv:1201.4936.
[Rodejohann:2012jz]
[21-1777]
Lepton flavor models with discrete prediction of $\theta_{13}$, Hajime Ishimori, Tatsuo Kobayashi, Phys. Rev. D85 (2012) 125004, arXiv:1201.3429.
[Ishimori:2012gv]
[21-1778]
TFH Mixing Patterns, Large $\theta_{13}$ and $\Delta(96)$ Flavor Symmetry, Gui-Jun Ding, Nucl. Phys. B862 (2012) 1-42, arXiv:1201.3279.
[Ding:2012xx]
[21-1779]
Lepton Number and Lepton Flavor Violation through Color Octet States, Sandhya Choubey, Michael Duerr, Manimala Mitra, Werner Rodejohann, JHEP 05 (2012) 017, arXiv:1201.3031.
[Choubey:2012ux]
[21-1780]
Nonzero $\theta_{13}$ and Neutrino Masses from Modified Neutrino Mixing Matrix, Asan Damanik, Int. J. Mod. Phys. A27 (2012) 1250091, arXiv:1201.2747.
[Damanik:2012nu]
[21-1781]
Outlook on the Higgs particles, masses and physical bounds in the Two Higgs-Doublet Model, S. R. Juarez W., D. Morales C., P. Kielanowski, arXiv:1201.1876, 2012.
[JuarezW:2012qwe]
[21-1782]
Magnetic dipole moment and keV neutrino dark matter, Chao-Qiang Geng, Ryo Takahashi, Phys. Lett. B710 (2012) 324-327, arXiv:1201.1534.
[Geng:2012jm]
[21-1783]
Novel sources of Flavor Changed Neutral Currents in the $331_{RHN}$ model, D. Cogollo, A. Vital de Andrade, F. S. Queiroz, P. R. Teles, Eur. Phys. J. C72 (2012) 2029, arXiv:1201.1268.
[Cogollo:2012ek]
[21-1784]
Direct Detection of Leptophilic Dark Matter in a Model with Radiative Neutrino Masses, Daniel Schmidt, Thomas Schwetz, Takashi Toma, Phys. Rev. D85 (2012) 073009, arXiv:1201.0906.
[Schmidt:2012yg]
[21-1785]
Constraining an R-parity violating supergravity model with the Higgs induced Majorana neutrino magnetic moments, Marek Gozdz, Phys. Rev. D85 (2012) 055016, arXiv:1201.0873.
[Gozdz:2012xw]
[21-1786]
Leptonic asymmetry of the sterile neutrino hadronic decays in the nuMSM, Volodymyr M. Gorkavenko, Igor Rudenok, Stanislav I. Vilchynskiy, Ukr. J. Phys., Vol. 58, No. 9 (2013) 811-826, arXiv:1201.0003.
[Gorkavenko:2012ksy]
[21-1787]
Kinetic Equations for Baryogenesis via Sterile Neutrino Oscillation, Takehiko Asaka, Shintaro Eijima, Hiroyuki Ishida, JCAP 1202 (2012) 021, arXiv:1112.5565.
[Asaka:2011wq]
[21-1788]
Structure Formation and Backreaction in Growing Neutrino Quintessence, Youness Ayaita, Maik Weber, Christof Wetterich, Phys. Rev. D85 (2012) 123010, arXiv:1112.4762.
[Ayaita:2011ay]
[21-1789]
Muon g-2 and lepton flavor violation in a two Higgs doublets model for the fourth generation, Shaouly Bar-Shalom, Soumitra Nandi, Amarjit Soni, Phys. Lett. B709 (2012) 207-217, arXiv:1112.3661.
[Bar-Shalom:2011nek]
[21-1790]
A simple model for magnetic inelastic dark matter (MiDM), Sudhanwa Patra, Soumya Rao, arXiv:1112.3454, 2011.
[Patra:2011aa]
[21-1791]
T2K Signals Non-Maximal Atmospheric Neutrino Mixing, David A. Eby, Paul H. Frampton, Phys. Rev. D86 (2012) 117304, arXiv:1112.2675.
[Eby:2011aa]
[21-1792]
Planck scale Boundary Conditions and the Higgs Mass, Martin Holthausen, Kher Sham Lim, Manfred Lindner, JHEP 02 (2012) 037, arXiv:1112.2415.
[Holthausen:2011aa]
[21-1793]
Supersymmetric standard model inflation in the Planck era, Masato Arai, Shinsuke Kawai, Nobuchika Okada, Phys. Rev. D86 (2012) 063507, arXiv:1112.2391.
[Arai:2011aa]
[21-1794]
The unification of quark and lepton mixings: favored SUSY spectra for LHC, Abhijit Samanta, Phys.Lett. B728 (2014) 11-14, arXiv:1112.1169.
[Samanta:2011kvf]
[21-1795]
A model of superluminal neutrinos, D. Marfatia, H. Pas, S. Pakvasa, T. J. Weiler, Phys. Lett. B707 (2012) 553-557, arXiv:1112.0527.
[Marfatia:2011bw]
[21-1796]
Real and complex random neutrino mass matrices and theta13, Janusz Gluza, Robert Szafron, Phys. Rev. D85 (2012) 047701, arXiv:1111.7278.
[Gluza:2011nm]
[21-1797]
Neutrino Cosmology after WMAP and LHC7, Luis Alfredo Anchordoqui, Haim Goldberg, Phys. Rev. Lett. 108 (2012) 081805, arXiv:1111.7264.
[Anchordoqui:2011nh]
[21-1798]
A realistic model of neutrino masses with a large neutrinoless double beta decay rate, Francisco del Aguila, Alberto Aparici, Subhaditya Bhattacharya, Arcadi Santamaria, Jose Wudka, JHEP 05 (2012) 133, arXiv:1111.6960.
[delAguila:2011gr]
[21-1799]
Comparison of the full matrix element calculation with the simplified calculation of the $W_R$ production at the LHC (left-right symmetric model), G. Bednik, M. Kirsanov, arXiv:1111.6582, 2011.
[Bednik:2011yk]
[21-1800]
Constraining neutrinoless double beta decay, L. Dorame, D. Meloni, S. Morisi, E. Peinado, J. W. F. Valle, Nucl. Phys. B861 (2012) 259-270, arXiv:1111.5614.
[Dorame:2011eb]
[21-1801]
Dark Matter from Binary Tetrahedral Flavor Symmetry, David A. Eby, Paul H. Frampton, Phys. Lett. B713 (2012) 249-254, arXiv:1111.4938.
[Eby:2011qa]
[21-1802]
Deviation from Tri-Bimaximal Mixing and Large Reactor Mixing Angle, Ahmed Rashed, Nucl. Phys. B874 (2013) 679-697, arXiv:1111.3072.
[Rashed:2011xe]
[21-1803]
Neutrino mixing matrices with relatively large $\vartheta_{13}$ and with texture one-zero, K N. Deepthi, Srinu Gollu, R. Mohanta, Eur. Phys. J. C72 (2012) 1888, arXiv:1111.2781.
[Deepthi:2011sk]
[21-1804]
Implications of Recent Data on Neutrino Mixing and Lepton Flavour Violating Decays for the Zee Model, Xiao-Gang He, Swarup Kumar Majee, JHEP 03 (2012) 023, arXiv:1111.2293.
[He:2011hs]
[21-1805]
Near Maximal Atmospheric Mixing in Neutrino Mass Matrices with Two Vanishing Minors, S. Dev, Shivani Gupta, Radha Raman Gautam, Lal Singh, Phys. Lett. B706 (2011) 168-176, arXiv:1111.1300.
[Dev:2011hf]
[21-1806]
Proton Stability in $S_4 \times Z_2$ Flavor Symmetric Extra U(1) Model, Yasuhiro Daikoku, Hiroshi Okada, Prog.Theor.Phys. 128 (2012) 1229-1250, arXiv:1111.1095.
[Daikoku:2012fz]
[21-1807]
Cosmological evolution of warm dark matter fluctuations II: Solution from small to large scales and keV sterile neutrinos, H. J. de Vega, N. G. Sanchez, Phys. Rev. D85 (2012) 043517, arXiv:1111.0300.
[deVega:2011gs]
[21-1808]
Cosmological evolution of warm dark matter fluctuations I: Efficient computational framework with Volterra integral equations, H. J. de Vega, N. G. Sanchez, Phys. Rev. D85 (2012) 043516, arXiv:1111.0290.
[deVega:2011gg]
[21-1809]
Common origin of baryon asymmetry and proton decay, Pei-Hong Gu, Utpal Sarkar, Mod.Phys.Lett. A28 (2013) 1350159, arXiv:1110.4581.
[Gu:2011pf]
[21-1810]
Sneutrino Dark Matter in Gauged Inverse Seesaw Models for Neutrinos, Haipeng An, P. S. Bhupal Dev, Yi Cai, R. N. Mohapatra, Phys. Rev. Lett. 108 (2012) 081806, arXiv:1110.1366.
[An:2011uq]
[21-1811]
Baryon asymmetry of the universe and new neutrino states, Sebastian Hollenberg, Heinrich Pas, Dario Schalla, arXiv:1110.0948, 2011.
[Hollenberg:2011kq]
[21-1812]
Ultra-light Axions: Degeneracies with Massive Neutrinos and Forecasts for Future Cosmological Observations, David J. E. Marsh, Edward Macaulay, Maxime Trebitsch, Pedro G. Ferreira, Phys. Rev. D85 (2012) 103514, arXiv:1110.0502.
[Marsh:2011bf]
[21-1813]
A full parametrization of the 6 X 6 flavor mixing matrix in the presence of three light or heavy sterile neutrinos, Zhi-zhong Xing, Phys. Rev. D85 (2012) 013008, arXiv:1110.0083.
[Xing:2011ur]
[21-1814]
On a possible relationship between lepton mixing and the stability of dark matter, L. Lavoura, J. Phys. G39 (2012) 025202, arXiv:1109.6854.
[Lavoura:2011ry]
[21-1815]
Dark matter and LHC phenomenology in a left-right supersymmetric model, J. N. Esteves et al., JHEP 01 (2012) 095, arXiv:1109.6478.
[Esteves:2011gk]
[21-1816]
R-Parity violating flavor symmetries, recent neutrino data and absolute neutrino mass scale, Gautam Bhattacharyya, Heinrich Pas, Daniel Pidt, Phys. Rev. D84 (2011) 113009, arXiv:1109.6183.
[Bhattacharyya:2011zv]
[21-1817]
Constraints on sterile neutrino dark matter from XMM-Newton observation of M33, Enrico Borriello, Maurizio Paolillo, Gennaro Miele, Gennaro Longo, Richard Owen, Mon. Not. Roy. Astron. Soc. 425 (2012) 1628-1632, arXiv:1109.5943.
[Borriello:2011un]
[21-1818]
Light dark matter versus astrophysical constraints, James M. Cline, Andrew R. Frey, Phys. Lett. B706 (2012) 384-388, arXiv:1109.4639.
[Cline:2011uu]
[21-1819]
Neutrino mass from higher than d=5 effective operators in SUSY, and its test at the LHC, Martin B. Krauss, Toshihiko Ota, Werner Porod, Walter Winter, Phys. Rev. D84 (2011) 115023, arXiv:1109.4636.
[Krauss:2011ur]
[21-1820]
Non-zero $\theta_{13}$ and CP-violation in inverse neutrino mass matrix, Surender Verma, Nucl. Phys. B854 (2012) 340-349, arXiv:1109.4228.
[Verma:2011kz]
[21-1821]
Computation of Neutrino Masses in R-parity Violating Supersymmetry: SOFTSUSY3.2, B.C. Allanach, C.H. Kom, M. Hanussek, Comput. Phys. Commun. 183 (2012) 785-793, arXiv:1109.3735.
[Allanach:2011de]
[21-1822]
Search of keV Sterile Neutrino Warm Dark Matter in the Rhenium and Tritium beta decays, H.J. de Vega, O. Moreno, E. Moya de Guerra, M. Ramon Medrano, N. Sanchez, Nucl. Phys. B866 (2013) 177-195, arXiv:1109.3452.
[deVega:2011xh]
[21-1823]
The reactor mixing angle and CP violation with two texture zeros in the light of T2K, P.O. Ludl, S. Morisi, E. Peinado, Nucl. Phys. B857 (2012) 411-423, arXiv:1109.3393.
[Ludl:2011vv]
[21-1824]
Predictions for Neutrino Masses, $\beta\beta_{0nu}$-Decay and Lepton Flavor Violation in a SUSY $SU(5) \times T^{\prime}$ Model of Flavour, Mu-Chun Chen, Kalyana T. Mahanthappa, Aurora Meroni, S. T. Petcov, arXiv:1109.0731, 2011.
[Chen:2011vd]
[21-1825]
Gravitino dark matter and neutrino masses with bilinear R-parity violation, Diego Restrepo, Marco Taoso, J.W.F. Valle, Oscar Zapata, Phys. Rev. D85 (2012) 023523, arXiv:1109.0512.
[Restrepo:2011rj]
[21-1826]
Non-standard neutrinos interactions in a 331 model with minimum Higgs sector, M. Medina, P.C. de Holanda, Adv. High Energy Phys. 2012 (2012) 763829, arXiv:1108.5228.
[Medina:2011jh]
[21-1827]
Two-zero Textures of the Majorana Neutrino Mass Matrix and Current Experimental Tests, Harald Fritzsch, Zhi-zhong Xing, Shun Zhou, JHEP 09 (2011) 083, arXiv:1108.4534.
[Fritzsch:2011qv]
[21-1828]
Trimaximal mixing with predicted $\theta_{13}$ from a new type of constrained sequential dominance, Stefan Antusch, Stephen F. King, Christoph Luhn, Martin Spinrath, Nucl. Phys. B856 (2012) 328-341, arXiv:1108.4278.
[Antusch:2011ic]
[21-1829]
Testing Nonstandard Neutrino Properties with a Mossbauer Oscillation Experiment, P.A.N. Machado, H. Nunokawa, F. A. Pereira dos Santos, R. Zukanovich Funchal, JHEP 11 (2011) 136, arXiv:1108.3339.
[Machado:2011tn]
[21-1830]
A Model for Tri-bimaximal Mixing from a Completely Broken $A_4$, Gui-Jun Ding, Davide Meloni, Nucl. Phys. B855 (2012) 21-45, arXiv:1108.2733.
[Ding:2011gt]
[21-1831]
Tri-Permuting Mixing Matrix and predictions for $\vartheta_{13}$, F. Bazzocchi, arXiv:1108.2497, 2011.
[Bazzocchi:2011ax]
[21-1832]
Implications of a class of neutrino mass matrices with texture zeros for non-zero $\vartheta_{13}$, Sanjeev Kumar, Phys. Rev. D84 (2011) 077301, arXiv:1108.2137.
[Kumar:2011vf]
[21-1833]
Flavour violation in a supersymmetric T' model, Luca Merlo, Stefano Rigolin, Bryan Zaldivar, JHEP 11 (2011) 047, arXiv:1108.1795.
[Merlo:2011hw]
[21-1834]
$sin\vartheta_{13}$ and neutrino mass matrix with an approximate flavor symmetry and that with SU(3) symmetry, Riazuddin, JHEP 07 (2012) 103, arXiv:1108.1469.
[Riazuddin:2011bu]
[21-1835]
Tensorial NSI and Unparticle physics in neutrino-electron scattering, J. Barranco, A. Bolanos, E. A. Garces, O. G. Miranda, T. I. Rashba, Int. J. Mod. Phys. A27 (2012) 1250147, arXiv:1108.1220.
[Barranco:2011wx]
[21-1836]
Very light right-handed sneutrino dark matter in the NMSSM, David G. Cerdeno, Ji-Haeng Huh, Miguel Peiro, Osamu Seto, JCAP 1111 (2011) 027, arXiv:1108.0978.
[Cerdeno:2011qv]
[21-1837]
Model-Independent Prediction of a Large Reactor Angle $\vartheta_{13}$, Shao-Feng Ge, Duane A. Dicus, Wayne W. Repko, Phys. Rev. Lett. 108 (2012) 041801, arXiv:1108.0964.
[Ge:2011qn]
[21-1838]
Sizeable $\vartheta_{13}$ from the Charged Lepton Sector in SU(5), (Tri-)Bimaximal Neutrino Mixing and Dirac CP Violation, David Marzocca, Serguey T. Petcov, Andrea Romanino, Martin Spinrath, JHEP 11 (2011) 009, arXiv:1108.0614.
[Marzocca:2011dh]
[21-1839]
Nonzero Theta13 for Neutrino Mixing in a Supersymmetric B-L Gauge Model with $T_7$ Lepton Flavor Symmetry, Qing-Hong Cao, Shaaban Khalil, Ernest Ma, Hiroshi Okada, Phys. Rev. D84 (2011) 071302, arXiv:1108.0570.
[Cao:2011cp]
[21-1840]
Neutrinoless Double Beta Decay and Heavy Sterile Neutrinos, Manimala Mitra, Goran Senjanovic, Francesco Vissani, Nucl. Phys. B856 (2012) 26-73, arXiv:1108.0004.
[Mitra:2011qr]
[21-1841]
Gauged $L_\mu - L_\tau$ Symmetry at the Electroweak Scale, Julian Heeck, Werner Rodejohann, Phys. Rev. D84 (2011) 075007, arXiv:1107.5238.
[Heeck:2011wj]
[21-1842]
The Higgs sector of the munuSSM and collider physics, Javier Fidalgo, Daniel E. Lopez-Fogliani, Carlos Munoz, Roberto Ruiz de Austri, JHEP 10 (2011) 020, arXiv:1107.4614.
[Fidalgo:2011ky]
[21-1843]
Observing a light dark matter beam with neutrino experiments, Patrick deNiverville, Maxim Pospelov, Adam Ritz, Phys. Rev. D84 (2011) 075020, arXiv:1107.4580.
[deNiverville:2011it]
[21-1844]
Parametrization of Seesaw Models and Light Sterile Neutrinos, Mattias Blennow, Enrique Fernandez-Martinez, Phys. Lett. B704 (2011) 223-229, arXiv:1107.3992.
[Blennow:2011vn]
[21-1845]
Systematic search for successful neutrino mixing patterns with nonzero $\theta_{13}$, Werner Rodejohann, He Zhang, Shun Zhou, Nucl. Phys. B855 (2012) 592-607, arXiv:1107.3970.
[Rodejohann:2011uz]
[21-1846]
Large $\vartheta_{13}^{\text{MNS}}$ and Quark-Lepton Mass Ratios in Unified Flavour Models, Stefan Antusch, Vinzenz Maurer, Phys. Rev. D84 (2011) 117301, arXiv:1107.3728.
[Antusch:2011qg]
[21-1847]
Discrete Flavour Symmetries in Light of T2K, Reinier de Adelhart Toorop, Ferruccio Feruglio, Claudia Hagedorn, Phys. Lett. B703 (2011) 447-451, arXiv:1107.3486.
[deAdelhartToorop:2011nfg]
[21-1848]
Understanding neutrino properties from decoupling right-handed neutrinos and extra Higgs doublets, Alejandro Ibarra, Cristoforo Simonetto, JHEP 11 (2011) 022, arXiv:1107.2386.
[Ibarra:2011gn]
[21-1849]
Relatively Large Theta13 from Modification to the Tri-bimaximal, Bimaximal and Democratic Neutrino Mixing Matrices, Wei Chao, Ya-juan Zheng, JHEP 1302 (2013) 044, arXiv:1107.0738.
[Chao:2011sp]
[21-1850]
Model for T2K indication with maximal atmospheric angle and tri-maximal solar angle, S. Morisi, Ketan M. Patel, E. Peinado, Phys. Rev. D84 (2011) 053002, arXiv:1107.0696.
[Morisi:2011pm]
[21-1851]
Bimaximal mixing and large theta13 in a SUSY SU(5) model based on S4, Davide Meloni, JHEP 10 (2011) 010, arXiv:1107.0221.
[Meloni:2011fx]
[21-1852]
Predictions via large theta13 from cascades, Naoyuki Haba, Ryo Takahashi, Phys. Lett. B702 (2011) 388-393, arXiv:1106.5926.
[Haba:2011nv]
[21-1853]
Two scales in neutrino physics, V. V. Khruschov, arXiv:1106.5580, 2011.
[Khruschov:2011cn]
[21-1854]
Geometrical CP Violation, Ivo de Medeiros Varzielas, David Emmanuel-Costa, Phys. Rev. D84 (2011) 117901, arXiv:1106.5477.
[deMedeirosVarzielas:2011zw]
[21-1855]
Getting at large $\theta_{13}$ with almost maximal $\theta_{23}$ from tri-bimaximal mixing, Takeshi Araki, Phys. Rev. D84 (2011) 037301, arXiv:1106.5211.
[Araki:2011wn]
[21-1856]
Late and early time phenomenology of Higgs-dependent cutoff, F. Bezrukov, D. Gorbunov, M. Shaposhnikov, JCAP 1110 (2011) 001, arXiv:1106.5019.
[Bezrukov:2011sz]
[21-1857]
Searches for Lepton Flavour Violation at a Linear Collider, E. Carquin, J. Ellis, M.E. Gomez, S. Lola, JHEP 11 (2011) 050, arXiv:1106.4903.
[Carquin:2011rg]
[21-1858]
Superconformal Technicolor: Models and Phenomenology, Aleksandr Azatov, Jamison Galloway, Markus A. Luty, Phys. Rev. D85 (2012) 015018, arXiv:1106.4815.
[Azatov:2011ps]
[21-1859]
Relatively large theta13 and nearly maximal theta23 from the approximate S3 symmetry of lepton mass matrices, Shun Zhou, Phys. Lett. B704 (2011) 291-295, arXiv:1106.4808.
[Zhou:2011nu]
[21-1860]
Determining R-parity violating parameters from neutrino and LHC data, Frank Thomas, Werner Porod, JHEP 10 (2011) 089, arXiv:1106.4658.
[Thomas:2011kt]
[21-1861]
Minimal Modification to Tri-bimaximal Mixing, Xiao-Gang He, A. Zee, Phys. Rev. D84 (2011) 053004, arXiv:1106.4359.
[He:2011gb]
[21-1862]
Nonzero theta(13) for neutrino mixing in the context of A(4) symmetry, Ernest Ma, Daniel Wegman, Phys. Rev. Lett. 107 (2011) 061803, arXiv:1106.4269.
[Ma:2011yi]
[21-1863]
Flavor Violation in a Minimal $SO(10)\times A_4$ SUSY GUT, Abdelhamid Albaid, Int. J. Mod. Phys. A27 (2012) 1250005, arXiv:1106.4070.
[Albaid:2011vr]
[21-1864]
Re-evaluation of neutrino mixing pattern according to latest T2K result, Ya-juan Zheng, Bo-Qiang Ma, Eur.Phys.J.Plus 127 (2012) 7, arXiv:1106.4040.
[Zheng:2011uz]
[21-1865]
Comment on astrophysical consequences of a neutrinophilic 2HDM, Shun Zhou, Phys. Rev. D84 (2011) 038701, arXiv:1106.3880.
[Zhou:2011rc]
[21-1866]
A Leptophobic Z' And Dark Matter From Grand Unification, Matthew R. Buckley, Dan Hooper, Jonathan L. Rosner, Phys. Lett. B703 (2011) 343-347, arXiv:1106.3583.
[Buckley:2011mm]
[21-1867]
Production of doubly charged scalars from the decay of a heavy SM-like Higgs boson in the Higgs Triplet Model, A.G. Akeroyd, S. Moretti, Phys. Rev. D84 (2011) 035028, arXiv:1106.3427.
[Akeroyd:2011ir]
[21-1868]
A new relation between quark and lepton mixing matrices, Nan Qin, Bo-Qiang Ma, Phys. Lett. B702 (2011) 143-149, arXiv:1106.3284.
[Qin:2011bq]
[21-1869]
The T2K Indication of Relatively Large $\theta_{13}$ and a Natural Perturbation to the Democratic Neutrino Mixing Pattern, Zhi-zhong Xing, Chin. Phys. C36 (2012) 101-105, arXiv:1106.3244.
[Xing:2011at]
[21-1870]
A Geometrical Model for Non-Zero $\theta_{13}$, Jun-Mou Chen, Bin Wang, Xue-Qian Li, Phys. Rev. D84 (2011) 073002, arXiv:1106.3133.
[Chen:2011yt]
[21-1871]
Can the LHC rule out the MSSM?, S. S. AbdusSalam, Phys. Lett. B705 (2011) 331-336, arXiv:1106.2317.
[AbdusSalam:2011hd]
[21-1872]
Oscillating nonlinear large scale structure in growing neutrino quintessence, Marco Baldi, Valeria Pettorino, Luca Amendola, Christof Wetterich, Mon.Not.Roy.Astron.Soc. 418 (2011) 214, arXiv:1106.2161.
[Baldi:2011es]
[21-1873]
Exotic Seesaw-Motivated Heavy Leptons at the LHC, Kresimir Kumericki, Ivica Picek, Branimir Radovcic, Phys. Rev. D84 (2011) 093002, arXiv:1106.1069.
[Kumericki:2011hf]
[21-1874]
Sneutrino-antisneutrino oscillation at the Tevatron, Dilip Kumar Ghosh, Tuomas Honkavaara, Katri Huitu, Sourov Roy, Phys. Rev. D84 (2011) 075001, arXiv:1106.0601.
[Ghosh:2011vx]
[21-1875]
Gravitino Dark Matter and Neutrino Masses in Partial Split Supersymmetry, Marco Aurelio Diaz, Sebastian Garcia Saenz, Benjamin Koch, Phys. Rev. D84 (2011) 055007, arXiv:1106.0308.
[Diaz:2011pc]
[21-1876]
$Z'$ Phenomenology: A Novel Analysis and Fit in Combination of Chiral Effective Theory and Anomaly Cancellation, Ying Zhang, arXiv:1106.0163, 2011.
[Zhang:2011kk]
[21-1877]
Minimal models with light sterile neutrinos, A. Donini, P. Hernandez, J. Lopez-Pavon, M. Maltoni, JHEP 07 (2011) 105, arXiv:1106.0064.
[Donini:2011jh]
[21-1878]
Viability of the exact tri-bimaximal mixing at $M_{GUT}$ in SO(10), Anjan S. Joshipura, Ketan M. Patel, JHEP 1109 (2011) 137, arXiv:1105.5943.
[Joshipura:2011rr]
[21-1879]
Phenomenology of a lepton triplet, Antonio Delgado, Camilo Garcia Cely, Tao Han, Zhihui Wang, Phys. Rev. D84 (2014) 073007, arXiv:1105.5417.
[Ma:2013tda]
[21-1880]
Deriving Models for keV sterile Neutrino Dark Matter with the Froggatt-Nielsen mechanism, Alexander Merle, Viviana Niro, JCAP 1107 (2011) 023, arXiv:1105.5136.
[Merle:2011yv]
[21-1881]
Light Sneutrino Dark Matter at the LHC, Genevieve Belanger, Sabine Kraml, Andre Lessa, JHEP 07 (2011) 083, arXiv:1105.4878.
[Belanger:2011ny]
[21-1882]
Production of Charged Higgs Bosons in a 3-3-1 Model at the CERN LHC, A. Alves, E. Ramirez Barreto, A. G. Dias, Phys. Rev. D84 (2011) 075013, arXiv:1105.4849.
[Alves:2011mz]
[21-1883]
Astrophysical Consequences of a Neutrinophilic Two-Higgs-Doublet Model, Marc Sher, Christopher Triola, Phys. Rev. D83 (2011) 117702, arXiv:1105.4844.
[Sher:2011mx]
[21-1884]
Light Sterile Neutrinos: Models and Phenomenology, James Barry, Werner Rodejohann, He Zhang, JHEP 07 (2011) 091, arXiv:1105.3911.
[Barry:2011wb]
[21-1885]
Calculation of the anomalous magnetic moment of $\mu$ in a model of electroweak-scale right-handed neutrinos, Jian-Ping Bu, Int. J. Mod. Phys. A27 (2012) 1250034, arXiv:1105.3890.
[Bu:2011vs]
[21-1886]
Neutrino dark matter candidate in fourth generation scenarios, Hye-Sung Lee, Zuowei Liu, Amarjit Soni, Phys. Lett. B704 (2011) 30-35, arXiv:1105.3490.
[Lee:2011jk]
[21-1887]
Breaking Tri-bimaximal Mixing and Large $\theta_{13}$, Yusuke Shimizu, Morimitsu Tanimoto, Atsushi Watanabe, Prog.Theor.Phys. 126 (2011) 81-90, arXiv:1105.2929.
[Shimizu:2011xg]
[21-1888]
Production of doubly charged scalars from the decay of singly charged scalars in the Higgs Triplet Model, A.G. Akeroyd, H. Sugiyama, Phys. Rev. D84 (2011) 035010, arXiv:1105.2209.
[Akeroyd:2011zza]
[21-1889]
Dark Atoms: Asymmetry and Direct Detection, David E. Kaplan, Gordan Z. Krnjaic, Keith R. Rehermann, Christopher M. Wells, JCAP 1110 (2011) 011, arXiv:1105.2073.
[Kaplan:2011yj]
[21-1890]
Observing CP-violating Higgs Signals with Heavy Majorana Neutrinos, Vernon Barger, Wai-Yee Keung, Brian Yencho, Phys. Rev. D84 (2011) 015001, arXiv:1105.1780.
[Barger:2011tb]
[21-1891]
$\nu$-Two Higgs Doublet Model and its Collider Phenomenology, Naoyuki Haba, Koji Tsumura, JHEP 06 (2011) 068, arXiv:1105.1409.
[Haba:2011nb]
[21-1892]
Cosmic Ray Electron and Positron Excesses from a Fourth Generation Heavy Majorana Neutrino, Isabella Masina, Francesco Sannino, JCAP 1108 (2011) 018, arXiv:1105.0302.
[Masina:2011ew]
[21-1893]
Constraints on composite Dirac neutrinos from observations of galaxy clusters, R. S. Hundi, Sourov Roy, Phys. Lett. B702 (2011) 228-234, arXiv:1105.0291.
[Hundi:2011et]
[21-1894]
Maximal atmospheric neutrino mixing from texture zeros and quasi-degenerate neutrino masses, W. Grimus, P.O. Ludl, Phys. Lett. B700 (2011) 356-361, arXiv:1104.4340.
[Grimus:2011sf]
[21-1895]
Warped Radion Dark Matter, Anibal D. Medina, Eduardo Ponton, JHEP 09 (2011) 016, arXiv:1104.4124.
[Medina:2011qc]
[21-1896]
Neutrino masses from new generations, Alberto Aparici, Juan Herrero-Garcia, Nuria Rius, Arcadi Santamaria, JHEP 07 (2011) 122, arXiv:1104.4068.
[Aparici:2011nu]
[21-1897]
The lepton flavor violating decays $Z\to l_i l_j$ in the simplest little Higgs model, Xiaofang Han, Mod. Phys. Lett. A27 (2012) 1250158, arXiv:1104.3534.
[Han:2011aq]
[21-1898]
Neutrino mass hierarchy and the origin of leptonic flavor mixing from the righthanded sector, Philipp Leser, Heinrich Pas, Phys. Rev. D84 (2011) 017303, arXiv:1104.2448.
[Leser:2011fz]
[21-1899]
Recent MEG Results and Predictive SO(10) Models, Takeshi Fukuyama, Nobuchika Okada, arXiv:1104.1736, 2011.
[Fukuyama:2011rc]
[21-1900]
$Z_2$ Symmetry Prediction for the Dirac CP Phase of Neutrino Mixing, Shao-Feng Ge, Duane A. Dicus, Wayne W. Repko, Phys. Lett. B702 (2011) 220-223, arXiv:1104.0602.
[Ge:2011ih]
[21-1901]
Knitting neutrino mass textures with or without Tri-Bi maximal mixing, G.K. Leontaris, N.D. Vlachos, Phys. Lett. B702 (2011) 34-42, arXiv:1103.6178.
[Leontaris:2011xa]
[21-1902]
Left-Handed W Bosons at the LHC, Z. Bern et al., Phys. Rev. D84 (2011) 034008, arXiv:1103.5445.
[Bern:2011ie]
[21-1903]
Neutrino Physics with Dark Matter Experiments and the Signature of New Baryonic Neutral Currents, Maxim Pospelov, Phys. Rev. D84 (2011) 085008, arXiv:1103.3261.
[Pospelov:2011ha]
[21-1904]
First Limits on Left-Right Symmetry Scale from LHC Data, Miha Nemevsek, Fabrizio Nesti, Goran Senjanovic, Yue Zhang, Phys. Rev. D83 (2011) 115014, arXiv:1103.1627.
[Nemevsek:2011hz]
[21-1905]
Neutrino masses, cosmological bound and four zero Yukawa textures, Biswajit Adhikary, Ambar Ghosal, Probir Roy, Mod. Phys. Lett. A26 (2011) 2427, arXiv:1103.0665.
[Adhikary:2011pv]
[21-1906]
Probing Lepton Flavor Triality with Higgs Boson Decay, Qing-Hong Cao, Asan Damanik, Ernest Ma, Daniel Wegman, Phys. Rev. D83 (2011) 093012, arXiv:1103.0008.
[Cao:2011df]
[21-1907]
Long-Range Lepton Flavor Interactions and Neutrino Oscillations, Hooman Davoudiasl, Hye-Sung Lee, William J. Marciano, Phys. Rev. D84 (2011) 013009, arXiv:1102.5352.
[Davoudiasl:2011sz]
[21-1908]
Non-Minimal B-L Inflation with Observable Gravity Waves, Nobuchika Okada, Mansoor Ur Rehman, Qaisar Shafi, Phys. Lett. B701 (2011) 520-525, arXiv:1102.4747.
[Okada:2011en]
[21-1909]
Mass freezing in growing neutrino quintessence, Nelson Nunes, Lily Schrempp, Christof Wetterich, Phys. Rev. D83 (2011) 083523, arXiv:1102.1664.
[Nunes:2011mw]
[21-1910]
Two-Higgs Leptonic Minimal Flavour Violation, F. J. Botella, G. C. Branco, M. Nebot, M. N. Rebelo, JHEP 10 (2011) 037, arXiv:1102.0520.
[Botella:2011ne]
[21-1911]
Flavor Physics in an SO(10) Grand Unified Model, Jennifer Girrbach et al., JHEP 06 (2011) 044, arXiv:1101.6047.
[Girrbach:2011an]
[21-1912]
Extended Empirical Fermion Mass Relation, Werner Rodejohann, He Zhang, Phys. Lett. B698 (2011) 152-156, arXiv:1101.5525.
[Rodejohann:2011jj]
[21-1913]
CP violation and FCNC in a warped A4 flavor model, Avihay Kadosh, Elisabetta Pallante, JHEP 06 (2011) 121, arXiv:1101.5420.
[Kadosh:2011id]
[21-1914]
Bimodal/Schizophrenic Neutrino As a Bridge between Inflation and Dark Energy, Chian-Shu Chen, Chia-Min Lin, Eur. Phys. J. C71 (2011) 1643, arXiv:1101.4362.
[Chen:2011dv]
[21-1915]
Leptoquark models and the energy spectrum of cosmic rays, I. Alikhanov, J.Phys.Conf.Ser. 1787 (2021) 012035, arXiv:1101.4010.
[Alikhanov:2011wsf]
[21-1916]
Phenomenology of Dark Matter from A4 Flavor Symmetry, M.S. Boucenna et al., JHEP 05 (2011) 037, arXiv:1101.2874.
[Boucenna:2011tj]
[21-1917]
Constraints from neutrino masses and muon (g-2) in the bilinear R-parity violating supersymmetric model, R. S. Hundi, Phys. Rev. D83 (2011) 115019, arXiv:1101.2810.
[Hundi:2011si]
[21-1918]
Mixing of Active and Sterile Neutrinos, Takehiko Asaka, Shintaro Eijima, Hiroyuki Ishida, JHEP 04 (2011) 011, arXiv:1101.1382.
[Asaka:2011pb]
[21-1919]
Leptonic mixing, family symmetries and neutrino phenomenology, I. de Medeiros Varzielas, R. Gonzalez Felipe, H. Serodio, Phys. Rev. D83 (2011) 033007, arXiv:1101.0602.
[deMedeirosVarzielas:2011tp]
[21-1920]
Phenomenology in the Zee Model with the $A_4$ Symmetry, Takeshi Fukuyama, Hiroaki Sugiyama, Koji Tsumura, Phys. Rev. D83 (2011) 056016, arXiv:1012.4886.
[Fukuyama:2010ff]
[21-1921]
Signals of dark matter in a supersymmetric two dark matter model, Hiroki Fukuoka, Daijiro Suematsu, Takashi Toma, JCAP JCAP07 (2011) 001, arXiv:1012.4007.
[Fukuoka:2010kx]
[21-1922]
Non-Standard Neutrino Interactions at One Loop, Brando Bellazzini, Yuval Grossman, Itay Nachshon, Paride Paradisi, JHEP 06 (2011) 104, arXiv:1012.3759.
[Bellazzini:2010gn]
[21-1923]
Testing the Bimodal/Schizophrenic Neutrino Hypothesis in Neutrino-less Double Beta Decay and Neutrino Telescopes, James Barry, Rabindra N. Mohapatra, Werner Rodejohann, Phys. Rev. D83 (2011) 113012, arXiv:1012.1761.
[Barry:2010en]
[21-1924]
Baryon Asymmetry of the Universe without Boltzmann or Kadanoff-Baym, J. -S. Gagnon, M. Shaposhnikov, Phys. Rev. D83 (2011) 065021, arXiv:1012.1126.
[Gagnon:2010kt]
[21-1925]
Cosmology: Neutrinos also as one Kind of Dark Matter, W-Y. Pauchy Hwang, arXiv:1012.1082, 2010.
[Hwang:2010ke]
[21-1926]
The Higgs sector of the minimal $B-L$ model at future Linear Colliders, Lorenzo Basso, Stefano Moretti, Giovanni Marco Pruna, Eur. Phys. J. C71 (2011) 1724, arXiv:1012.0167.
[Basso:2010si]
[21-1927]
Soft $L_e-L_\mu-L_\tau$ flavour symmetry breaking and sterile neutrino keV Dark Matter, Manfred Lindner, Alexander Merle, Viviana Niro, JCAP 1101 (2011) 034, arXiv:1011.4950.
[Lindner:2010wr]
[21-1928]
Lepton number violation in theories with a large number of Standard Model copies, Sergey Kovalenko, Heinrich Pas, Ivan Schmidt, Phys. Rev. D83 (2011) 051901, arXiv:1011.4915.
[Kovalenko:2010qv]
[21-1929]
Footprints of SUSY GUTs in Flavour Physics, Andrzej J. Buras, Minoru Nagai, Paride Paradisi, JHEP 05 (2011) 005, arXiv:1011.4853.
[Buras:2010pm]
[21-1930]
Instabilities in neutrino systems induced by interactions with scalars, R. F. Sawyer, Phys. Rev. D83 (2011) 065023, arXiv:1011.4585.
[Sawyer:2010jk]
[21-1931]
Higgs triplets at like-sign linear colliders and neutrino mixing, Werner Rodejohann, He Zhang, Phys. Rev. D83 (2011) 073005, arXiv:1011.3606.
[Rodejohann:2010bv]
[21-1932]
Left-Right Symmetry: from LHC to Neutrinoless Double Beta Decay, Vladimir Tello, Miha Nemevsek, Fabrizio Nesti, Goran Senjanovic, Francesco Vissani, Phys. Rev. Lett. 106 (2011) 151801, arXiv:1011.3522.
[Tello:2010am]
[21-1933]
A Shift from Democratic to Tri-bimaximal Neutrino Mixing with Relatively Large $\theta_{13}$, Zhi-zhong Xing, Phys. Lett. B696 (2011) 232-236, arXiv:1011.2954.
[Xing:2010pn]
[21-1934]
Phenomenology of the minimal $B-L$ extension of the Standard Model: the Higgs sector, Lorenzo Basso, Stefano Moretti, Giovanni Marco Pruna, Phys. Rev. D83 (2013) 055014, arXiv:1011.2612.
[Mansour:2013dga]
[21-1935]
Dynamical R-parity Breaking at the LHC, Shao-Long Chen, Dilip Kumar Ghosh, Rabindra N. Mohapatra, Yue Zhang, JHEP 02 (2011) 036, arXiv:1011.2214.
[Chen:2010ss]
[21-1936]
Lepton Flavor Violation in Complex SUSY Seesaw Models with Nearly Tribimaximal Mixing, Frank F. Deppisch, Florian Plentinger, Gerhart Seidl, JHEP 01 (2011) 004, arXiv:1011.1404.
[Deppisch:2010sv]
[21-1937]
Leptophilic Dark Matter in Direct Detection Experiments and in the Sun, Joachim Kopp, Viviana Niro, Thomas Schwetz, Jure Zupan, PoS IDM2010 (2011) 118, arXiv:1011.1398.
[Kopp:2010su]
[21-1938]
Neutrino phenomenology and stable dark matter with A4, D. Meloni, S. Morisi, E. Peinado, Phys. Lett. B697 (2011) 339-342, arXiv:1011.1371.
[Meloni:2010sk]
[21-1939]
LHC and lepton flavour violation phenomenology of a left-right extension of the MSSM, J. N. Esteves et al., JHEP 12 (2010) 077, arXiv:1011.0348.
[Esteves:2010si]
[21-1940]
Lepton Number Violation from Colored States at the LHC, Pavel Fileviez Perez, Tao Han, Sogee Spinner, Maike K. Trenkel, JHEP 01 (2011) 046, arXiv:1010.5802.
[FileviezPerez:2010ch]
[21-1941]
Investigating texture six zero lepton mass matrices, Neelu Mahajan, Monika Randhawa, Manmohan Gupta, P.S. Gill, Prog. Theor. Exp. Phys. 2013, 083B02 (2013) 083B02, arXiv:1010.5640.
[Mahajan:2010uv]
[21-1942]
Single production of the doubly charged Higgs boson via $e\gamma$ collision in the Higgs triplet model, Chong-Xing Yue, Xue-Song Su, Jiao Zhang, Jue Wang, Commun. Theor. Phys. 56 (2011) 709-717, arXiv:1010.4633.
[Yue:2010zu]
[21-1943]
WIMPs in a 3-3-1 model with heavy Sterile neutrinos, J. K. Mizukoshi, C. A. de S. Pires, F. S. Queiroz, P. S. Rodrigues da Silva, Phys. Rev. D83 (2011) 065024, arXiv:1010.4097.
[Mizukoshi:2010ky]
[21-1944]
Lepton flavor changing charged current and interaction, Ong Jian Fuh, Ithnin Abdul Jalil, arXiv:1010.3085, 2010.
[Fuh:2010uw]
[21-1945]
Observable $T_7$ Lepton Flavor Symmetry at the Large Hadron Collider, Qing-Hong Cao, Shaaban Khalil, Ernest Ma, Hiroshi Okada, Phys. Rev. Lett. 106 (2011) 131801, arXiv:1009.5415.
[Cao:2010mp]
[21-1946]
LHC phenomenology of a two-Higgs-doublet neutrino mass model, Shainen M. Davidson, Heather E. Logan, Phys. Rev. D82 (2010) 115031, arXiv:1009.4413.
[Davidson:2010sf]
[21-1947]
Baryogenesis from a right-handed neutrino condensate, Gabriela Barenboim, Javier Rasero, JHEP 03 (2011) 097, arXiv:1009.3024.
[Barenboim:2010nm]
[21-1948]
Ghost condensation and CPT violation in neutrino sector, Shinji Mukohyama, Seong Chan Park, Phys. Lett. B696 (2011) 505-508, arXiv:1009.1251.
[Mukohyama:2010wq]
[21-1949]
Singlet Portal to the Hidden Sector, Clifford Cheung, Yasunori Nomura, JHEP 11 (2010) 103, arXiv:1008.5153.
[Cheung:2010jx]
[21-1950]
A Generic Diagonalization of the 3X3 Neutrino Mass Matrix and Its Implications on the mu-tau Flavor Symmetry and Maximal CP Violation, Zhi-zhong Xing, Ye-Ling Zhou, Phys. Lett. B693 (2010) 584-590, arXiv:1008.4906.
[Xing:2010ez]
[21-1951]
TeV scale horizontal gauge symmetry and its implications in B-physics, Seong Chan Park, Jing Shu, Kai Wang, Tsutomu T. Yanagida, Phys. Rev. D82 (2010) 114003, arXiv:1008.4445.
[Park:2010sg]
[21-1952]
Equilibrium and stability of neutrino lumps as TOV solutions, Alex E. Bernardini, Gen. Rel. Grav. 43 (2011) 245-260, arXiv:1008.3559.
[Bernardini:2010yg]
[21-1953]
Schizophrenic Neutrinos and $\nu$-less Double Beta Decay, Rouzbeh Allahverdi, Bhaskar Dutta, Rabindra N. Mohapatra, Phys. Lett. B695 (2011) 181-184, arXiv:1008.1232.
[Allahverdi:2010us]
[21-1954]
CP Violating Lepton Asymmetry from B Decays in Supersymmetric Grand Unified Theories, Bhaskar Dutta, Yukihiro Mimura, Yudi Santoso, Phys. Rev. D82 (2010) 055017, arXiv:1007.3696.
[Dutta:2010ji]
[21-1955]
Gauged $L_\mu - L_\tau$ and different Muon Neutrino and Anti- Neutrino Oscillations: MINOS and beyond, Julian Heeck, Werner Rodejohann, J. Phys. G38 (2011) 085005, arXiv:1007.2655.
[Heeck:2010pg]
[21-1956]
Electroweak right-handed neutrinos and new signals at the LHC, J.L. Diaz-Cruz, O. Felix-Beltran, A. Rosado, S. Rosado-Navarro, Int. J. Mod. Phys. A26 (2011) 2865-2880, arXiv:1007.2134.
[Diaz-Cruz:2010fjd]
[21-1957]
Collider signatures of sterile neutrinos in models with a gauge-singlet Higgs, Ian M. Shoemaker, Kalliopi Petraki, Alexander Kusenko, JHEP 09 (2010) 060, arXiv:1006.5458.
[Shoemaker:2010fg]
[21-1958]
Probing Neutrino Oscillations in Supersymmetric Models at the Large Hadron Collider, F. De Campos et al., Phys. Rev. D82 (2010) 075002, arXiv:1006.5075.
[DeCampos:2010yu]
[21-1959]
Dark energy from Neutrinos and Standard Model Higgs potential, Gaetano Lambiase, Hiranmaya Mishra, Subhendra Mohanty, Astropart.Phys. 35 (2012) 629-633, arXiv:1006.4461.
[Lambiase:2010ic]
[21-1960]
Resonant production of the sterile neutrino dark matter and fine-tunings in the [nu]MSM, Ananda Roy, Mikhail Shaposhnikov, Phys. Rev. D82 (2010) 056014, arXiv:1006.4008.
[Roy:2010xq]
[21-1961]
Deep Correlation Between Cosmic-Ray Anomaly and Neutrino Masses, Shigeki Matsumoto, Koichi Yoshioka, Phys. Rev. D82 (2010) 053009, arXiv:1006.1688.
[Matsumoto:2010hz]
[21-1962]
Baryon Asymmetry of the Universe in the NuMSM, Laurent Canetti, Mikhail Shaposhnikov, JCAP 1009 (2010) 001, arXiv:1006.0133.
[Canetti:2010aw]
[21-1963]
Constraints from Color and/or Charge Breaking Minima in the $\nu$SSM, Tatsuo Kobayashi, Takashi Shimomura, Phys. Rev. D82 (2010) 035008, arXiv:1006.0062.
[Kobayashi:2010zx]
[21-1964]
Rare muon and tau decays in A4 Models, Ferruccio Feruglio, Alessio Paris, Nucl. Phys. B840 (2010) 405-423, arXiv:1005.5526.
[Feruglio:2010qu]
[21-1965]
Phenomenology in the Higgs Triplet Model with the $A_4$ Symmetry, Takeshi Fukuyama, Hiroaki Sugiyama, Koji Tsumura, Phys. Rev. D82 (2010) 036004, arXiv:1005.5338.
[Fukuyama:2010mz]
[21-1966]
keV scale $\nu_R$ dark matter and its detection in $\beta$ decay experiment, Wei Liao, Phys. Rev. D82 (2010) 073001, arXiv:1005.3351.
[Liao:2010yx]
[21-1967]
Bounds on R-parity Violating Couplings at the Grand Unification Scale from Neutrino Masses, H. K. Dreiner, S. Grab, M. Hanussek, Phys. Rev. D82 (2010) 055027, arXiv:1005.3309.
[Dreiner:2010ye]
[21-1968]
OPUCEM: A Library with Error Checking Mechanism for Computing Oblique Parameters, Ozgur Cobanoglu, Erkcan Ozcan, Saleh Sultansoy, Gokhan Unel, Comput. Phys. Commun. 182 (2011) 1732-1743, arXiv:1005.2784.
[Cobanoglu:2010ie]
[21-1969]
Flavor Mixing in Gauge-Higgs Unification, Yuki Adachi, Nobuaki Kurahashi, C. S. Lim, Nobuhito Maru, JHEP 11 (2012) 150, arXiv:1005.2455.
[Adachi:2011tn]
[21-1970]
Probing New Physics Models of Neutrinoless Double Beta Decay with SuperNEMO, R. Arnold et al. (SuperNEMO), Eur. Phys. J. C70 (2010) 927-943, arXiv:1005.1241.
[SuperNEMO:2010wnd]
[21-1971]
Flavour Mixing of Neutrinos and Baryon Asymmetry of the Universe, Takehiko Asaka, Hiroyuki Ishida, Phys. Lett. B692 (2010) 105-113, arXiv:1004.5491.
[Asaka:2010kk]
[21-1972]
Possible Alternatives to Tri-bimaximal Mixing, Carl H. Albright, Alexander Dueck, Werner Rodejohann, Eur. Phys. J. C70 (2010) 1099-1110, arXiv:1004.2798.
[Albright:2010ap]
[21-1973]
Discovering Asymmetric Dark Matter with Anti-Neutrinos, Brian Feldstein, A. Liam Fitzpatrick, JCAP 1009 (2010) 005, arXiv:1003.5662.
[Feldstein:2010xe]
[21-1974]
Neutrino masses and sparticle spectra from stochastic superspace, Archil Kobakhidze, Nadine Pesor, Raymond R. Volkas, Phys. Rev. D81 (2010) 095019, arXiv:1003.4782.
[Kobakhidze:2010ee]
[21-1975]
A viable axion from gauged flavor symmetries, David Berenstein, Erik Perkins, Phys. Rev. D82 (2010) 107701, arXiv:1003.4233.
[Berenstein:2010ta]
[21-1976]
Global Analysis of General SU(2) x SU(2) x U(1) Models with Precision Data, Ken Hsieh, Kai Schmitz, Jiang-Hao Yu, C.-P. Yuan, Phys. Rev. D82 (2010) 035011, arXiv:1003.3482.
[Hsieh:2010zr]
[21-1977]
Majorana CP Violation in Approximately \mu-\tau Symmetric Models with $det(M_\nu)=0$, Teppei Baba, Masaki Yasue, Prog. Theor. Phys. 123 (2010) 659-686, arXiv:1003.1438.
[Baba:2010wp]
[21-1978]
B-L Cosmic Strings in Heterotic Standard Models, T. Brelidze, B. Ovrut, JHEP 07 (2010) 077, arXiv:1003.0234.
[Brelidze:2010hf]
[21-1979]
Sterile neutrino dark matter, CDMS-II and a light Higgs boson, F. S. Queiroz, C. A. de S. Pires, P. S. Rodrigues da Silva, Phys. Rev. D82 (2010) 105014, arXiv:1002.4601.
[deSPires:2010ead]
[21-1980]
MSSM in view of PAMELA and Fermi-LAT, Borut Bajc, Tsedenbaljir Enkhbat, Dilip Kumar Ghosh, Goran Senjanovic, Yue Zhang, JHEP 05 (2010) 048, arXiv:1002.3631.
[Bajc:2010qj]
[21-1981]
$Z'$ discovery potential at the LHC in the minimal $B-L$ extension of the Standard Model, Lorenzo Basso, Alexander Belyaev, Stefano Moretti, Giovanni Marco Pruna, Claire H. Shepherd-Themistocleous, Eur. Phys. J. C (2011) 71 (2011) 1613, arXiv:1002.3586.
[Basso:2010pe]
[21-1982]
Higgs portal dark matter in the minimal gauged $U(1)_{B-L}$ model, Nobuchika Okada, Osamu Seto, Phys. Rev. D82 (2010) 023507, arXiv:1002.2525.
[Okada:2010wd]
[21-1983]
Interactions of keV sterile neutrinos with matter, Shin'ichiro Ando, Alexander Kusenko, Phys. Rev. D81 (2010) 113006, arXiv:1001.5273.
[Ando:2010ye]
[21-1984]
Neutrino oscillation phase dynamically induced by f(R)-gravity, S. Capozziello, M. De Laurentis, D. Vernieri, Mod. Phys. Lett. A25 (2010) 1163-1168, arXiv:1001.4173.
[Capozziello:2010yz]
[21-1985]
Searching for dark matter in X-rays: how not to check the dark matter origin of a spectral feature, Alexander Kusenko, Michael Loewenstein, arXiv:1001.4055, 2010.
[Kusenko:2010sq]
[21-1986]
Emissivity of neutrinos in supernova in a left-right symmetric model, A. Gutierrez-Rodriguez, E. Torres-Lomas, A. Gonzalez-Sanchez, Int. J. Mod. Phys. A25 (2010) 2551-2560, arXiv:1001.0400.
[Gutierrez-Rodriguez:2010iix]
[21-1987]
Exploration of decaying dark matter in a left-right symmetric model, Wan-Lei Guo, Yue-Liang Wu, Yu-Feng Zhou, Phys. Rev. D81 (2010) 075014, arXiv:1001.0307.
[Guo:2010vy]
[21-1988]
Large Tau and Tau Neutrino Electric Dipole Moments in Models with Vector Like Multiplets, Tarek Ibrahim, Pran Nath, Phys. Rev. D81 (2010) 033007, arXiv:1001.0231.
[Ibrahim:2010va]
[21-1989]
Relation between CPT Violation in Neutrino masses and mixings, Bipin Singh Koranga, Mohan Narayan, and S.Uma Sankar, Int. J. Theor. Phys. 50 (2011) 760-766, arXiv:0912.5005.
[SinghKoranga:2009smb]
[21-1990]
Playing with Neutrino Masses, Sheldon L. Glashow, arXiv:0912.4976, 2009.
[Glashow:2009ed]
[21-1991]
keV sterile neutrino Dark Matter in gauge extensions of the Standard Model, F. Bezrukov, H. Hettmansperger, M. Lindner, Phys. Rev. D81 (2010) 085032, arXiv:0912.4415.
[Bezrukov:2009th]
[21-1992]
Oscillation dynamics of active-unsterile neutrino mixing in a $2+\tilde{1}$ mixing scheme, D. Boyanovsky, R. Holman, Jimmy A. Hutasoit, Phys. Rev. D81 (2010) 033009, arXiv:0912.2093.
[Boyanovsky:2009mq]
[21-1993]
Flavor Physics in the Randall-Sundrum Model: II. Tree-Level Weak-Interaction Processes, M. Bauer, S. Casagrande, U. Haisch, M. Neubert, JHEP 09 (2010) 017, arXiv:0912.1625.
[Bauer:2009cf]
[21-1994]
Dark Matter Search Using Chandra Observations of Willman 1, and a Spectral Feature Consistent with a Decay Line of a 5 keV Sterile Neutrino, Michael Loewenstein, Alexander Kusenko, Astrophys. J. 714 (2010) 652-662, arXiv:0912.0552.
[Boyarsky:2010ci]
[21-1995]
Lepton Number Violating Signals of the Top Partners in the Left-Right Twin Higgs Model, Hock-Seng Goh, Christopher A. Krenke, Phys. Rev. D81 (2010) 055008, arXiv:0911.5567.
[Goh:2009fm]
[21-1996]
Neutrino-Flavoured Sneutrino Dark Matter, John March-Russell, Christopher McCabe, Matthew McCullough, JHEP 03 (2010) 108, arXiv:0911.4489.
[March-Russell:2009vla]
[21-1997]
Muon g-2 in the Context of Neutrino Masses, Dark Matter and Leptogenesis, Chuan-Hung Chen, Dmitry V. Zhuridov, arXiv:0911.4326, 2009.
[Chen:2009tj]
[21-1998]
Lepton Flavour Violation in a Supersymmetric Model with A4 Flavour Symmetry, Ferruccio Feruglio, Claudia Hagedorn, Yin Lin, Luca Merlo, Nucl. Phys. B832 (2010) 251-288, arXiv:0911.3874.
[Feruglio:2009hu]
[21-1999]
Radiative and flavor-violating transitions of leptons from interactions with color-octet particles, Yi Liao, Ji-Yuan Liu, Phys. Rev. D81 (2010) 013004, arXiv:0911.3711.
[Liao:2009fm]
[21-2000]
FCNC in the 3-3-1 model with right-handed neutrinos, Richard H. Benavides, Yithsbey Giraldo, William A. Ponce, Phys. Rev. D80 (2009) 113009, arXiv:0911.3568.
[Benavides:2009cn]
[21-2001]
Photon, Neutrino and Charged Particle Spectra from R-violating Gravitino Decays, N.-E. Bomark, S. Lola, P. Osland, A.R. Raklev, Phys. Lett. B686 (2010) 152-161, arXiv:0911.3376.
[Bomark:2009zm]
[21-2002]
Evidence for right-handed neutrinos at a neutrino factory, F. del Aguila, J. de Blas, R. Szafron, J. Wudka, M. Zralek, Phys. Lett. B683 (2010) 282-288, arXiv:0911.3158.
[delAguila:2009vv]
[21-2003]
LFV in SUSY Breaking with Heavy Sleptons, Daniel Sword, arXiv:0911.2046, 2009.
[Sword:2009wt]
[21-2004]
Relating the neutrino mixing angles to a lepton mass hierarchy, Harald Fritzsch, Zhi-zhong Xing, Phys. Lett. B682 (2009) 220-224, arXiv:0911.1857.
[Fritzsch:2009sm]
[21-2005]
Symmetry and phenomenology of the minimal $\nu$SM, Xiao-Gang He, Tong Li, Wei Liao, Phys. Rev. D81 (2010) 033006, arXiv:0911.1598.
[He:2009mv]
[21-2006]
Spontaneously broken parity and consistent cosmology with transitory domain walls, Sasmita Mishra, Urjit A. Yajnik, Phys. Rev. D81 (2010) 045010, arXiv:0911.1578.
[Mishra:2009mk]
[21-2007]
Non-universal minimal Z' models: present bounds and early LHC reach, Ennio Salvioni, Alessandro Strumia, Giovanni Villadoro, Fabio Zwirner, JHEP 03 (2010) 010, arXiv:0911.1450.
[Salvioni:2009jp]
[21-2008]
Violation of CP and T in semileptonic decays due to scalar interactions, G. Lopez Castro, L. Lopez-Lozano, A. Rosado, Phys. Rev. D80 (2009) 096004, arXiv:0911.1148.
[LopezCastro:2009da]
[21-2009]
Implications of precision measurements on texture specific fermion mass matrices, Manmohan Gupta, Gulsheen Ahuja, Rohit Verma, Int. J. Mod. Phys. A24 (2009) 3462, arXiv:0911.0742.
[Gupta:2009ur]
[21-2010]
Explaining Solar Neutrinos with Heavy Higgs Masses in Partial Split Supersymmetry, Marco Aurelio Diaz, Francisca Garay, Benjamin Koch, Phys. Rev. D80 (2009) 113005, arXiv:0910.2987.
[Diaz:2009gf]
[21-2011]
Neutrino Mass, Sneutrino Dark Matter and Signals of Lepton Flavor Violation in the MRSSM, Abhishek Kumar, David Tucker-Smith, Neal Weiner, JHEP 09 (2010) 111, arXiv:0910.2475.
[Kumar:2009sf]
[21-2012]
Optimal Parametrization of Deviations from Tribimaximal Form of the Neutrino Mass Matrix, Christopher D. Carone, Richard F. Lebed, Phys. Rev. D80 (2009) 117301, arXiv:0910.1529.
[Carone:2009yu]
[21-2013]
Common Origin of Visible and Dark Universe, Pei-Hong Gu, Utpal Sarkar, Phys. Rev. D81 (2010) 033001, arXiv:0909.5463.
[Gu:2009hj]
[21-2014]
Constraints from muon g-2 and LFV processes in the Higgs Triplet Model, Takeshi Fukuyama, Hiroaki Sugiyama, Koji Tsumura, JHEP 03 (2010) 044, arXiv:0909.4943.
[Fukuyama:2009xk]
[21-2015]
Doubly charged Higgs bosons and three-lepton signatures in the Higgs Triplet Model, A.G. Akeroyd, Cheng-Wei Chiang, Phys. Rev. D80 (2009) 113010, arXiv:0909.4419.
[Akeroyd:2009hb]
[21-2016]
Phenomenological Analysis of Hybrid Textures of Neutrinos, S. Dev, Surender Verma, Shivani Gupta, Phys. Lett. B687 (2010) 53-60, arXiv:0909.3182.
[Dev:2009he]
[21-2017]
Decaying LSP in SO(10) GUT and PAMELA's Cosmic Positron, Bumseok Kyae, Phys. Lett. B685 (2010) 19-26, arXiv:0909.3139.
[Kyae:2009gm]
[21-2018]
Heavy Right-Handed Neutrinos and Dark Matter in the $\nu$CMSSM, Kenji Kadota, Keith A. Olive, Phys. Rev. D80 (2009) 095015, arXiv:0909.3075.
[Kadota:2009fg]
[21-2019]
Electroweak scale neutrinos and decaying dark matter, Alfredo Aranda, Francisco J. de Anda, Phys. Lett. B683 (2010) 183-185, arXiv:0909.2667.
[Aranda:2009yb]
[21-2020]
Leptophilic Dark Matter from the Lepton Asymmetry, Timothy Cohen, Kathryn M. Zurek, Phys. Rev. Lett. 104 (2010) 101301, arXiv:0909.2035.
[Cohen:2009fz]
[21-2021]
Heavy quark signals from radiative corrections to the $Z^{\prime}$ boson decay in 3-3-1 models, R. Martinez, F. Ochoa, Phys. Rev. D80 (2009) 075020, arXiv:0909.1121.
[Martinez:2009ik]
[21-2022]
Determination of the unknown absolute neutrino mass and MNS parameters at the LHC in the Higgs triplet model, Hiroyuki Nishiura, Takeshi Fukuyama, arXiv:0909.0595, 2009.
[Nishiura:2009yd]
[21-2023]
Non-standard neutrino interactions in the Zee-Babu model, Tommy Ohlsson, Thomas Schwetz, He Zhang, Phys. Lett. B681 (2009) 269-275, arXiv:0909.0455.
[Ohlsson:2009vk]
[21-2024]
Hidden MeV-Scale Dark Matter in Neutrino Detectors, Jennifer Kile, Amarjit Soni, Phys. Rev. D80 (2009) 115017, arXiv:0908.3892.
[Kile:2009nn]
[21-2025]
A minimal model linking two great mysteries: neutrino mass and dark matter, Yasaman Farzan, Phys. Rev. D80 (2009) 073009, arXiv:0908.3729.
[Farzan:2009ji]
[21-2026]
Model independent constraints on mass-varying neutrino scenarios, Urbano Franca, Massimiliano Lattanzi, Julien Lesgourgues, Sergio Pastor, Phys. Rev. D80 (2009) 083506, arXiv:0908.0534.
[Franca:2009xp]
[21-2027]
Confronting Flavour Symmetries and extended Scalar Sectors with Lepton Flavour Violation Bounds, Adisorn Adulpravitchai, Manfred Lindner, Alexander Merle, Phys. Rev. D80 (2009) 055031, arXiv:0907.2147.
[Adulpravitchai:2009gi]
[21-2028]
Exploring Portals to a Hidden Sector Through Fixed Targets, Brian Batell, Maxim Pospelov, Adam Ritz, Phys. Rev. D80 (2009) 095024, arXiv:0906.5614.
[Batell:2009di]
[21-2029]
Gamma-ray detection from gravitino dark matter decay in the $\mu\nu$SSM, Ki-Young Choi, Daniel E.Lopez-Fogliani, Carlos Munoz, Roberto Ruiz de Austri, JCAP 1003 (2010) 028, arXiv:0906.3681.
[Choi:2009ng]
[21-2030]
Unsterile-Active Neutrino Mixing: Consequences on Radiative Decay and Bounds from the X-ray Background, D. Boyanovsky, R. Holman, Jimmy A. Hutasoit, Phys. Rev. D80 (2009) 025012, arXiv:0905.4729.
[Boyanovsky:2009ke]
[21-2031]
Measuring the lower bound of neutrino mass at LHC in Higgs Triplet Model, Hiroyuki Nishiura, Takeshi Fukuyama, Phys. Rev. D80 (2009) 017302, arXiv:0905.3963.
[Nishiura:2009jn]
[21-2032]
Anomaly Induced Dark Matter Decay and PAMELA/ATIC Experiments, Hiroki Fukuoka, Jisuke Kubo, Daijiro Suematsu, Phys. Lett. B678 (2009) 401-406, arXiv:0905.2847.
[Fukuoka:2009cu]
[21-2033]
Phenomenology of $10^{32}$ Dark Sectors, Gia Dvali, Michele Redi, Phys. Rev. D80 (2009) 055001, arXiv:0905.1709.
[Dvali:2009ne]
[21-2034]
Non-Thermal Production of WIMPs, Cosmic $e^\pm$ Excesses and $\gamma$-rays from the Galactic Center, Xiao-Jun Bi et al., Phys. Rev. D80 (2009) 103502, arXiv:0905.1253.
[Bi:2009am]
[21-2035]
Neutrino Oscillation Probability from Tri-Bimaximality due to Planck Scale Effects, Bipin Singh Koranga, Electron. J. Theor. Phys. 6 (2009) 1-8, arXiv:0904.4732.
[SinghKoranga:2009qrj]
[21-2036]
Lepton Flavour Violating Decays tau to lll and mu to e gamma in the Higgs Triplet Model, A.G. Akeroyd, Mayumi Aoki, Hiroaki Sugiyama, Phys. Rev. D79 (2009) 113010, arXiv:0904.3640.
[Akeroyd:2009nu]
[21-2037]
Right Unitarity Triangles, Stable CP-violating Phases and Approximate Quark-Lepton Complementarity, Zhi-zhong Xing, Phys. Lett. B679 (2009) 111-117, arXiv:0904.3172.
[Xing:2009eg]
[21-2038]
Neutrino Physics and Spontaneous CP Violation in the $\mu\nu$SSM, J. Fidalgo, D.E. Lopez-Fogliani, C. Munoz, R. Ruiz de Austri, JHEP 08 (2009) 105, arXiv:0904.3112.
[Fidalgo:2009dm]
[21-2039]
Neutrinoless Double Beta Decay and $H^{\pm\pm}\to {l'}^\pm l^\pm$ Decays in the Higgs Triplet Model, S. T. Petcov, H. Sugiyama, Y. Takanishi, Phys. Rev. D80 (2009) 015005, arXiv:0904.0759.
[Petcov:2009zr]
[21-2040]
Right-handed sneutrino dark matter in the NMSSM, David G. Cerdeno, Osamu Seto, JCAP 0908 (2009) 032, arXiv:0903.4677.
[Cerdeno:2009dv]
[21-2041]
Golden Ratio Prediction for Solar Neutrino Mixing, Adisorn Adulpravitchai, Alexander Blum, Werner Rodejohann, New J. Phys. 11 (2009) 063026, arXiv:0903.0531.
[Adulpravitchai:2009bg]
[21-2042]
KeV right-handed neutrinos from type II seesaw mechanism in a 3-3-1 model, D. Cogollo, H. Diniz, C. A. de S. Pires, Phys.Lett. B677 (2009) 338-342, arXiv:0903.0370.
[Cogollo:2009yi]
[21-2043]
LHC and B physics probes of neutrinoless double beta decay in supersymmetry without R-parity, B. C. Allanach, C. H. Kom, H. Pas, JHEP 10 (2009) 026, arXiv:0903.0347.
[Allanach:2009xx]
[21-2044]
Reconciliation of CDM abundance and $\mu\to e\gamma$ in a radiative seesaw model, Daijiro Suematsu, Takashi Toma, Tetsuro Yoshida, Phys. Rev. D79 (2009) 093004, arXiv:0903.0287.
[Suematsu:2009ww]
[21-2045]
Multi-parameter approach to R-parity violating SUSY couplings, E. M. Sessolo, F. Tahir, D. W. McKay, Phys. Rev. D79 (2009) 115010, arXiv:0903.0118.
[Sessolo:2009ug]
[21-2046]
Large Hadron Collider probe of supersymmetric neutrinoless double beta decay mechanism, B. C. Allanach, C. H. Kom, H. Pas, Phys. Rev. Lett. 103 (2009) 091801, arXiv:0902.4697.
[Allanach:2009iv]
[21-2047]
Models of Yukawa interaction in the two Higgs doublet model, and their collider phenomenology, Mayumi Aoki, Shinya Kanemura, Koji Tsumura, Kei Yagyu, Phys. Rev. D80 (2009) 015017, arXiv:0902.4665.
[Aoki:2009ha]
[21-2048]
Mixed Neutralino Dark Matter in Nonuniversal Gaugino Mass Models, Utpal Chattopadhyay, Debottam Das, D. P. Roy, Phys. Rev. D79 (2009) 095013, arXiv:0902.4568.
[Chattopadhyay:2009fr]
[21-2049]
Double-action dark matter, PAMELA and ATIC, Kingman Cheung, Po-Yan Tseng, Tzu-Chiang Yuan, Phys. Lett. B678 (2009) 293-300, arXiv:0902.4035.
[Cheung:2009si]
[21-2050]
Phenomenological Consequences of See-Saw in S4 Based Models, F. Bazzocchi, L. Merlo, S. Morisi, Phys. Rev. D80 (2009) 053003, arXiv:0902.2849.
[Bazzocchi:2009da]
[21-2051]
EDM constraints on flavored CP-violating phases, Lorenzo Mercolli, Christopher Smith, Nucl. Phys. B817 (2009) 1-24, arXiv:0902.1949.
[Mercolli:2009ns]
[21-2052]
$T^{'}$ Predictions of PMNS and CKM Angles, Paul H. Frampton, Shinya Matsuzaki, Phys. Lett. B679 (2009) 347-349, arXiv:0902.1140.
[Frampton:2009fw]
[21-2053]
Pragmatic approach to the little hierarchy problem: the case for Dark Matter and neutrino physics, Bohdan Grzadkowski, Jose Wudka, Phys. Rev. Lett. 103 (2009) 091802, arXiv:0902.0628.
[Grzadkowski:2009mj]
[21-2054]
Probing neutrino masses and tri-bimaximality with lepton flavor violation searches, Kentaro Kojima, Hideyuki Sawanaka, Phys. Lett. B678 (2009) 373-379, arXiv:0901.4812.
[Kojima:2009dp]
[21-2055]
WMAP Dark Matter Constraints on Yukawa Unification with Massive Neutrinos, M.E. Gomez, S. Lola, P. Naranjo, J. Rodriguez-Quintero, JHEP 04 (2009) 043, arXiv:0901.4013.
[Gomez:2009yc]
[21-2056]
The Search for Heavy Majorana Neutrinos, Anupama Atre, Tao Han, Silvia Pascoli, Bin Zhang, JHEP 05 (2009) 030, arXiv:0901.3589.
[Atre:2009rg]
[21-2057]
Unparticle physics and neutrino phenomenology, J. Barranco, A. Bolanos, O. G. Miranda, C. A. Moura, T. I. Rashba, Phys. Rev. D79 (2009) 073011, arXiv:0901.2099.
[Barranco:2009px]
[21-2058]
Probing R-parity violating models of neutrino mass at the LHC via top squark decays, Amitava Datta, Sujoy Poddar, Phys. Rev. D79 (2009) 075021, arXiv:0901.1619.
[Datta:2009dc]
[21-2059]
Dark Matter: The Leptonic Connection, Qing-Hong Cao, Ernest Ma, Gabe Shaughnessy, Phys. Lett. B673 (2009) 152-155, arXiv:0901.1334.
[Cao:2009yy]
[21-2060]
ATIC and PAMELA Results on Cosmic $e^\pm$ Excesses and Neutrino Masses, Xiao-Jun Bi, Pei-Hong Gu, Tianjun Li, Xinmin Zhang, JHEP 04 (2009) 103, arXiv:0901.0176.
[Bi:2009md]
[21-2061]
Cold Dark Matter from heavy Right-Handed neutrino mixing, Alexey Anisimov, Pasquale Di Bari, Phys. Rev. D80 (2009) 073017, arXiv:0812.5085.
[Anisimov:2008gg]
[21-2062]
Common Origin for CP Violation in Cosmology and in Neutrino Oscillations, K. S. Babu, Yanzhi Meng, Zurab Tavartkiladze, arXiv:0812.4419, 2008.
[Babu:2008kp]
[21-2063]
Electric Dipole Moments of Charged Leptons from Their Majorana-type Yukawa Couplings, Yi Liao, Phys. Lett. B672 (2009) 367-371, arXiv:0812.4324.
[Liao:2008ix]
[21-2064]
A Complete Analysis of 'Flavored' Electric Dipole Moments in Supersymmetric Theories, Junji Hisano, Minoru Nagai, Paride Paradisi, Phys. Rev. D80 (2009) 095014, arXiv:0812.4283.
[Hisano:2008hn]
[21-2065]
Search for Tau Flavour Violation at the LHC, E. Carquin, J. Ellis, M. E. Gomez, S. Lola, J. Rodriguez-Quintero, JHEP 05 (2009) 026, arXiv:0812.4243.
[Carquin:2008gv]
[21-2066]
On initial conditions for the Hot Big Bang, F. Bezrukov, D. Gorbunov, M. Shaposhnikov, JCAP 0906 (2009) 029, arXiv:0812.3622.
[Bezrukov:2008ut]
[21-2067]
Comparing Trimaximal Mixing and Its Variants with Deviations from Tri-bimaximal Mixing, Carl H. Albright, Werner Rodejohann, Eur. Phys. J. C62 (2009) 599-608, arXiv:0812.0436.
[Albright:2008rp]
[21-2068]
Neutrino Mass Hierarchy and neutron-anti-neutron Oscillation from Baryogenesis, K. S. Babu, P. S. Bhupal Dev, R. N. Mohapatra, Phys. Rev. D79 (2009) 015017, arXiv:0811.3411.
[Babu:2008rq]
[21-2069]
Non-Standard Neutrino Interactions from a Triplet Seesaw Model, Michal Malinsky, Tommy Ohlsson, He Zhang, Phys. Rev. D79 (2009) 011301, arXiv:0811.3346.
[Malinsky:2008qn]
[21-2070]
Possible scenario for MaVaN's as the only neutrino flavor conversion mechanism in the Sun, Pedro Cunha de Holanda, JCAP 0907 (2009) 024, arXiv:0811.0567.
[deHolanda:2008nn]
[21-2071]
Phenomenological Implications of a Class of Lepton Mass Matrices, S. Dev, Sanjeev Kumar, Surender Verma, Shivani Gupta, Mod. Phys. Lett. A24 (2009) 2251-2261, arXiv:0810.3083.
[Dev:2008cj]
[21-2072]
Analysis of the parameter space and spectrum of the $\mu \nu$SSM, Nicolas Escudero, Daniel E. Lopez-Fogliani, Carlos Munoz, Roberto Ruiz de Austri, JHEP 12 (2008) 099, arXiv:0810.1507.
[Escudero:2008jg]
[21-2073]
Minimally Allowed Neutrinoless Double Beta Decay Rates From Approximate Flavor Symmetries, James Jenkins, Phys. Rev. D79 (2009) 113004, arXiv:0810.1263.
[Jenkins:2008ex]
[21-2074]
The impossibility of heavy neutrino dark matter in the Littlest Higgs Model with T-parity: constraints from direct search, Paramita Dey, Sudhir Kumar Gupta, Biswarup Mukhopadhyaya, Phys. Lett. B674 (2009) 188-191, arXiv:0809.3893.
[Dey:2008dk]
[21-2075]
Implications of the discovery of a Higgs triplet on electroweak right-handed neutrinos, Alfredo Aranda, J. Hernandez-Sanchez, P. Q. Hung, JHEP 11 (2008) 092, arXiv:0809.2791.
[Aranda:2008ab]
[21-2076]
Inflaton mass in the $\nu$MSM inflation, Alexey Anisimov, Yannick Bartocci, Fedor L. Bezrukov, Phys. Lett. B671 (2009) 211-215, arXiv:0809.1097.
[Anisimov:2008qs]
[21-2077]
Minimally Allowed Neutrinoless Double Beta Decay Rates Within an Anarchical Framework, James Jenkins, Phys. Rev. D79 (2009) 113003, arXiv:0808.1702.
[Jenkins:2008ms]
[21-2078]
Phenomenology of Hybrid Scenarios of Neutrino Dark Energy, Stefan Antusch, Subinoy Das, Koushik Dutta, JCAP 0810 (2008) 016, arXiv:0807.4930.
[Antusch:2008hj]
[21-2079]
Phenomenological consequences of four zero neutrino Yukawa textures, Sandhya Choubey, Werner Rodejohann, Probir Roy, Nucl. Phys. B808 (2009) 272-291, arXiv:0807.4289.
[Choubey:2008tb]
[21-2080]
Gravity effects in inclined air showers induced by cosmic neutrino, A.V. Kisselev, Open Astron. J. 2 (2009) 12-15, arXiv:0807.3307.
[Kisselev:2008jw]
[21-2081]
Lepton Flavour Violation in Models with A4 Flavour Symmetry, Ferruccio Feruglio, Claudia Hagedorn, Yin Lin, Luca Merlo, Nucl. Phys. B809 (2009) 218-243, arXiv:0807.3160.
[Feruglio:2008ht]
[21-2082]
Right-handed sneutrino as thermal dark matter, D. G. Cerdeno, C. Munoz, O. Seto, Phys. Rev. D79 (2009) 023510, arXiv:0807.3029.
[Cerdeno:2008ep]
[21-2083]
Constraints on Left-Right Symmetric and $E_6$ Superstring Models from the Number of Light Neutrino Species, A. Gutierrez-Rodriguez, M. A. Hernandez-Ruiz, M. A. Perez, F. Perez-Vargas, Mod. Phys. Lett. A24 (2009) 135-141, arXiv:0806.2163.
[Gutierrez-Rodriguez:2008onb]
[21-2084]
Electroweak constraints on see-saw messengers and their implications for LHC, F. del Aguila, J. A. Aguilar-Saavedra, J. de Blas, M. Perez-Victoria, arXiv:0806.1023, 2008.
[delAguila:2008ks]
[21-2085]
Heavy Majorana Neutrinos in the Effective Lagrangian Description: Application to Hadron Colliders, Francisco del Aguila, Shaouly Bar-Shalom, Amarjit Soni, Jose Wudka, Phys. Lett. B670 (2009) 399-402, arXiv:0806.0876.
[delAguila:2008ir]
[21-2086]
Nearly Invariance of Jarlskog Determinant due to Planck Scale Effects, Bipin Singh Koranga, arXiv:0806.0226, 2008.
[SinghKoranga:2008nns]
[21-2087]
Bilepton contributions to the neutrinoless double beta decay in the economical 3-3-1 model, Dang Van Soa, Phung Van Dong, Trinh Thi Huong, Hoang Ngoc Long, J. Exp. Theor. Phys. 108 (2009) 757-763, arXiv:0805.4456.
[VanSoa:2008bm]
[21-2088]
Signals of Doubly-Charged Higgsinos at the CERN Large Hadron Collider, Durmus A. Demir, Mariana Frank, Katri Huitu, Santosh K. Rai, Ismail Turan, Phys. Rev. D78 (2008) 035013, arXiv:0805.4202.
[Demir:2008wt]
[21-2089]
Neutrino Masses and the LHC: Testing Type II Seesaw, Pavel Fileviez Perez, Tao Han, Guiyu Huang, Tong Li, Kai Wang, Phys. Rev. D78 (2008) 015018, arXiv:0805.3536.
[FileviezPerez:2008jbu]
[21-2090]
CP Violation in $B_s$ Mixing in the SUSY SU(5) GUT with Right-handed Neutrinos, Junji Hisano, Yasuhiro Shimizu, Phys. Lett. B669 (2008) 301-305, arXiv:0805.3327.
[Hisano:2008df]
[21-2091]
Probing Quantum Nonlinearities through Neutrino Oscillations, Wei-Khim Ng, Rajesh R. Parwani, Mod. Phys. Lett. A25 (2010) 793-804, arXiv:0805.3015.
[Ng:2008xt]
[21-2092]
Model-Independent Analysis of Tri-bimaximal Mixing - a Softly-Broken Hidden or an Accidental Symmetry?, Carl H. Albright, Werner Rodejohann, Phys. Lett. B665 (2008) 378-383, arXiv:0804.4581.
[Albright:2008qb]
[21-2093]
Sterile neutrino dark matter as a consequence of nuMSM-induced lepton asymmetry, M. Laine, M. Shaposhnikov, JCAP 0806 (2008) 031, arXiv:0804.4543.
[Laine:2008pg]
[21-2094]
The nuMSM, leptonic asymmetries, and properties of singlet fermions, Mikhail Shaposhnikov, JHEP 08 (2008) 008, arXiv:0804.4542.
[Shaposhnikov:2008pf]
[21-2095]
Cosmic Neutrino Flavor Democracy and Unitarity Violation at Neutrino Telescopes, Zhi-zhong Xing, Shun Zhou, Phys. Lett. B666 (2008) 166-172, arXiv:0804.3512.
[Xing:2008fg]
[21-2096]
Undetected Higgs decays and neutrino masses in gauge mediated, lepton number violating models, Tom Banks, Linda M. Carpenter, Jean-Francois Fortin, JHEP 09 (2008) 087, arXiv:0804.2688.
[Banks:2008xt]
[21-2097]
Tri-bimaximal neutrino mixing and neutrinoless double beta decay, M. Hirsch, S. Morisi, J.W.F. Valle, Phys. Rev. D78 (2008) 093007, arXiv:0804.1521.
[Hirsch:2008rp]
[21-2098]
Correlative signatures of heavy Majorana neutrinos and doubly-charged Higgs bosons at the Large Hadron Collider, Wei Chao, Zong-Guo Si, Zhi-zhong Xing, Shun Zhou, Phys. Lett. B666 (2008) 451-454, arXiv:0804.1265.
[Chao:2008mq]
[21-2099]
Inverted neutrino mass hierarchy and new signals of a chromophobic charged Higgs at the Large Hadron Collider, S. Gabriel, Biswarup Mukhopadhyaya, S. Nandi, Santosh Kumar Rai, Phys. Lett. B669 (2008) 180-185, arXiv:0804.1112.
[Gabriel:2008es]
[21-2100]
Sterile neutrino dark matter in B-L extension of the standard model and galactic 511 keV line, Shaaban Khalil, Osamu Seto, JCAP 0810 (2008) 024, arXiv:0804.0336.
[Khalil:2008kp]
[21-2101]
LHC signals for neutrino mass model in bilinear R-parity violating mAMSB, F. de Campos et al., Phys. Rev. D77 (2008) 115025, arXiv:0803.4405.
[deCampos:2008av]
[21-2102]
Charged Higgs Boson Effects in the Production and Decay of a Heavy Majorana Neutrino at the LHC, Shaouly Bar-Shalom, Gad Eilam, Tao Han, Amarjit Soni, Phys. Rev. D77 (2008) 115019, arXiv:0803.2835.
[Bar-Shalom:2008bhg]
[21-2103]
Signatures for right-handed neutrinos at the Large Hadron Collider, Katri Huitu, Shaaban Khalil, Hiroshi Okada, Santosh Kumar Rai, Phys. Rev. Lett. 101 (2008) 181802, arXiv:0803.2799.
[Huitu:2008gf]
[21-2104]
Searching for doubly charged Higgs bosons in Moller scattering by resonance effects at linear e^-e^- collider, C.S. Chen, C.Q. Geng, D.V. Zhuridov, Eur. Phys. J. C60 (2009) 119-124, arXiv:0803.1556.
[Chen:2008jh]
[21-2105]
Constraints from Solar and Reactor Neutrinos on Unparticle Long-Range Forces, M.C. Gonzalez-Garcia, P.C. Holanda, R. Zukanovich Funchal, JCAP 0806 (2008) 019, arXiv:0803.1180.
[Gonzalez-Garcia:2008jtw]
[21-2106]
Lepton Flavor Violation in Predictive SUSY-GUT Models, Carl H. Albright, Mu-Chun Chen, Phys. Rev. D77 (2008) 113010, arXiv:0802.4228.
[Albright:2008ke]
[21-2107]
Lepton Flavor Violating Muon Decays in a Model of Electroweak-Scale Right-Handed Neutrinos, Jian-Ping Bu, Yi Liao, Ji-Yuan Liu, Phys. Lett. B665 (2008) 39-43, arXiv:0802.3241.
[Bu:2008fx]
[21-2108]
Spontaneous R-parity violation: Lightest neutralino decays and neutrino mixing angles at future colliders, M. Hirsch, W. Porod, A. Vicente, Phys. Rev. D77 (2008) 075005, arXiv:0802.2896.
[Hirsch:2008ur]
[21-2109]
The A4 flavor symmetry and neutrino phenomenology, Biswajoy Brahmachari, Sandhya Choubey, Manimala Mitra, Phys. Rev. D77 (2008) 073008, arXiv:0801.3554.
[Brahmachari:2008fn]
[21-2110]
Probing neutrino magnetic moment and unparticle interactions with Borexino, D. Montanino, M. Picariello, J. Pulido, Phys. Rev. D77 (2008) 093011, arXiv:0801.2643.
[Montanino:2008hu]
[21-2111]
Neutrino, Photon Interaction in Unparticle Physics, Sukanta Dutta, Ashok Goyal, Phys. Lett. B664 (2008) 25-30, arXiv:0801.2143.
[Dutta:2008sm]
[21-2112]
Same-sign single dilepton productions at the LHC, Chian-Shu Chen, Chao-Qiang Geng, Dmitry V. Zhuridov, Phys. Lett. B666 (2008) 340-343, arXiv:0801.2011.
[Chen:2008qb]
[21-2113]
Charged and Neutral Currents in a 3-3-1 Model with Right-Handed Neutrinos, Adrian Palcu, Mod. Phys. Lett. A23 (2008) 387-399, arXiv:0801.0036.
[Palcu:2008pz]
[21-2114]
Probing Majorana Phases and Neutrino Mass Spectrum in the Higgs Triplet Model at the LHC, A. G. Akeroyd, Mayumi Aoki, Hiroaki Sugiyama, Phys. Rev. D77 (2008) 075010, arXiv:0712.4019.
[Akeroyd:2007zv]
[21-2115]
Direct determination of neutrino mass parameters at future colliders, M. Kadastik, M. Raidal, L. Rebane, Phys. Rev. D77 (2008) 115023, arXiv:0712.3912.
[Kadastik:2007yd]
[21-2116]
Probing a Supersymmetric Model for Neutrino Masses at Ultrahigh Energy Neutrino Telescopes, M. Hirsch, D. P. Roy, J. W. F. Valle, Phys. Lett. B662 (2008) 185-189, arXiv:0712.1711.
[Hirsch:2007kx]
[21-2117]
A perturbative approach for mass varying neutrinos coupled to the dark sector in the generalized Chaplygin gas scenario, Alex E. Bernardini, O. Bertolami, Phys. Rev. D77 (2008) 083506, arXiv:0712.1534.
[Bernardini:2007hm]
[21-2118]
Neutrino mass hierarchy and Majorana CP phases within the Higgs triplet model at the LHC, Julia Garayoa, Thomas Schwetz, JHEP 03 (2008) 009, arXiv:0712.1453.
[Garayoa:2007fw]
[21-2119]
Determining Heavy Mass Parameters in Supersymmetric SO(10) Models, F. Deppisch, A. Freitas, W. Porod, P.M. Zerwas, Phys. Rev. D77 (2008) 075009, arXiv:0712.0361.
[Deppisch:2007xu]
[21-2120]
Phase transition in the fine structure constant, L. Anchordoqui, V. Barger, H. Goldberg, D. Marfatia, Phys. Lett. B660 (2008) 529-533, arXiv:0711.4055.
[Anchordoqui:2007iw]
[21-2121]
Left-Right Symmetric Model of Neutrino Dark Energy, Jitesh R. Bhatt, Pei-Hong Gu, Utpal Sarkar, Santosh K. Singh, Phys. Lett. B663 (2008) 83-85, arXiv:0711.2728.
[Bhatt:2007ah]
[21-2122]
Short Baseline Neutrino Oscillations and a New Light Gauge Boson, Ann E. Nelson, Jonathan Walsh, Phys. Rev. D77 (2008) 033001, arXiv:0711.1363.
[Nelson:2007yq]
[21-2123]
Neutrinos and Lepton Flavour Violation in the Left-Right Twin Higgs Model, Asmaa Abada, Irene Hidalgo, Phys. Rev. D77 (2008) 113013, arXiv:0711.1238.
[Abada:2007sm]
[21-2124]
Electroweak-scale mirror fermions, $\mu \to e \gamma$ and $\tau \to \mu \gamma$, P. Q. Hung, Phys. Lett. B659 (2008) 585-592, arXiv:0711.0733.
[Hung:2007ez]
[21-2125]
Scalar Bilepton Dark Matter, C. A. de S. Pires, P. S. Rodrigues da Silva, JCAP 0712 (2007) 012, arXiv:0710.2104.
[deSPires:2007wat]
[21-2126]
$Z^{'0}Z^{'0}$, $K^{+}K^{-}$ and $K^{0}\bar{K}^{0}$ boson production with definite helicity amplitudes through $e^{+}e^{-}$ collisions in the 3-3-1 models without exotic electric charges, Juan B. Florez, Yithsbey Giraldo, arXiv:0710.1087, 2007.
[Florez:2007nz]
[21-2127]
Constraints on Unparticles from Low Energy Neutrino-Electron Scattering, A.B. Balantekin, K.O. Ozansoy, Phys. Rev. D76 (2007) 095014, arXiv:0710.0028.
[Balantekin:2007eg]
[21-2128]
Consequences of Approximate S_3 Symmetry of the Neutrino Mass Matrix, Chien-Yi Chen, L. Wolfenstein, Phys. Rev. D77 (2008) 093009, arXiv:0709.3767.
[Chen:2007zj]
[21-2129]
Adiabatic instability in coupled dark energy-dark matter models, Rachel Bean, Eanna E. Flanagan, Mark Trodden, Phys. Rev. D78 (2008) 023009, arXiv:0709.1128.
[Bean:2007ny]
[21-2130]
Unparticle decay of neutrinos and it's effect on ultra high energy neutrinos, Debasish Majumdar, arXiv:0708.3485, 2007.
[Majumdar:2007mp]
[21-2131]
Implications of vacuum stability constraints on the nonminimal supersymmetric standard model with lepton number violation, M. Chemtob, P.N. Pandita, Phys. Rev. D76 (2007) 095019, arXiv:0708.1284.
[Chemtob:2007rg]
[21-2132]
Anomaly mediated neutrino-photon interactions at finite baryon density, Jeffrey A. Harvey, Christopher T. Hill, Richard J. Hill, Phys. Rev. Lett. 99 (2007) 261601, arXiv:0708.1281.
[Harvey:2007rd]
[21-2133]
Phenomenology of neutrino mass matrices obeying \mu-\tau reflection symmetry, N. Nimai Singh, H. Zeen Devi, Mahadev Patgiri, arXiv:0707.2713, 2007.
[NimaiSingh:2007zb]
[21-2134]
Neutrino decay as a possible interpretation to the MiniBooNE observation with unparticle scenario, Xue-Qian Li, Yong Liu, Zheng-Tao Wei, Eur. Phys. J. C56 (2008) 97-103, arXiv:0707.2285.
[Li:2007kj]
[21-2135]
Constraints on Unparticle Interactions from Invisible Decays of Z, Quarkonia and Neutrinos, Shao-Long Chen, Xiao-Gang He, Ho-Chin Tsai, JHEP 11 (2007) 010, arXiv:0707.0187.
[Chen:2007zy]
[21-2136]
Inverted Mass Hierarchy from Scaling in the Neutrino Mass Matrix: Low and High Energy Phenomenology, A. Blum, R.N. Mohapatra, W. Rodejohann, Phys. Rev. D76 (2007) 053003, arXiv:0706.3801.
[Blum:2007qm]
[21-2137]
Testing Radiative Neutrino Mass Generation at the LHC, Chian-Shu Chen, C.Q. Geng, J.N. Ng, J.M.S. Wu, JHEP 08 (2007) 022, arXiv:0706.1964.
[Chen:2007dc]
[21-2138]
Dirac Neutrino Dark Matter, Genevieve Belanger, Alexander Pukhov, Geraldine Servant, JCAP 0801 (2008) 009, arXiv:0706.0526.
[Belanger:2007dx]
[21-2139]
Pair Production of Doubly-Charged Scalars: Neutrino Mass Constraints and Signals at the LHC, Tao Han, Biswarup Mukhopadhyaya, Zongguo Si, Kai Wang, Phys. Rev. D76 (2007) 075013, arXiv:0706.0441.
[Han:2007bk]
[21-2140]
Neutrino Decays and Neutrino Electron Elastic Scattering in Unparticle Physics, Shun Zhou, Phys. Lett. B659 (2008) 336-340, arXiv:0706.0302.
[Zhou:2007zq]
[21-2141]
Neutrino number asymmetry and cosmological birefringence, C. Q. Geng, S. H. Ho, J. N. Ng, JCAP 0709 (2007) 010, arXiv:0706.0080.
[Geng:2007va]
[21-2142]
The golden ratio prediction for the solar neutrino mixing, Yuji Kajiyama, Martti Raidal, Alessandro Strumia, Phys. Rev. D76 (2007) 117301, arXiv:0705.4559.
[Kajiyama:2007gx]
[21-2143]
Higgs and neutrino sector, EDM and epsilon_K in a spontaneously CP and R-parity breaking supersymmetric model, M. Frank, K. Huitu, T. Ruppell, Eur. Phys. J. C52 (2007) 413-423, arXiv:0705.4160.
[Frank:2007un]
[21-2144]
Like-sign dilepton signals from a leptophobic Z' boson, F. del Aguila, J. A. Aguilar-Saavedra, JHEP 11 (2007) 072, arXiv:0705.4117.
[delAguila:2007ua]
[21-2145]
Heavy chiral bosons search at hadron colliders, Mihail V. Chizhov, arXiv:0705.3944, 2007.
[Chizhov:2007qp]
[21-2146]
Higgs boson production at the LHC: transverse-momentum resummation and rapidity dependence, G. Bozzi, S. Catani, D. de Florian, M. Grazzini, Nucl. Phys. B791 (2008) 1-19, arXiv:0705.3887.
[Bozzi:2007pn]
[21-2147]
Right-Handed Neutrinos at LHC and the Mechanism of Neutrino Mass Generation, Joern Kersten, Alexei Yu. Smirnov, Phys. Rev. D76 (2007) 073005, arXiv:0705.3221.
[Kersten:2007vk]
[21-2148]
Experimental Constraints on Higgs Boson Decays to TeV-scale Right-Handed Neutrinos, Michael L. Graesser, arXiv:0705.2190, 2007.
[Graesser:2007pc]
[21-2149]
Testing neutrino masses in little Higgs models via discovery of doubly charged Higgs at LHC, A. Hektor et al., Nucl. Phys. B787 (2007) 198-210, arXiv:0705.1495.
[Hektor:2007uu]
[21-2150]
CPT and lepton number violation in neutrino sector: Modified mass matrix of neutrino coupled to gravity, Monika Sinha, Banibrata Mukhopadhyay, Phys. Rev. D77 (2008) 025003, arXiv:0704.2593.
[Sinha:2007uh]
[21-2151]
The neutrino mass scale and the mixing angle $\theta_{13}$ for quasi-degenerate Majorana neutrinos, Rathin Adhikari, Anindya Datta, Biswarup Mukhopadhyaya, Phys. Rev. D76 (2007) 073003, arXiv:hep-ph/0703318.
[Adhikari:2007zj]
[21-2152]
Predictions for $ \mu \to e \gamma$ in SUSY from non trivial Quark-Lepton complementarity, Marco Picariello, Adv. High Energy Phys. 2007 (2007) 39676, arXiv:hep-ph/0703301.
[Picariello:2007yn]
[21-2153]
Phenomenology of the $ SU(3)_c\otimes SU(3)_L\otimes U(1)_X $ model with exotic charged leptons, Juan C. Salazar, William A. Ponce, Diego A. Gutierrez, Phys. Rev. D75 (2007) 075016, arXiv:hep-ph/0703300.
[Salazar:2007ym]
[21-2154]
Possible exotic neutrino signature in electron muon collisions, Jai Kumar Singhal, Sardar Singh, A K Nagawat, arXiv:hep-ph/0703136, 2007.
[Singhal:2007hw]
[21-2155]
CP-violation from non-unitary leptonic mixing, E. Fernandez-Martinez, M.B. Gavela, J.Lopez-Pavon, O. Yasuda, Phys. Lett. B649 (2007) 427-435, arXiv:hep-ph/0703098.
[Fernandez-Martinez:2007iaa]
[21-2156]
Discriminating among the theoretical origins of new heavy Majorana neutrinos at the CERN LHC, F. M. L. de Almeida Jr. et al., Phys. Rev. D75 (2007) 075002, arXiv:hep-ph/0703094.
[deAlmeida:2007gc]
[21-2157]
Resonant CP Violation due to Heavy Neutrinos at the LHC, Simon Bray, Jae Sik Lee, Apostolos Pilaftsis, Nucl. Phys. B786 (2007) 95-118, arXiv:hep-ph/0702294.
[Bray:2007ru]
[21-2158]
Neutrino Mixing Sum Rules and Oscillation Experiments, S. Antusch, P. Huber, S. F. King, T. Schwetz, JHEP 04 (2007) 060, arXiv:hep-ph/0702286.
[Antusch:2007rk]
[21-2159]
Geometric Mean Neutrino Mass Relation, Xiao-Gang He, A. Zee, Mod. Phys. Lett. A22 (2007) 2107-2112, arXiv:hep-ph/0702133. 7 pages. Talk given at COSPA06.
[He:2007cy]
[21-2160]
Bilepton effects on the WWV^* vertex in the 331 model with right-handed neutrinos via a SU_L(2)XU_Y(1) covariant quantization scheme, F. Ramirez-Zavaleta, G. Tavares-Velasco, J. J. Toscano, Phys. Rev. D75 (2007) 075008, arXiv:hep-ph/0702081.
[Ramirez-Zavaleta:2007etn]
[21-2161]
Bounding the Number of Light Neutrinos Species in a Left-Right Symmetric Model, A. Gutierrez-Rodriguez, M. A. Hernandez-Ruiz, M. A. Perez, F. Perez-Vargas, arXiv:hep-ph/0702076, 2007.
[Gutierrez-Rodriguez:2007kqy]
[21-2162]
Correlation between lepton flavor violation and B_{(d,s)} - \bar{B}_{(d,s)} mixing in SUSY GUT, Kingman Cheung, Sin Kyu Kang, C.S. Kim, Jake Lee, Phys. Lett. B652 (2007) 319-324, arXiv:hep-ph/0702050.
[Cheung:2007pj]
[21-2163]
The Higgs boson production process $e^{+}e^{-}\to ZH$ in the 3-3-1 model with RH neutrinos, Yao-Bei Liu, Yong-Hua Cao, Hong-Mei Han, Eur. Phys. J. C53 (2008) 615-620, arXiv:hep-ph/0701169.
[Liu:2007yka]
[21-2164]
Baryogenesis via left-right asymmetry generation by Affleck-Dine mechanism in Dirac neutrino model, Masato Senami, Tsutomu Takayama, Phys. Rev. D75 (2007) 105004, arXiv:hep-ph/0701103.
[Senami:2007up]
[21-2165]
The WIMP of a Minimal Technicolor Theory, Kimmo Kainulainen, Kimmo Tuominen, Jussi Virkajarvi, Phys. Rev. D75 (2007) 085003, arXiv:hep-ph/0612247.
[Kainulainen:2006wq]
[21-2166]
Systematic Parameter Space Search of Extended Quark-Lepton Complementarity, Florian Plentinger, Gerhart Seidl, Walter Winter, Nucl. Phys. B791 (2008) 60-92, arXiv:hep-ph/0612169.
[Plentinger:2006nb]
[21-2167]
Atmospheric Neutrino Mixing and b-s Transitions: Testing Lopsided SO(10) Flavor Structure in B physics, Xiangdong Ji, Yingchuan Li, Yue Zhang, Phys. Rev. D75 (2007) 055016, arXiv:hep-ph/0612114.
[Ji:2006qs]
[21-2168]
Phenomenology of Two-Texture Zero Neutrino Mass Matrices, S. Dev, Sanjeev Kumar, Surender Verma, Shivani Gupta, Phys. Rev. D76 (2007) 013002, arXiv:hep-ph/0612102.
[Dev:2006qe]
[21-2169]
Late Forming Dark Matter in Theories of Neutrino Dark Energy, Subinoy Das, Neal Weiner, Phys. Rev. D84 (2011) 123511, arXiv:astro-ph/0611353.
[Das:2006ht]
[21-2170]
Phenomenological Implications of a Class of Neutrino Mass Matrices, S. Dev, Sanjeev Kumar, Surender Verma, Shivani Gupta, Nucl. Phys. B784 (2007) 103-117, arXiv:hep-ph/0611313.
[Dev:2006xu]
[21-2171]
Modification of the Unitarity Relation for sin2beta-Vub in Supersymmetric Models, Bhaskar Dutta, Yukihiro Mimura, Phys. Rev. D75 (2007) 015006, arXiv:hep-ph/0611268.
[Dutta:2006zt]
[21-2172]
Probing for variation of neutrino mass with current observations, Gong-Bo Zhao, Jun-Qing Xia, Xinmin Zhang, JCAP 0707 (2007) 010, arXiv:astro-ph/0611227.
[Zhao:2006zf]
[21-2173]
Neutrino CP violating parameters from nontrivial quark-lepton correlation: a S3xGUT model, Marco Picariello, Int. J. Mod. Phys. A23 (2008) 4435-4448, arXiv:hep-ph/0611189.
[Picariello:2006sp]
[21-2174]
New signals of a R-parity violating model of neutrino mass at the Tevatron, Amitava Datta, Sujoy Poddar, Phys. Rev. D75 (2007) 075013, arXiv:hep-ph/0611074.
[Datta:2006ak]
[21-2175]
Lepton Flavour Violating tau Decays in the Left-Right Symmetric Model, A.G. Akeroyd, Mayumi Aoki, Yasuhiro Okada, Phys. Rev. D76 (2007) 013004, arXiv:hep-ph/0610344.
[Akeroyd:2006bb]
[21-2176]
Constraint of parameters in a neutrino mass formula, Wojciech Krolikowski, arXiv:hep-ph/0610248, 2006.
[Krolikowski:2006nm]
[21-2177]
MeV Right-handed Neutrinos and Dark Matter, J.-M. Frère et al., Phys. Rev. D75 (2007) 085017, arXiv:hep-ph/0610240.
[Frere:2006hp]
[21-2178]
Lepton Flavor Violating Decays as Probes of Neutrino Mass Spectra and Heavy Majorana Neutrino Masses, Wan-lei Guo, Phys. Rev. D74 (2006) 113009, arXiv:hep-ph/0610174.
[Guo:2006rm]
[21-2179]
Experimental tests for the Babu-Zee two-loop model of Majorana neutrino masses, D. Aristizabal Sierra, M. Hirsch, JHEP 12 (2006) 052, arXiv:hep-ph/0609307.
[AristizabalSierra:2006gb]
[21-2180]
Combined flavor symmetry violation and lepton number violation in neutrino physics, Micheal S. Berger, Samuel Santana, Phys. Rev. D74 (2006) 113007, arXiv:hep-ph/0609176.
[Berger:2006zw]
[21-2181]
Sterile neutrinos, dark matter, and the pulsar velocities in models with a Higgs singlet, Alexander Kusenko, Phys. Rev. Lett. 97 (2006) 241301, arXiv:hep-ph/0609081.
[Kusenko:2006rh]
[21-2182]
Probing deviations from tri-bimaximal mixing through ultra high energy neutrino signals, Debasish Majumdar, Ambar Ghosal, Phys. Rev. D75 (2007) 113004, arXiv:hep-ph/0608334.
[Majumdar:2006px]
[21-2183]
A-term inflation and the MSSM, Juan Bueno Sanchez, Konstantinos Dimopoulos, David Lyth, JCAP 0701 (2007) 015, arXiv:hep-ph/0608299.
[BuenoSanchez:2006xk]
[21-2184]
On the Fukugita-Tanimoto-Yanagida Ansatz with Partially Non-degenerate Right-handed Majorana Neutrinos, Midori Obara, Zhi-zhong Xing, Phys. Lett. B644 (2007) 136-146, arXiv:hep-ph/0608280.
[Obara:2006ny]
[21-2185]
Lepton flavor violation in muonium decay and muon colliders in models with heavy neutrinos, Gorazd Cvetic, Claudio O. Dib, Choong-Sun Kim, JungDae Kim, Phys. Rev. D74 (2006) 093011, arXiv:hep-ph/0608203.
[Cvetic:2006yg]
[21-2186]
Model Predictions for Neutrino Oscillation Parameters, Carl H. Albright, Mu-Chun Chen, Phys. Rev. D74 (2006) 113006, arXiv:hep-ph/0608137.
[Albright:2006cw]
[21-2187]
Radiative neutrino decay and CP-violation in R-parity violating supersymmetry, Gautam Bhattacharyya, Palash B. Pal, Heinrich Päs, Thomas J. Weiler, Phys. Rev. D74 (2006) 053006, arXiv:hep-ph/0608131.
[Bhattacharyya:2006cq]
[21-2188]
Probing Late Neutrino Mass Properties with Supernova Neutrinos, J. Baker, H. Goldberg, G. Perez, I. Sarcevic, Phys. Rev. D76 (2007) 063004, arXiv:hep-ph/0607281.
[Baker:2006gm]
[21-2189]
Possible CPT Violation from Planck Scale Effects, Bipin Singh koranga, Mohan Narayan, S Uma Sankar, Fizika B18 (2009) 219-226, arXiv:hep-ph/0607274.
[SinghKoranga:2006ay]
[21-2190]
Low and High Energy Phenomenology of Quark-Lepton Complementary Scenarios, Kathrin A. Hochmuth, Werner Rodejohann, Phys. Rev. D75 (2007) 073001, arXiv:hep-ph/0607103.
[Hochmuth:2006xn]
[21-2191]
Neutrino Parameter Space for a Vanishing ee Element in the Neutrino Mass Matrix, S. Dev, Sanjeev Kumar, Mod. Phys. Lett. A22 (2007) 1401-1410, arXiv:hep-ph/0607048.
[Dev:2006if]
[21-2192]
Stop Decay into Right-handed Sneutrino LSP at Hadron Colliders, Andre de Gouvea, Shrihari Gopalakrishna, Werner Porod, JHEP 11 (2006) 050, arXiv:hep-ph/0606296.
[deGouvea:2006wd]
[21-2193]
$\theta_{13}$, Rare Processes and Proton Decay in Flipped SU(5), Qaisar Shafi, Zurab Tavartkiladze, arXiv:hep-ph/0606188, 2006.
[Shafi:2006dm]
[21-2194]
Global three-parameter model for neutrino oscillations using Lorentz violation, Teppei Katori, Alan Kostelecky, Rex Tayloe, Phys. Rev. D74 (2006) 105009, arXiv:hep-ph/0606154.
[Katori:2006mz]
[21-2195]
Transition magnetic moments of Majorana neutrinos in supersymmetry without R-parity in light of neutrino oscillations, Marek Gozdz, Wieslaw A. Kaminski, Fedor Simkovic, Amand Faessler, Phys. Rev. D74 (2006) 055007, arXiv:hep-ph/0606077.
[Gozdz:2006iz]
[21-2196]
Bounding the magnetic and electric dipole moments of tau nu from the process e+e- - > nu bar nu gamma in E6 Superstring Models, A. Gutierrez-Rodriguez, M. A. Hernandez-Ruiz, B. Jayme-Valdes, M. A. Perez, Phys. Rev. D74 (2011) 053002, arXiv:hep-ph/0605277.
[Gutierrez-Rodriguez:2011rdm]
[21-2197]
Neutrino Telescopes as a Probe of Broken $\mu$-$\tau$ Symmetry, Zhi-zhong Xing, Phys. Rev. D74 (2006) 013009, arXiv:hep-ph/0605219.
[Xing:2006xd]
[21-2198]
A possible symmetry of the $\nu\text{MSM}$, Mikhail Shaposhnikov, Nucl. Phys. B763 (2007) 49-59, arXiv:hep-ph/0605047.
[Shaposhnikov:2006nn]
[21-2199]
Quark-lepton complementarity, neutrino and standard model data predict $\theta_{13}^{PMNS}=9^{+1}_{-2} deg$, Bhag C. Chauhan, Marco Picariello, Joao Pulido, Emilio Torrente-Lujan, Eur. Phys. J. C50 (2007) 573-578, arXiv:hep-ph/0605032.
[Chauhan:2006im]
[21-2200]
Cold Dark Matter, Radiative Neutrino Mass, mu to e gamma, and Neutrinoless Double Beta Decay, Jisuke Kubo, Ernest Ma, Daijiro Suematsu, Phys. Lett. B642 (2006) 18-23, arXiv:hep-ph/0604114.
[Kubo:2006yx]
[21-2201]
Lowering solar mixing angle in inverted hierarchy without charged lepton corrections, N.Nimai Singh, Monisa Rajkhowa, Abhijit Borah, J. Phys. G34 (2007) 345-352, arXiv:hep-ph/0603154.
[Singh:2006uw]
[21-2202]
The Elements of the Neutrino Mass Matrix: Allowed Ranges and Implications of Texture Zeros, A. Merle, W. Rodejohann, Phys. Rev. D73 (2006) 073012, arXiv:hep-ph/0603111.
[Merle:2006du]
[21-2203]
Connecting Dark Energy to Neutrinos with an Observable Higgs Triplet, Ernest Ma, Utpal Sarkar, Phys. Lett. B638 (2006) 356-358, arXiv:hep-ph/0602116.
[Ma:2006mr]
[21-2204]
Neutrino Mass Matrices With Vanishing Determinant, Bhag C. Chauhan, Joao Pulido, Marco Picariello, Phys. Rev. D73 (2006) 053003, arXiv:hep-ph/0602084.
[Chauhan:2006uf]
[21-2205]
Fixing the Solar Parameters with Sterile Neutrinos, J.C. Gomez-Izquierdo, A. Perez-Lorenzana, Phys. Rev. D74 (2006) 013005, arXiv:hep-ph/0601223.
[Gomez-Izquierdo:2006bwq]
[21-2206]
Constraints on UED KK-neutrino dark matter from magnetic dipole moments, Thomas Flacke, David W. Maybury, Int. J. Mod. Phys. D16 (2006) 1593-1600, arXiv:hep-ph/0601161.
[Flacke:2006tj]
[21-2207]
Nonminimal supersymmetric standard model with lepton number violation, M. Chemtob, P.N. Pandita, Phys. Rev. D73 (2006) 055012, arXiv:hep-ph/0601159.
[Chemtob:2006ur]
[21-2208]
Speed of Sound in the Mass Varying Neutrinos Scenario, Ryo Takahashi, Morimitsu Tanimoto, JHEP 05 (2006) 021, arXiv:astro-ph/0601119.
[Takahashi:2006jt]
[21-2209]
Possible new source of T and CP violation in neutrino oscillations, Frans R. Klinkhamer, Phys. Rev. D73 (2006) 057301, arXiv:hep-ph/0601116.
[Klinkhamer:2006ae]
[21-2210]
The masses of active neutrinos in the nuMSM from X-ray astronomy, A. Boyarsky, A. Neronov, O. Ruchayskiy, M. Shaposhnikov, Jetp Lett. 83 (2006) 133, arXiv:hep-ph/0601098.
[Boyarsky:2006jm]
[21-2211]
Cosmology of Mass-Varying Neutrinos Driven by Quintessence: Theory and Observations, A. W. Brookfield, C. van de Bruck, D. F. Mota, D. Tocchini-Valentini, Phys. Rev. D73 (2006) 083515, arXiv:astro-ph/0512367.
[Brookfield:2005bz]
[21-2212]
Low scale Seesaw model and Lepton Flavor Violating Rare B Decays, T. Fujihara et al., Phys. Rev. D73 (2006) 074011, arXiv:hep-ph/0512010.
[Fujihara:2005uq]
[21-2213]
Testing mass-varying neutrinos with reactor experiments, Thomas Schwetz, Walter Winter, Phys. Lett. B633 (2006) 557, arXiv:hep-ph/0511177.
[Schwetz:2005fy]
[21-2214]
Testing Supersymmetry with Lepton Flavor Violating tau and mu decays, E. Arganda, M.J. Herrero, Phys. Rev. D73 (2006) 055003, arXiv:hep-ph/0510405.
[Arganda:2005ji]
[21-2215]
A very simple empirical neutrino mass formula, Wojciech Krolikowski, arXiv:hep-ph/0510355, 2005.
[Krolikowski:2005zn]
[21-2216]
Lepton flavor violating Higgs boson decays, tau - > mu gamma, B(s) - > mu+mu- and theta(13) in the constrained MSSM with Massive Neutrinos and large tan beta, J. K. Parry, Nucl. Phys. B760 (2007) 38-63, arXiv:hep-ph/0510305.
[Parry:2005fp]
[21-2217]
A New Look at an Old Mass Relation, J.-M. Gerard, F. Goffinet, M. Herquet, Phys. Lett. B633 (2006) 563, arXiv:hep-ph/0510289.
[Gerard:2005ad]
[21-2218]
The 2-3 symmetry: Flavour changing b, tau decays and neutrino mixing, Alakabha Datta, Patrick J. O'Donnell, Phys. Rev. D72 (2005) 113002, arXiv:hep-ph/0508314.
[Datta:2005fa]
[21-2219]
MSLED, Neutrino Oscillations and the Cosmological Constant, J. Matias, C.P. Burgess, JHEP 0509 (2005) 052, arXiv:hep-ph/0508156.
[Matias:2005gg]
[21-2220]
Some Implications of Neutron Mirror Neutron Oscillation, R.N. Mohapatra, S. Nasri, S. Nussinov, Phys. Lett. B627 (2005) 124, arXiv:hep-ph/0508109.
[Mohapatra:2005ng]
[21-2221]
Neutrino Mixing Predictions of a Minimal SO(10) Model with Suppressed Proton Decay, Bhaskar Dutta, Yukihiro Mimura, R.N. Mohapatra, Phys. Rev. D72 (2005) 075009, arXiv:hep-ph/0507319.
[Dutta:2005ni]
[21-2222]
Rare Weak Decays and Direct Lepton Number Violating Signals in a Minimal R-Parity Violating Model of Neutrino Mass, Amitava Datta, Jyoti Prasad Saha, Anirban Kundu, Abhijit Samanta, Phys. Rev. D72 (2005) 055007, arXiv:hep-ph/0507311.
[Datta:2005yt]
[21-2223]
Predicting Neutrinoless Double Beta Decay, M. Hirsch, Ernest Ma, J. W. F. Valle, A. Villanova del Moral, Phys. Rev. D72 (2005) 091301, arXiv:hep-ph/0507148.
[Hirsch:2005mc]
[21-2224]
SM Higgs boson production at LHC in 3-3-1 model with right-handed neutrinos, Le Duc Ninh, Hoang Ngoc Long, Phys. Rev. D72 (2005) 075004, arXiv:hep-ph/0507069.
[Ninh:2005su]
[21-2225]
nuMSM-Predictions for Neutrinoless Double Beta Decay, F. Bezrukov, Phys. Rev. D72 (2005) 071303, arXiv:hep-ph/0505247.
[Bezrukov:2005mx]
[21-2226]
Mini Z' Burst from Relic Supernova Neutrinos and Late Neutrino Masses, Haim Goldberg, Gilad Perez, Ina Sarcevic, JHEP 11 (2006) 023, arXiv:hep-ph/0505221.
[Goldberg:2005yw]
[21-2227]
The Fourth SM Family Neutrino at Future Linear Colliders, A. K. Ciftci, R. Ciftci, S. Sultansoy, Phys. Rev. D72 (2005) 053006, arXiv:hep-ph/0505120.
[Ciftci:2005gf]
[21-2228]
The $\nu$MSM, Dark Matter and Baryon Asymmetry of the Universe, Takehiko Asaka, Mikhail Shaposhnikov, Phys. Lett. B620 (2005) 17, arXiv:hep-ph/0505013.
[Asaka:2005pn]
[21-2229]
Probing the Origins of Neutrino Mass with Supernova Data, Hooman Davoudiasl, Patrick Huber, Phys. Rev. Lett. 95 (2005) 191302, arXiv:hep-ph/0504265.
[Davoudiasl:2005fd]
[21-2230]
$\mu-\tau$ Symmetry and Maximal CP Violation, Teruyuki Kitabayashi, Masaki Yasue, Phys. Lett. B621 (2005) 133, arXiv:hep-ph/0504212.
[Kitabayashi:2005fc]
[21-2231]
Muonium-antimuonium conversion in models with heavy neutrinos, Gorazd Cvetic, Claudio O. Dib, C.S. Kim, J. D. Kim, Phys. Rev. D71 (2005) 113013, arXiv:hep-ph/0504126.
[Cvetic:2005gx]
[21-2232]
The small mixing angle $\theta_{13}$ and the lepton asymmetry, Song-Haeng Lee, Kim Siyeon, Phys. Rev. D71 (2005) 096006, arXiv:hep-ph/0503217.
[Lee:2005cda]
[21-2233]
Lepton Flavor Violation as a Probe of Quark-Lepton Unification, Kingman Cheung, Sin Kyu Kang, C. S. Kim, Jake Lee, Phys. Rev. D72 (2005) 036003, arXiv:hep-ph/0503122.
[Cheung:2005gq]
[21-2234]
The nuMSM, Dark Matter and Neutrino Masses, Takehiko Asaka, Steve Blanchet, Mikhail Shaposhnikov, Phys. Lett. B631 (2005) 151, arXiv:hep-ph/0503065.
[Asaka:2005an]
[21-2235]
Mass Varying Neutrinos in the Sun, Marco Cirelli, M. C. Gonzalez-Garcia, Carlos Pena-Garay, Nucl. Phys. B719 (2005) 219, arXiv:hep-ph/0503028.
[Cirelli:2005sg]
[21-2236]
Neutrino Decay and Neutrinoless Double Beta Decay in a 3-3- 1 Model, Alex G. Dias, A. Doff, C. A. de S. Pires, P. S. Rodrigues da Silva, Phys. Rev. D72 (2005) 035006, arXiv:hep-ph/0503014.
[Dias:2005jm]
[21-2237]
Solar mass-varying neutrino oscillations, V. Barger, Patrick Huber, Danny Marfatia, Phys. Rev. Lett. 95 (2005) 211802, arXiv:hep-ph/0502196.
[Barger:2005mn]
[21-2238]
Bounds on the neutrino mixing angles for an SO(10) model with lopsided mass matrices, Carl H. Albright, Phys. Rev. D72 (2005) 013001, arXiv:hep-ph/0502161.
[Albright:2005bm]
[21-2239]
Signature of the Minimal Supersymmetric Standard Model with Right-Handed Neutrinos in Long Baseline Experiments, Toshihiko Ota, Joe Sato, Phys. Rev. D71 (2005) 096004, arXiv:hep-ph/0502124.
[Ota:2005et]
[21-2240]
Enhancement of lepton flavor violation in a model with bi-maximal mixing at the grand unification scale, Shinya Kanemura et al., Phys. Rev. D72 (2005) 093004, arXiv:hep-ph/0501228.
[Kanemura:2005ita]
[21-2241]
Probing running neutrino mixing angles with ultrahigh energy neutrino telescopes, Pijushpani Bhattacharjee, Nayantara Gupta, Phys. Rev. Lett. (2005), arXiv:hep-ph/0501191.
[Bhattacharjee:2005nh]
[21-2242]
Probing neutrino mass with displaced vertices at the Tevatron, F. de Campos et al., Phys. Rev. D71 (2005) 075001, arXiv:hep-ph/0501153.
[deCampos:2005ri]
[21-2243]
Leptonic CP violation in a two parameter model, Samina S. Masood, Salah Nasri, Joseph Schechter, Phys. Rev. D71 (2005) 093005, arXiv:hep-ph/0412401.
[Masood:2004dq]
[21-2244]
Interactions of cosmic neutrinos with nucleons in the RS model, A.V. Kisselev, Eur. Phys. J. C42 (2005) 217, arXiv:hep-ph/0412376.
[Kisselev:2004ze]
[21-2245]
On the weak decay of composite system based on Majorana partners, Masakazu Aoki, Kazuo Koike, arXiv:hep-ph/0412375, 2004.
[Aoki:2004zd]
[21-2246]
Suppressing Proton Decay in the Minimal SO(10) Model, Bhaskar Dutta, Yukihiro Mimura, R.N. Mohapatra, Phys. Rev. Lett. 94 (2005) 091804, arXiv:hep-ph/0412105.
[Dutta:2004zh]
[21-2247]
Neutrino Oscillations in Deconstructed Dimensions, Tomas Hallgren, Tommy Ohlsson, Gerhart Seidl, JHEP 0502 (2005) 049, arXiv:hep-ph/0411312.
[Hallgren:2004mw]
[21-2248]
Testing Mass Varying Neutrino With Short Gamma Ray Burst, Hong Li, Zigao Dai, Xinmin Zhang, Phys. Rev. D71 (2005) 113003, arXiv:hep-ph/0411228.
[Li:2004tq]
[21-2249]
Charged Lepton Electric Dipole Moments from TeV Scale Right-handed Neutrinos, We-Fu Chang, John N. Ng, New J. Phys. 7 (2005) 65, arXiv:hep-ph/0411201.
[Chang:2004pba]
[21-2250]
Phenomenology of the SU(3)_c X SU(3)_L X U(1)_X model with right-handed neutrinos, Diego A. Gutierrez, William A. Ponce, Luis A. Sanchez, Eur. Phys. J. C46 (2006) 497, arXiv:hep-ph/0411077.
[Gutierrez:2004sba]
[21-2251]
Implications for New Physics from Fine-Tuning Arguments: I. Application to SUSY and Seesaw Cases, J.A. Casas, J.R. Espinosa, I. Hidalgo, JHEP 0411 (2004) 057, arXiv:hep-ph/0410298.
[Casas:2004gh]
[21-2252]
Flavor symmetry L(e) - L(mu) - L(tau), atmospheric neutrino mixing and CP violation in the lepton sector, S. T. Petcov, W. Rodejohann, Phys. Rev. D71 (2005) 073002, arXiv:hep-ph/0409135.
[Petcov:2004rk]
[21-2253]
theta(13) as a probe of mu < - > tau symmetry for leptons, R. N. Mohapatra, JHEP 0410 (2004) 027, arXiv:hep-ph/0408187.
[Mohapatra:2004mf]
[21-2254]
Massive Neutrinos and Flavour Violation, Antonio Masiero, Sudhir K. Vempati, Oscar Vives, New J. Phys. 6 (2004) 202, arXiv:hep-ph/0407325.
[Masiero:2004js]
[21-2255]
Avoiding BBN Constraints on Mirror Models for Sterile Neutrinos, R. N. Mohapatra, S. Nasri, Phys. Rev. D71 (2005) 053001, arXiv:hep-ph/0407194.
[Mohapatra:2004uy]
[21-2256]
Neutrino Oscillations and Collider Test of the R-parity Violating Minimal Supergravity Model, Dong-Won Jung, Sin Kyu Kang, Jong Dae Park, Eung Jin Chun, JHEP 0408 (2004) 017, arXiv:hep-ph/0407106.
[Jung:2004rd]
[21-2257]
Discriminating neutrino mass models using Type II seesaw formula, N. Nimai Singh, Mahadev Patgiri, Mrinal Kumar Das, Pramana 66 (2006) 361, arXiv:hep-ph/0406075.
[NimaiSingh:2004pi]
[21-2258]
Implications of a new light gauge boson for neutrino physics, Celine Boehm, Phys. Rev. D70 (2004) 055007, arXiv:hep-ph/0405240.
[Boehm:2004uq]
[21-2259]
Searching for Composite Neutrinos in the Cosmic Microwave Background, Takemichi Okui, JHEP 0509 (2005) 017, arXiv:hep-ph/0405083.
[Okui:2004xn]
[21-2260]
Anthropic predictions for vacuum energy and neutrino masses, Levon Pogosian, Alexander Vilenkin, Max Tegmark, JCAP 0407 (2004) 005, arXiv:astro-ph/0404497.
[Pogosian:2004hd]
[21-2261]
Is there maximal mixing in the lepton sector?, Stefan Antusch et al., Phys. Rev. D70 (2004) 097302, arXiv:hep-ph/0404268.
[Antusch:2004yx]
[21-2262]
Higher dimensional models of light Majorana neutrinos confronted by data, JoAnne L. Hewett, Probir Roy, Sourov Roy, Phys. Rev. D70 (2004) 051903, arXiv:hep-ph/0404174.
[Hewett:2004py]
[21-2263]
$\delta T/T$ and Neutrino Masses in SU(5), Bumseok Kyae, Qaisar Shafi, Phys. Lett. B597 (2004) 321, arXiv:hep-ph/0404168.
[Kyae:2004ft]
[21-2264]
Can one of three righthanded neutrinos be light enough to produce a small LSND effect?, Wojciech Krolikowski, Acta Phys. Polon. B35 (2004) 2241, arXiv:hep-ph/0404118.
[Krolikowski:2004nd]
[21-2265]
Neutrino mass, dark matter and inflation, D. Kazanas, R. N. Mohapatra, S. Nasri, V. L. Teplitz, Phys. Rev. D70 (2004) 033015, arXiv:hep-ph/0403291.
[Kazanas:2004kv]
[21-2266]
The Simplest Neutrino Mass Matrix, P.F. Harrison, W.G. Scott, Phys. Lett. B594 (2004) 324, arXiv:hep-ph/0403278.
[Harrison:2004he]
[21-2267]
Phenomenology of TeV Right-handed Neutrino and the Dark Matter Model, Kingman Cheung, Osamu Seto, Phys. Rev. D69 (2004) 113009, arXiv:hep-ph/0403003.
[Cheung:2004xm]
[21-2268]
Two light sterile neutrinos that mix maximally with each other and moderately with three active neutrinos, Wojciech Krolikowski, Acta Phys. Polon. B35 (2004) 1675, arXiv:hep-ph/0402183.
[Krolikowski:2004ru]
[21-2269]
Probing the nature of the seesaw in renormalizable SO(10), Borut Bajc, Goran Senjanovic, Francesco Vissani, Phys. Rev. D70 (2004) 093002, arXiv:hep-ph/0402140.
[Bajc:2004fj]
[21-2270]
CKM CP Violation in a Minimal SO(10) Model for Neutrinos and Its Implications, Bhaskar Dutta, Yukihiro Mimura, R.N. Mohapatra, Phys. Rev. D69 (2004) 115014, arXiv:hep-ph/0402113.
[Dutta:2004wv]
[21-2271]
The role of Majorana CP phases in the bi-maximal mixing scheme -hierarchical Dirac mass case-, Tetsuo Shindou, Eiichi Takasugi, Phys. Rev. D70 (2004) 013005, arXiv:hep-ph/0402106.
[Shindou:2004tv]
[21-2272]
Deviation of Atmospheric Mixing from Maximal and Structure in the Leptonic Flavor Sector, Andre de Gouvea, Phys. Rev. D69 (2004) 093007, arXiv:hep-ph/0401220.
[deGouvea:2004gr]
[21-2273]
Phenomenological analysis of lepton and quark Yukawa couplings in SO(10) two Higgs model, K. Matsuda, Phys. Rev. D69 (2004) 113006, arXiv:hep-ph/0401154.
[Matsuda:2004bq]
[21-2274]
Lepton flavor violation, neutralino dark matter and the reach of the LHC, A. Masiero, S. Profumo, S. K. Vempati, C. E. Yaguna, JHEP 0403 (2004) 046, arXiv:hep-ph/0401138.
[Masiero:2004vk]
[21-2275]
Neutrino oscillations as a probe of dark energy, David B. Kaplan, Ann E. Nelson, Neal Weiner, Phys. Rev. Lett. 93 (2004) 091801, arXiv:hep-ph/0401099.
[Kaplan:2004dq]
[21-2276]
Production of excited neutrino at LHC, A. Belyaev, C. Leroy, R. Mehdiyev, Eur. Phys. J. C41S2 (2005) 1-10, arXiv:hep-ph/0401066.
[Belyaev:2004qq]
[21-2277]
Degenerate neutrinos and CP violation, A. N. Ioannisian, N. A. Kazarian, arXiv:hep-ph/0312379, 2003.
[Ioannisian:2003fj]
[21-2278]
Static quantities of the W boson in the $SU_L(3) X U_X(1)$ model with right-handed neutrinos, J. L. Garcia-Luna, G. Tavares-Velasco, J. J. Toscano, Phys. Rev. D69 (2005) 093005, arXiv:hep-ph/0312308.
[Ky:2005mn]
[21-2279]
Phenomenological Tests of Supersymmetric $A_4$ Family Symmetry Model of Neutrino Mass, M. Hirsch et al., Phys. Rev. D69 (2004) 093006, arXiv:hep-ph/0312265.
[Hirsch:2003dr]
[21-2280]
Constraints on Natural MNS Parameters from $|U_{e3}|$, Richard F. Lebed, Daniel R. Martin, Phys. Rev. D70 (2004) 013004, arXiv:hep-ph/0312219.
[Lebed:2003sj]
[21-2281]
Neutrino Phenomenology - the case of two right handed neutrinos, A. Ibarra, G. G. Ross, Phys. Lett. B591 (2004) 285, arXiv:hep-ph/0312138.
[Ibarra:2003up]
[21-2282]
Universality of Yukawa Couplings Confronts Recent Neutrino Data, G. C. Branco, M. N. Rebelo, J. I. Silva-Marcos, Nucl. Phys. B686 (2004) 188, arXiv:hep-ph/0311348.
[Branco:2003pp]
[21-2283]
See-Saw Induced CMSSM Lepton-Flavour Violation Post-WMAP, Bruce A. Campbell, David W. Maybury, Brandon Murakami, JHEP 0403 (2004) 052, arXiv:hep-ph/0311244.
[Campbell:2003wp]
[21-2284]
Neutrino Masses, Mixing and New Physics Effects, J. A. Aguilar-Saavedra, G. C. Branco, F. R. Joaquim, Phys. Rev. D69 (2004) 073004, arXiv:hep-ph/0310305.
[Aguilar-Saavedra:2003tzd]
[21-2285]
Probing R-parity violating models of neutrino mass at the Tevatron via top Squark decays, Siba Prasad Das, Amitava Datta, Monoranjan Guchait, Phys. Rev. D70 (2004) 015009, arXiv:hep-ph/0309168.
[Das:2003pe]
[21-2286]
Anomalous U(1) symmetry and lepton flavor violation, K.S. Babu, Ts. Enkhbat, I. Gogoladze, Nucl. Phys. B678 (2004) 233, arXiv:hep-ph/0308093.
[Babu:2003zz]
[21-2287]
Quasi-Degenerate Neutrinos and Lepton Flavour Violation in Supersymmetric Models, J.I. Illana, M. Masip, Eur. Phys. J. C35 (2004) 365, arXiv:hep-ph/0307393.
[Illana:2003pj]
[21-2288]
Predictions of Physical Observables from Minimal Neutrino Structures, Thomas Hambye, arXiv:hep-ph/0307392, 2003. 6 pages, 1 figure; to appear in the proceedings of the XXXVIIIth Rencontres de Moriond, 'Electroweak Interactions and Unified Theories', Les Arcs, France, 15-22 March 2003.
[Hambye:2003pi]
[21-2289]
Neutrino properties and the decay of the lightest supersymmetric particle, M. Hirsch, W. Porod, Phys. Rev. D68 (2003) 115007, arXiv:hep-ph/0307364.
[Hirsch:2003fe]
[21-2290]
Correlated Hierarchy, Dirac Masses and Large Mixing Angles, Aseshkrishna Datta, Fu-Sin Ling, Pierre Ramond, Nucl. Phys. B671 (2003) 383, arXiv:hep-ph/0306002.
[Datta:2003qg]
[21-2291]
Impact of recent neutrino data on R-parity violation, Asmaa Abada, Gautam Bhattacharyya, Marta Losada, arXiv:hep-ph/0305330, 2003. 6 pages, Latex, 1 fig, invited talk presented at the 38th Rencontres de Moriond (Electroweak Interactions and Unified Theories), Les Arcs 1800, France, Mar 15-22, 2003. To be published in the proceedings.
[Abada:2003jm]
[21-2292]
Running Neutrino Masses, Mixings and CP Phases: Analytical Results and Phenomenological Consequences, Stefan Antusch, Joern Kersten, Manfred Lindner, Michael Ratz, Nucl. Phys. B674 (2003) 401, arXiv:hep-ph/0305273.
[Antusch:2003kp]
[21-2293]
Inverting the seesaw formula, D. Falcone, Phys. Rev. D68 (2003) 033002, arXiv:hep-ph/0305229.
[Falcone:2003af]
[21-2294]
Lepton Flavor Violation and Neutrino Mixings in a 3X2 Seesaw Model, B. Dutta, R.N. Mohapatra, Phys. Rev. D68 (2003) 056006, arXiv:hep-ph/0305059.
[Dutta:2003ps]
[21-2295]
Absolute values of three neutrino masses from atmospheric mixing and an ansatz for the mixing-matrix elements, Saul Barshay, Georg Kreyerhoff, Europhys. Lett. 63 (2003) 519, arXiv:hep-ph/0305019.
[Barshay:2003dd]
[21-2296]
Neutrino CP phases and lepton electric dipole moments in supersymmetric theories, G.C. Branco, D.Delepine, S. Khalil, Phys. Lett. B567 (2003) 207, arXiv:hep-ph/0304164.
[Branco:2003zy]
[21-2297]
Bounds for the mass of the heaviest right-handed neutrino in SO(10) theories, F. Buccella, D. Falcone, Mod. Phys. Lett. A18 (2003) 1819, arXiv:hep-ph/0304143.
[Buccella:2003iz]
[21-2298]
Reconstructing Neutrino Properties from Collider Experiments in a Higgs Triplet Neutrino Mass Model, D. Aristizabal, M. Hirsch, J.W.F. Valle, A. Villanova, Phys. Rev. D68 (2003) 033006, arXiv:hep-ph/0304141.
[AristizabalSierra:2003ix]
[21-2299]
Neutrino Bilarge Mixing and Flavor Physics in the Flipped SU(5) Model, Chao-Shang Huang, Tianjun Li, Wei Liao, Nucl. Phys. B673 (2003) 331, arXiv:hep-ph/0304130.
[Huang:2003fv]
[21-2300]
An SU(2)_L\times U(1)_Y model with reflection symmetry in view of recent neutrino experimental result, Ambar Ghosal, arXiv:hep-ph/0304090, 2003.
[Ghosal:2003mq]
[21-2301]
Testing Higgs Triplet Model and Neutrino Mass Patterns, Eung Jin Chun, Kang Young Lee, Seong Chan Park, Phys. Lett. B566 (2003) 142, arXiv:hep-ph/0304069.
[Chun:2003ej]
[21-2302]
Escape from washing out of baryon number in a two-zero-texture general Zee model compatible with the LMA-MSW solution, K.Hasegawa, C. S. Lim, K. Ogure, Phys. Rev. D68 (2003) 053006, arXiv:hep-ph/0303252.
[Hasegawa:2003by]
[21-2303]
Prediction and its Stability in Neutrino Mass Matrix with Two Zeros, Mizue Honda, Satoru Kaneko, Morimitsu Tanimoto, JHEP 0309 (2003) 028, arXiv:hep-ph/0303227.
[Honda:2003pg]
[21-2304]
Global Analysis of a Supersymmetric Pati-Salam Model, T. Blazek, S. F. King, J. K. Parry, JHEP 0305 (2003) 016, arXiv:hep-ph/0303192.
[Blazek:2003wz]
[21-2305]
Predictions from the Fritzsch-Type Lepton Mass Matrices, M. Fukugita, M. Tanimoto, T. Yanagida, Phys. Lett. B562 (2003) 273, arXiv:hep-ph/0303177.
[Fukugita:2003tn]
[21-2306]
Less suppressed $ \mu \to e \gamma $ and $ \tau \to \mu \gamma $ loop amplitudes and extra dimension theories, Bo He, T. P. Cheng, Ling-Fong Li, Phys. Lett. B 553 (2003) 277-283, arXiv:hep-ph/0209175.
[He:2002pva]
[21-2307]
The Z - > b anti-b decay asymmetry and left-right models, Xiao-Gang He, G. Valencia, Phys. Rev. D66 (2002) 013004, arXiv:hep-ph/0203036.
[He:2002ha]
[21-2308]
Prediction of $\sin^2\theta_W$ in a conformal approach to coupling unification, P. H. Frampton, R. N. Mohapatra, Sungwook Suh, Phys. Lett. B520 (2001) 331-336, arXiv:hep-ph/0104211.
[Frampton:2001xh]
[21-2309]
Muon anomalous $g-2$ and gauged $ L_\mu - L_\tau $ models, Seungwon Baek, N. G. Deshpande, X. G. He, P. Ko, Phys. Rev. D 64 (2001) 055006, arXiv:hep-ph/0104141.
[Baek:2001kca]
[21-2310]
Oscillating neutrinos and $\mu \to e \gamma$, J. A. Casas, A. Ibarra, Nucl. Phys. B618 (2001) 171-204, arXiv:hep-ph/0103065.
[Casas:2001sr]
[21-2311]
Heavy particle electroweak loop effects in extra- dimensional models with bulk neutrinos, T. P. Cheng, Ling-Fong Li, Phys. Lett. B502 (2001) 152-158, arXiv:hep-ph/0101068.
[Cheng:2001iq]
[21-2312]
Constraints on gauged $ B - 3 L_{\tau} $ and related theories, Lay Nam Chang, Oleg Lebedev, Will Loinaz, Tatsu Takeuchi, Phys. Rev. D 63 (2001) 074013, arXiv:hep-ph/0010118.
[Chang:2000xy]
[21-2313]
Can neutrinos probe extra dimensions?, Vladimir Ammosov, Guennadi Volkov, arXiv:hep-ph/0008032, 2000.
[Ammosov:2000kj]
[21-2314]
Reply to 'Is U(e3) really related to the solar neutrino solutions?', Evgeny K. Akhmedov, G.C. Branco, M.N. Rebelo, arXiv:hep-ph/0007029, 2000.
[Akhmedov:2000vv]
[21-2315]
Is U(e3) really related to the solar neutrino solutions?, N. Haba, Tomoharu Suzuki, Mod.Phys.Lett. A15 (2000) 2257-2264, arXiv:hep-ph/0006281.
[Haba:2000xz]
[21-2316]
Linking solar and long baseline terrestrial neutrino experiments, E. K. Akhmedov, G. C. Branco, M. N. Rebelo, Phys. Rev. Lett. 84 (2000) 3535, arXiv:hep-ph/9912205.
[Akhmedov:1999uw]
[21-2317]
Neutrino magnetic moments in left-right symmetric models, M. Czakon, J. Gluza, M. Zralek, Phys. Rev. D59 (1998) 013010.
[Czakon:1998rf]
[21-2318]
Implications of generalized $Z$-$Z'$ mixing, K.S. Babu, Christopher F. Kolda, John March-Russell, Phys. Rev. D 57 (1997) 6788-6792, arXiv:hep-ph/9710441.
[Babu:1997st]
[21-2319]
Models of light singlet fermion and neutrino phenomenology, E.J. Chun, Anjan S. Joshipura, A. Yu. Smirnov, Phys.Lett. B357 (1995) 608-615, arXiv:hep-ph/9505275.
[Chun:1995js]
[21-2320]
Model for a light Z-prime boson, Robert Foot, X. G. He, H. Lew, R. R. Volkas, Phys. Rev. D 50 (1994) 4571-4580, arXiv:hep-ph/9401250.
[Foot:1994vd]
[21-2321]
Decaying Dirac neutrinos, A. Acker, S. Pakvasa, James T. Pantaleone, Phys. Rev. D45 (1992) 1-4.
[Acker:1991ej]
[21-2322]
Effects of superheavy neutrinos in low-energy weak processes, T. P. Cheng, Ling-Fong Li, Phys. Rev. D44 (1991) 1502-1509.
[Cheng:1991dy]
[21-2323]
New-$Z'$ phenomenology, X. G. He, Girish C. Joshi, H. Lew, R. R. Volkas, Phys. Rev. D 43 (1991) R22-R24.
[He:1990pn]
[21-2324]
Simplest $Z'$ model, Xiao-Gang He, Girish C. Joshi, H. Lew, R. R. Volkas, Phys. Rev. D 44 (1991) 2118-2132.
[He:1991qd]
[21-2325]
Bounds on the Mass of $W_R$ and the $W_L - W_R$ Mixing Angle $\xi$ in General $SU(2)_L \times SU(2)_R \times U(1)$ Models, Paul Langacker, S. Uma Sankar, Phys. Rev. D40 (1989) 1569-1585.
[Langacker:1989xa]
[21-2326]
Lepton flavor nonconservation at high-energies in a superstring inspired Standard Model, J. Bernabeu, A. Santamaria, J. Vidal, A. Mendez, J. W. F. Valle, Phys. Lett. B187 (1987) 303.
[Bernabeu:1987gr]
[21-2327]
Large Muon and electron Number Violations in Supergravity Theories, Francesca Borzumati, Antonio Masiero, Phys. Rev. Lett. 57 (1986) 961.
[Borzumati:1986qx]
[21-2328]
On muon decay in left-right symmetric electroweak models, P. Herczeg, Phys. Rev. D34 (1986) 3449.
[Herczeg:1985cx]
[21-2329]
Experimental Tests of New SO(10) Grand Unification, D. Chang, R. N. Mohapatra, J. Gipson, R. E. Marshak, M. K. Parida, Phys. Rev. D31 (1985) 1718.
[Chang:1984qr]
[21-2330]
CP Violation and Left-Right Symmetry, G. Ecker, W. Grimus, Nucl. Phys. B258 (1985) 328-360.
[Ecker:1985vv]
[21-2331]
Majorana Neutrinos and the Production of the Right-handed Charged Gauge Boson, Wai-Yee Keung, Goran Senjanovic, Phys. Rev. Lett. 50 (1983) 1427.
[Keung:1983uu]
[21-2332]
Majoron emission by neutrinos, Vernon D. Barger, W. Y. Keung, S. Pakvasa, Phys. Rev. D25 (1982) 907.
[Barger:1981vd]
[21-2333]
Constraint on the Mass Scale of a Left-Right Symmetric Electroweak Theory from the K(L) K(S) Mass Difference, G. Beall, Myron Bander, A. Soni, Phys. Rev. Lett. 48 (1982) 848.
[Beall:1981ze]
[21-2334]
Remarks on the Zee Model of Neutrino Mixing ($\mu \to e + \gamma$, $\nu_{\text{H}} \to \nu_{\text{L}} + \gamma$, etc.), S.T. Petcov, Phys.Lett. B115 (1982) 401-406.
[Petcov:1982en]
[21-2335]
Consequences of Majorana and Dirac mass mixing for neutrino oscillations, Vernon D. Barger, P. Langacker, J. P. Leveille, S. Pakvasa, Phys. Rev. Lett. 45 (1980) 692.
[Barger:1980tf]
[21-2336]
Local B-L Symmetry of Electroweak Interactions, Majorana Neutrinos and Neutron Oscillations, Rabindra N. Mohapatra, R. E. Marshak, Phys. Rev. Lett. 44 (1980) 1316-1319. [Erratum: Phys. Rev. Lett.44,1643(1980)].
[Mohapatra:1980qe]
[21-2337]
Nonconservation of Separate mu - Lepton and e - Lepton Numbers in Gauge Theories with v+a Currents, T. P. Cheng, Ling-Fong Li, Phys. Rev. Lett. 38 (1977) 381.
[Cheng:1976uq]
[21-2338]
Muon and electron number nonconservation in a V-A six quark model, B. W. Lee, S. Pakvasa, R. E. Shrock, H. Sugawara, Phys. Rev. Lett. 38 (1977) 937.
[Lee:1977qz]
[21-2339]
Natural Suppression of Symmetry Violation in Gauge Theories: Muon - Lepton and Electron Lepton Number Nonconservation, Benjamin W. Lee, Robert E. Shrock, Phys. Rev. D16 (1977) 1444.
[Lee:1977tib]
[21-2340]
Neutrinos of Non-Zero Rest Mass, S. Pakvasa, K. Tennakone, Phys. Rev. Lett. 28 (1972) 1415.
[Pakvasa:1972gz]

22 - Phenomenology - Talks

[22-1]
Prospects to scrutinise or smash SM*A*S*H, Andreas Ringwald, PoS COSMICWISPers (2024) 003, arXiv:2312.14679.
[Ringwald:2023anj]
[22-2]
Phenomenology of a scotogenic neutrino mass model at 3-loops, Asmaa Abada, Nicolas Bernal, Antonio E. Carcamo Hernandez, Sergey Kovalenko, Tessio B. de Melo, Takashi Toma, PoS TAUP2023 (2024) 255, arXiv:2311.14716. TAUP 2023.
[deMelo:2023yqg]
[22-3]
Sterile Neutrinos at MAPP in the B-L Model, Frank F. Deppisch, Suchita Kulkarni, Wei Liu, arXiv:2311.01719, 2023.
[Deppisch:2023sga]
[22-4]
Towards identifying the minimal flavor symmetry behind neutrino oscillations, Zhi-zhong Xing, arXiv:2211.01616, 2022. 41st International Conference on High Energy Physics.
[Xing:2022cdn]
[22-5]
Sterile neutrino dark matter in a U(1) extension of the standard model, Karoly Seller, Acta Phys.Polon.Supp. 15 (2022) 1, arXiv:2112.00525. Matter To The Deepest: Recent Developments In Physics Of Fundamental Interactions. XLIV International Conference of Theoretical Physics, 2021.
[Seller:2021csy]
[22-6]
Majorana Dark Matter and Neutrino mass in a singlet-doublet extension of the Standard Model, Manoranjan Dutta, Subhaditya Bhattacharya, Purusottam Ghosh, Narendra Sahu, Springer Proc.Phys. 277 (2022) 685-689, arXiv:2106.13857. DAE-BRNS-HEP Symposium 2020.
[Dutta:2021uxd]
[22-7]
GeV-scale neutrinos: interactions with mesons and DUNE sensitivity, Manuel Gonzalez-Lopez, arXiv:2105.09318, 2021. 2021 EW session of the 55th Rencontres de Moriond.
[Gonzalez-Lopez:2021yss]
[22-8]
The Neutrino Magnetic Moment Portal, Vedran Brdar, Admir Greljo, Joachim Kopp, Toby Opferkuch, arXiv:2105.06846, 2021. 2021 EW session of the 55th Rencontres de Moriond.
[Brdar:2021xll]
[22-9]
Neutrino constraints to scotogenic dark matter interacting in the Sun, Thede de Boer, Raffaela Busse, Alexander Kappes, Michael Klasen, Sybrand Zeinstra, arXiv:2105.05613, 2021. 2021 EW session of the 55th Rencontres de Moriond.
[deBoer:2021mfw]
[22-10]
Phenomenology of Minimal Leptophilic Dark Matter Models at Linear Colliders, Adil Jueid, Salah Nasri, arXiv:2105.02921, 2021. International Workshop on Future Linear Colliders (LCWS 2021), 15-18 March 2021, PD1.
[Jueid:2021wla]
[22-11]
$\nu$ Electroweak Baryogenesis, S. Rosauro-Alcaraz, arXiv:2105.01452, 2021. 2021 EW session of the 55th Rencontres de Moriond.
[Rosauro-Alcaraz:2021fbf]
[22-12]
Dark matter implications of the KATRIN neutrino mass experiment, Thede de Boer, Michael Klasen, Caroline Rodenbeck, Sybrand Zeinstra, arXiv:2104.10969, 2021. 2021 EW session of the 55th Rencontres de Moriond.
[DeBoer:2021lcv]
[22-13]
On the reactions involving neutrinos and hidden mass particles in hypercolor model, Vitaly Beylin, Vladimir Kuksa, arXiv:2011.09685, 2020. XXIII Bled Workshop 'What Comes Beyond the Standard Model?' Bled, Julay 4-12, 2020.
[Beylin:2020vcw]
[22-14]
Modified lepton couplings and the Cabibbo-angle anomaly, Antonio Coutinho, Andreas Crivellin, Claudio Andrea Manzari, PoS LHCP2020 (2021) 242, arXiv:2009.03877. LHCP2020.
[Manzari:2020eum]
[22-15]
Scotogenic neutrino masses and dark matter stability from residual gauge symmetry, Julio Leite, Oleg Popov, Rahul Srivastava, Jose W. F. Valle, arXiv:2009.02652, 2020. NDM-2020.
[Leite:2020kos]
[22-16]
Prospect of the Electroweak Scale Right-handed neutrino model in the Lifetime Frontier, Shreyashi Chakdar, P.Q Hung, arXiv:2006.00381, 2020. NDM2020.
[Chakdar:2020igt]
[22-17]
Beyond SM Physics and searches for SUSY at the LHC, Dris Boubaa, Gaber Faisel, Shaaban Khalil, arXiv:2005.08069, 2020. $10^{th}$ International Conference on High Energy and Astroparticle, Constantine, Algeria.
[Boubaa:2020aoh]
[22-18]
Two component FIMP DM in a $U(1)_{B-L}$ extension of the SM, Waleed Abdallah, Sandhya Choubey, Sarif Khan, arXiv:2004.13211, 2020. International Conference on Neutrinos and Dark Matter (NDM-2020), 11-14 January 2020, Hurghada, Egypt.
[Abdallah:2020fpb]
[22-19]
Perturbative unitarity bounds for fermions composite models, Simone Biondini, PoS CORFU2019 (2020) 057, arXiv:2004.12877. Corfu Summer Institute 2019 'School and Workshops on Elementary Particle Physics and Gravity' (CORFU2019).
[Biondini:2020kqr]
[22-20]
The cosmological constant and Higgs mass with emergent gauge symmetries, Steven D. Bass, Janina Krzysiak, Acta Phys.Polon. B51 (2020) 1251, arXiv:2004.05489. XXVI Cracow Epiphany Conference on LHC Physics: Standard Model and Beyond, January 7-10 2020.
[Bass:2020nrg]
[22-21]
Exploring neutrino physics through sneutrinos, Stefano Moretti, Claire Shepherd-Themistocleous, Harri Waltari, arXiv:2002.10866, 2020. Neutrinos and Dark Matter 2020, Hurghada, Egypt.
[Moretti:2020zbn]
[22-22]
Exploring Dark Matter, Neutrino mass and flavour anomalies in $L_\mu-L_\tau$ model, Rukmani Mohanta, Shivaramakrishna Singirala, Suchismita Sahoo, J.Phys.Conf.Ser. 1468 (2020) 012030, arXiv:1912.10487. TAUP 2019, Toyama, Japan.
[Mohanta:2019huk]
[22-23]
Mass matrix parametrization for pseudo-Dirac neutrinos, A. Gorin, arXiv:1911.06534, 2019. XXII Bled Workshop 'What comes beyond the Standard models?'.
[Gorin:2019gml]
[22-24]
Probing the Majorana Nature in Radiative Neutrino mass models with the same-sign dilepton final states at future colliders, Rachik Soualah, Salah Nasri, Safa Naseem, arXiv:1905.13273, 2019. Contribution to the 2019 EW session of the 54th Rencontres de Moriond.
[Soualah:2019foe]
[22-25]
The Lifetime Frontier: Search for New Physics with Long-Lived Particles, P. Q. Hung, arXiv:1905.09918, 2019. 2019 EW/QCD/Gravitation session of the 54th Rencontres de Moriond.
[Hung:2019apw]
[22-26]
Singlet-doublet/triplet dark matter and neutrino masses, Juri Fiaschi, Michael Klasen, Simon May, arXiv:1905.06108, 2019. 2019 EW session of the 54th Rencontres de Moriond.
[Fiaschi:2019uig]
[22-27]
Neutrino-Dark Matter Portals, M. Blennow, E. Fernandez-Martinez, A. Olivares-Del Campo, S. Pascoli, S. Rosauro-Alcaraz, A. V. Titov, arXiv:1904.04132, 2019. NuPhys2018 (London, 19-21 December 2018).
[Blennow:2019lxn]
[22-28]
Master Majorana neutrino mass parametrization, Isabel Cordero-Carrion, Martin Hirsch, Avelino Vicente, J.Phys.Conf.Ser. 1586 (2020) 012022, arXiv:1903.03330. 6th Symposium on Prospects in the Physics of Discrete Symmetries (Discrete 2018), Vienna, Austria, November 26-30, 2018.
[Cordero-Carrion:2019qbp]
[22-29]
Reconciling $B$-meson Anomalies, Neutrino Masses and Dark Matter, Girish Kumar, Chandan Hati, Jean Orloff, Ana M. Teixeira, Springer Proc.Phys. 234 (2019) 417-423, arXiv:1811.10927. 16th Conference on Flavor Physics and CP Violation, 14-18 Jul, 2018, Hyderabad, INDIA.
[Kumar:2018era]
[22-30]
Electroweak phase transition in the scotogenic model, Alejandro Correa Lopez, arXiv:1811.10586, 2018. XXXVIII International Symposium on Physics in Collision, Bogota, Colombia, 2018.
[CorreaLopez:2018enl]
[22-31]
Testing the inert Zee model using lepton flavor observables, Robinson Longas, arXiv:1811.09701, 2018. PIC2018: XXXVIII International Symposium on Physics in Collision, Bogota, Colombia, 2018.
[Longas:2018evi]
[22-32]
SMASH-ing Vacuum Metastability, C.R. Das, Katri Huitu, Timo J. Karkkainen, arXiv:1810.13232, 2018. 14th Patras Workshop on Axions, WIMPs and WISPs, Hamburg, June 18-22, 2018.
[Das:2018aqq]
[22-33]
Highly-boosted dark matter and cutoff for cosmic-ray neutrino through neutrino portal, Wen Yin, EPJ Web Conf. 208 (2019) 04003, arXiv:1809.08610. 20th International Symposium on Very High Energy Cosmic Ray Interactions (ISVHECRI 2018).
[Yin:2018yjn]
[22-34]
Neutrino spectrum in SU$(3)_\ell\times$SU$(3)_E$ gauged lepton flavor model, W. Sreethawong, W. Treesukrat, P. Uttayarat, J.Phys.Conf.Ser. 1144 (2018) 012171, arXiv:1809.03677. Siam Physics Congress 2018, May 21-23 2018, Phitsanulok, Thailand.
[Sreethawong:2018ypc]
[22-35]
Bound on a flux of ultra-high energy neutrinos in a scenario with extra dimensions, M.O. Astashenkov, A.V. Kisselev, EPJ Web Conf. 191 (2018) 08010, arXiv:1807.03504. XXth International Seminar 'Quarks-2018'.
[Astashenkov:2018yjq]
[22-36]
Implications of a Dark Matter-Neutrino Coupling at Hyper-Kamiokande, Andres Olivares-Del Campo, Sergio Palomares-Ruiz, Silvia Pascoli, arXiv:1805.09830, 2018. Moriond EW 2018.
[Olivares-DelCampo:2018pdl]
[22-37]
Electric Dipole Moments and Neutrino Mass Models, Selim Touati, arXiv:1805.06211, 2018. Moriond EW 2018.
[Touati:2018puk]
[22-38]
Neutrino Physics and Leptonic Weak Basis Invariants, M. N. Rebelo, arXiv:1804.05777, 2018. 18th Lomonosov Conference on Elementary Particle Physics (Moscow, Russia, August 24-30, 2017).
[Rebelo:2018qsj]
[22-39]
Neutrino Mixing and Leptonic CP Violation from $S_4$ and Generalised CP Symmetries, J. T. Penedo, S. T. Petcov, A. V. Titov, arXiv:1803.11009, 2018. NuPhys2017 (London, 20-22 December 2017).
[Penedo:2018gpg]
[22-40]
Right-Handed Neutrinos: DM and LFV $vs$ Collider, Meziane Chekkal, Amine Ahriche, Amine Bouziane Hammou, Salah Nasri, Nuovo Cim. C40 (2018) 165, arXiv:1802.00944. Les Rencontres de Physique de la Vallee d'Aoste: Results and Perspectives in Particle Physics, 2017.
[Chekkal:2017aiw]
[22-41]
Synergy and complementarity between neutrino physics and low-energy intensity frontiers, Ana M. Teixeira, PoS NuFact2017 (2017) 027, arXiv:1712.05947. NUFACT2017, 25-30 September 2017, Uppsala University, Sweden.
[Teixeira:2017kxy]
[22-42]
Dirac neutrinos, dark matter stability and flavour predictions from Lepton Quarticity, Salvador Centelles Chulia, arXiv:1711.10719, 2017. Pontecorvo School 2017.
[CentellesChulia:2017sgj]
[22-43]
Quark-lepton complementarity model based predictions for $\theta_{23}^{PMNS}$ with neutrino mass hierarchy, Gazal Sharma, Shankita Bhardwaj, B. C. Chauhan, Surender Verma, Springer Proc.Phys. 203 (2018) 251-256, arXiv:1711.08796. DAE-2016.
[Sharma:2017wcv]
[22-44]
Impact of heavy sterile neutrinos on the triple Higgs coupling, Julien Baglio, Cedric Weiland, PoS EPS-HEP2017 (2017) 143, arXiv:1710.09683. EPS-HEP 2017, the European Physical Society conference on High Energy Physics, 5-12 July 2017, Venice, Italy.
[Baglio:2017kqy]
[22-45]
Discrete Dark Matter Model and Reactor Mixing Angle, J. M. Lamprea, Frascati Phys.Ser. 63 (2016) 1-6, arXiv:1710.06413. 5th Young Researchers Workshop 'Physics Challenges in the LHC Era', 9 - 12 May, 2016, Frascati, Italy.
[Lamprea:2016qta]
[22-46]
A non-vanishing neutrino mass and the strong CP problem: A new solution from the perspective of the EW-$\nu_R$ model, P. Q. Hung, arXiv:1710.00498, 2017. APS Division of Particles and Fields Meeting (DPF 2017), July 31-August 4, 2017, Fermilab.
[Hung:2017pss]
[22-47]
Common Origin of Neutrino Mass and Dark Matter from Anomaly Cancellation Requirements of a $U(1)_{B-L}$ Model, Dibyendu Nanda, Debasish Borah, Phys.Rev. D96 (2017) 115014, arXiv:1709.08417.
[Nanda:2017bmi]
[22-48]
Matter-Antimatter Asymmetry in the Universe via String-Inspired CPT Violation at Early Eras, Nick E. Mavromatos, J.Phys.Conf.Ser. 952 (2018) 012006, arXiv:1708.08350. International Workshop on CPT and Lorentz Symmetry in Field Theory, University of the Algarve, Faro (Portugal), July 6-7 2017.
[Mavromatos:2017cxr]
[22-49]
Addressing $R_K$ and neutrino mixing in a class of $U(1)_X$ models, Disha Bhatia, Sabyasachi Chakraborty, Amol Dighe, PoS CKM2016 (2017) 064, arXiv:1703.08299. 9th International Workshop on the CKM Unitarity Triangle.
[Bhatia:2017xze]
[22-50]
Probing Radiative Neutrino Mass Models At The LHC Via Trilepton Events, Dounia Cherigui, Chahrazed Guella, Amine Ahriche, Salah Nasri, arXiv:1701.04884, 2017. Moriond EW 2016.
[Cherigui:2016ach]
[22-51]
Testing Neutrino Mass Models at the LHC and beyond, P. S. Bhupal Dev, PoS ICHEP2016 (2016) 487, arXiv:1612.08209. 38th International Conference on High Energy Physics (ICHEP 2016), Chicago, USA.
[Dev:2016gvv]
[22-52]
Viable models for large non-standard neutrino interactions, Yasaman Farzan, arXiv:1612.04971, 2016. 18th International Workshop on Neutrino Factories, Superbeams, Beta beams (NuFact 2016), August 21-27 2016, Quy Nhon, Vietnam.
[Farzan:2016fmy]
[22-53]
Charged Higgs pair production and neutrino effects on the triple Higgs coupling, Julien Baglio, PoS CHARGED2016 (2016) 027, arXiv:1612.04850. Charged 2016: Prospects for Charged Higgs Discovery at Colliders, 3-6 October 2016, Uppsala, Sweden.
[Baglio:2016iwd]
[22-54]
Excited lepton baryogenesis, Dmitry Zhuridov, EPJ Web Conf. 142 (2017) 01030, arXiv:1612.02267. Advances in Dark Matter and Particle Physics, Messina, Italy, October 24-27, 2016.
[Zhuridov:2016hyg]
[22-55]
Probing Radiative Neutrino Mass Models With Dilepton Events At The LHC, Chahrazed Guella, Dounia Cherigui, Amine Ahriche, Salah Nasri, Rachik Soualah, arXiv:1611.07514, 2016. Moriond 2016.
[Guella:2016ztg]
[22-56]
Contribution to the neutrino magnetic moment coming from 2HDM in presence of magnetic fields, Carlos G. Tarazona, Rodolfo A. Diaz, John Moralesa, Andres Castillo, PoS ICHEP2016 (2017) 1070, arXiv:1611.01135. 38th International Conference on High Energy Physics 3-10 August 2016. Chicago, USA.
[Tarazona:2016txe]
[22-57]
SM*A*S*H, Andreas Ringwald, arXiv:1610.05040, 2016. 12th Patras Workshop on Axions, WIMPs and WISPs, Jeju Island, South Korea, June 20 to 26, 2016.
[Ringwald:2016rgg]
[22-58]
Lepton flavor violation in the Simplest Little Higgs model, P. Roig, Nucl.Part.Phys.Proc. 287-288 (2017) 155-159, arXiv:1610.01266. 14th International Workshop on Tau Lepton Physics, 19-23 Sep. 2016, Beijing, China.
[Roig:2016bru]
[22-59]
Lepton flavor violation in an extended MSSM, R. Espinosa-Castaneda, F.V. Flores-Baez, M. Gomez-Bock, M. Mondragon, J. Phys. Conf. Ser. 761 (2016) 012062, arXiv:1609.01787. XV Mexican Workshop on Particles and Fields and the XXX Annual Meeting of the Division of Particles and Fields of the Mexican Physical Society.
[Espinosa-Castaneda:2016trz]
[22-60]
Searching for SUSY and decaying gravitino DM at the LHC and Fermi-LAT with the $\mu\nu$SSM, Carlos Munoz, PoS DSU2015 (2016) 034, arXiv:1608.07912. 11th International Workshop on the Dark Side of the Universe DSU2015 (Kyoto).
[Munoz:2016vaa]
[22-61]
Dark matter and the neutrino portal paradigm, Vannia Gonzalez-Macias, Jose Illana, Jose Wudka, J. Phys. Conf. Ser. 761 (2016) 012082, arXiv:1608.06267. XV Mexican Workshop on Particles and Fields and XXX Annual Meeting of the Division of Particles and Fields of the Mexican Physical Society.
[Gonzalez-Macias:2016snw]
[22-62]
Warped extra dimension and inclined events at Pierre Auger Observatory, A.V. Kisselev, L.A. Shkalina, EPJ Web Conf. 125 (2016) 02014, arXiv:1607.01917. 19th International Seminar on High Energy Physics (QUARKS-2016).
[Kisselev:2016wah]
[22-63]
IceCube PeV Neutrinos and Leptophilic Dark Matter, Marco Chianese, J. Phys. Conf. Ser. 718 (2016) 042014, arXiv:1605.05749. TAUP 2015.
[Chianese:2016tmd]
[22-64]
The SM extensions with additional light scalar singlet, nonrenormalizable Yukawa interactions and $(g-2)_\mu$, S.N. Gninenko, N.V. Krasnikov, EPJ Web Conf. 125 (2016) 02001, arXiv:1605.03056. SNP PSD RAS conference, Dubna 12-15 April 2016.
[Gninenko:2016ziu]
[22-65]
Falsifying Baryogenesis with Neutrinoless Double Beta Decay, Lukas Graf, arXiv:1605.01099, 2016. NuPhys2015 (London, 16-18 December 2015).
[Graf:2016fir]
[22-66]
Lepton mixing and neutrino masses from A5 and CP, Andrea Di Iura, arXiv:1604.08391, 2016. NuPhys2015 (London, 16-18 December 2015).
[DiIura:2016ols]
[22-67]
Complex Scaling in Neutrino Mass Matrix, Rome Samanta, Probir Roy, Ambar Ghosal, Acta Phys.Polon.Supp. 9 (2016) 807, arXiv:1604.01206. 52nd Winter School of Theoretical Physics (Ladek Zdroj, Poland).
[Samanta:2016nat]
[22-68]
Dark matter and neutrino masses from a classically scale-invariant multi-Higgs portal, Alexandros Karam, Kyriakos Tamvakis, PoS CORFU2015 (2016) 073, arXiv:1603.08470. School and Workshops on Elementary Particle Physics and Gravity, Corfu Summer Institute, September 2015.
[Karam:2016bhq]
[22-69]
Tachyonic approach to neutrino dark matter, Eduard G. Mychelkin, Maxim A. Makukov, arXiv:1602.02079, 2016. 14th Marcel Grossmann Meeting (MG14), Rome, July 12-18, 2015.
[Mychelkin:2016ibc]
[22-70]
Radiative neutrino mass generation from WIMP dark matter, Roberto A. Lineros, J. Phys. Conf. Ser. 718 (2016) 042036, arXiv:1601.06554. XIV International Conference on Topics in Astroparticle and Underground Physics, 7-11 September 2015,Torino, Italy.
[Lineros:2016qky]
[22-71]
Classically Scale Invariant Inflation and (A)gravity, Arsham Farzinnia, Int.J.Mod.Phys.Conf.Ser. 43 (2016) 1660203, arXiv:1512.08727. CosPA 2015, 12-16 October 2015 (Daejeon, Republic of Korea).
[Farzinnia:2015syk]
[22-72]
Fermion mass and mixing pattern in a minimal T7 flavor 331 model, A. E. Carcamo Hernandez, R. Martinez, PoS PLANCK2015 (2015) 023, arXiv:1511.07997. Planck 2015.
[CarcamoHernandez:2015hbk]
[22-73]
Impact of Neutrinoless Double Beta Decay on Models of Baryogenesis, Frank F. Deppisch, Julia Harz, Wei-Chih Huang, PoS EPS-HEP2015 (2015) 078, arXiv:1510.06305. European Physical Society Conference on High Energy Physics 2015 (EPS-HEP 2015), Vienna, Austria, 22nd to 29th of July 2015.
[Deppisch:2015sva]
[22-74]
LHC signatures and cosmological implications of the E6 inspired SUSY models, R. Nevzorov, PoS EPS-HEP2015 (2015) 381, arXiv:1510.05387. EPS-HEP 2015, Vienna, Austria, July 2015.
[Nevzorov:2015iya]
[22-75]
A minimal seesaw model with mu-tau symmetry, Darius Jurciukonis, Thomas Gajdosik, Andrius Juodagalvis, PoS EPS-HEP2015 (2015) 081, arXiv:1510.04830. EPS-HEP 2015, 22-29 July, Vienna, Austria.
[Jurciukonis:2015bpa]
[22-76]
R-parity violating supersymmetry and neutrino physics: experimental signatures, Vasiliki A. Mitsou, PoS PLANCK2015 (2015) 085, arXiv:1510.02660. Planck 2015, 25-29 May 2015, Ioannina, Greece.
[Mitsou:2015kpa]
[22-77]
Probing Leptonic Models at the LHC, Frank F. Deppisch, arXiv:1510.01302, 2015. CIPANP2015.
[Deppisch:2015zia]
[22-78]
Neutrino Dark Matter in the Higgs Triplet Model, Sahar Bahrami, Mariana Frank, arXiv:1509.04763, 2015. DPF 2015 Meeting of the American Physical Society Division of Particles and Fields, Ann Arbor, Michigan, August 4-8, 2015.
[Bahrami:2015rqa]
[22-79]
The Framed Standard Model (II) - A first Test against Experiment, HM Chan, ST Tsou, Int.J.Mod.Phys. A30 (2015) 1530060, arXiv:1508.04273. Conference on 60 Years of Yang-Mills Gauge Theories, IAS, Singapore, 25-28 May 2015.
[Chan:2015bvx]
[22-80]
Explaining muon magnetic moment and AMS-02 positron excess in a gauged horizontal symmetric model, Gaurav Tomar, Springer Proc. Phys. 174 (2016) 427-432, arXiv:1507.01797. XXI DAE-BRNS High Energy Physics Symposium, IIT Guwahati, India, December 2014.
[Tomar:2015tba]
[22-81]
Probing Baryon Asymmetry of the Universe by Using Lepton Universality, Takehiko Asaka, Shintaro Eijima, Kazuhiro Takeda, arXiv:1506.00417, 2015. 2nd Toyama International Workshop on 'Higgs as a Probe of New Physics 2015' (HPNP2015), Toyama, Japan, February 11-15, 2015.
[Asaka:2015xla]
[22-82]
Lepton Number Violation and the Baryon Asymmetry of the Universe, Julia Harz, Wei-Chih Huang, Heinrich Pas, Int.J.Mod.Phys. A30 (2015) 1530045, arXiv:1505.07632. International Conference on Massive Neutrinos, Singapore 2015.
[Harz:2015fwa]
[22-83]
Three-Loop Neutrino Mass Models at Colliders, Amine Ahriche, Kristian L. McDonald, Salah Nasri, arXiv:1505.04320, 2015. 50th Rencontres de Moriond, Electroweak session, 2015.
[Ahriche:2015lqa]
[22-84]
Mind the Gap on IceCube: Cosmic neutrino spectrum and muon anomalous magnetic moment, T. Araki et al., arXiv:1505.01284, 2015. Prospects in Neutrino Physics Conference, 15 - 17 December, 2014, held at Queen Mary University of London, UK.
[Araki:2015dia]
[22-85]
Predictions for the Dirac CP Violation Phase in the Neutrino Mixing Matrix, I. Girardi, S. T. Petcov, A. V. Titov, Int. J. Mod. Phys. A30 (2015) 1530035, arXiv:1504.02402. International Conference on Massive Neutrinos, Nanyang Technological University, Singapore, 9-13 February, 2015.
[Girardi:2015zva]
[22-86]
Searching for radiative neutrino mass generation at the LHC, Raymond R. Volkas, Int. J. Mod. Phys. A30 (2015) 1530030, arXiv:1504.01818. International Conference on Massive Neutrinos, Singapore, 9-13 Feb. 2015.
[Volkas:2015kma]
[22-87]
MSSM with gauged baryon and lepton numbers, Bartosz Fornal, Int.J.Mod.Phys. A30 (2015) 1530027, arXiv:1503.09009. International Conference on Massive Neutrinos, Singapore, February 9-13, 2015.
[Fornal:2015vsa]
[22-88]
Lepton Number Violation with and without Majorana Neutrinos, Julian Heeck, arXiv:1503.07708, 2015. 50th Rencontres de Moriond, Electroweak Session, 14-21 March 2015.
[Heeck:2015pia]
[22-89]
Exploring neutrino physics at LHC via R-parity violating SUSY, Vasiliki A. Mitsou, J. Phys. Conf. Ser. 631 (2015) 012074, arXiv:1502.07997. DISCRETE 2014.
[Mitsou:2015eka]
[22-90]
Lifting degenerate neutrino masses, threshold corrections and maximal mixing, Wolfgang Gregor Hollik, PoS FWNP (2014) 018, arXiv:1412.5117. Flavorful Ways to New Physics, October 28-31 2014, Freudenstadt, Germany.
[Hollik:2014tea]
[22-91]
Dark energy, QCD axion, BICEP2, and trans-Planckian decay constant, Jihn E. Kim, Nucl.Part.Phys.Proc. 273-275 (2016) 389-394, arXiv:1410.5045. ICHEP2014.
[Kim:2014dya]
[22-92]
Light neutrino mass spectrum with one or two right-handed singlet fermions added, Darius Jurciukonis, Thomas Gajdosik, Andrius Juodagalvis, Nucl.Part.Phys.Proc. 273-275 (2016) 2687-2689, arXiv:1410.4443. 37th International Conference on High Energy Physics, 2-9 July 2014, Valencia, Spain.
[Jurciukonis:2014sma]
[22-93]
Neutrino masses, dark matter and baryon asymmetry of the Universe, Amine Ahriche, Salah Nasri, J. Phys. Conf. Ser. 593 (2015) 012010, arXiv:1409.2999. PASCOS2013 (Taipei, Taiwan) and The first Franco-Algerian Workshop on Neutrino Physics, Constantine, Algeria.
[Ahriche:2014zma]
[22-94]
Nonzero $\theta_{13}$ and CP violation from Broken $\mu-\tau$ Symmetry, Asan Damanik, Chin.J. Phys. 52 (2014) 1439, arXiv:1407.5814. XXX-th International Workshop on High Energy Physics 'Particle and Astroparticle Physics, Gravitation and Cosmology: Predictions, Observations and New Projects', Protvino, Russia, 23-27 June 2014.
[Damanik:2014cva]
[22-95]
Is the standard model scalar the first discovered SUSY particle?, Carla Biggio, arXiv:1407.0561, 2014. Rencontres de Moriond EW 2014.
[Biggio:2014zra]
[22-96]
Precision measurements of $\theta_{12}$ for testing models of discrete leptonic flavour symmetries, Peter Ballett, Stephen F. King, Christoph Luhn, Silvia Pascoli, Michael A. Schmidt, J. Phys. Conf. Ser. 598 (2015) 012014, arXiv:1406.0308. NuPhys2013.
[Ballett:2014uia]
[22-97]
Discrimination of Models Including Doubly Charged Scalar Bosons by Using Tau Lepton Decay Distributions, Hiroaki Sugiyama, JPS Conf. Proc. 7 (2015) 010012, arXiv:1406.0240. CST-MISC Joint International Symposium on Particle Physics, Tokyo, Japan, 15-16 Mar. 2014.
[Hiroaki:2014lch]
[22-98]
Fermion Masses and Mixings from a Minimum Principle, Rodrigo Alonso, arXiv:1405.5831, 2014. Rencontres de Moriond Electro-Weak, 2014.
[Alonso:2014bka]
[22-99]
Doubly-charged Higgs bosons in the diboson decay scenario at the ILC, Kei Yagyu, arXiv:1405.5149, 2014. International Workshop on Future Linear Colliders (LCWS13), Tokyo, Japan, 11-15 November 2013.
[Yagyu:2014aaa]
[22-100]
Neutrino Mixing from $\Delta(6n^2)$ Groups, Thomas Neder, J. Phys. Conf. Ser. 598 (2015) 012025, arXiv:1405.0019. NuPhys2013: Prospects in Neutrino Physics, Institute of Physics, London, UK, Dec. 19-20, 2013.
[Neder:2014mxa]
[22-101]
Natural $X$-ray Lines from the Low Scale Supersymmetry Breaking, P. Ko, Zhaofeng kang, Tianjun Li, Yandong Liu, Phys.Lett. B742 (2015) 249-255, arXiv:1403.7742.
[Kang:2014ubg]
[22-102]
Spontaneous parity breaking with broken supersymmetry : cosmological constraint, Urjit A. Yajnik, Sasmita Mishra, Debasish Borah, AIP Conf.Proc. 1560 (2013) 284-288, arXiv:1401.8063. 10th International Symposium on Cosmology and Particle Astrophysics (CosPA2013).
[Yajnik:2013haj]
[22-103]
General Neutrino Mass Matrix Patterns and Its Underlying Family Symmetries, Asan Damanik, Mirza Satriawan, Pramudita Anggraita, Muslim, arXiv:1401.5877, 2014. Asian Physics Symposium 2005, Bandung, Indonesia, 7-8 December 2005.
[Damanik:2014ala]
[22-104]
$\mu-\tau$ Symmetry, Nonzero $\theta_{13}$, and CP Violation, Asan Damanik, BOOK (2015) 43-47, arXiv:1401.4559. 16th Lomonosov Conference on Elementary Particle Physics, Moscow, 22-28 August 2013.
[Damanik:2014yva]
[22-105]
Probing neutrino physics at LHC through R-parity breaking supersymmetry, Vasiliki A. Mitsou, EPJ Web Conf. 71 (2014) 00092, arXiv:1401.2573. 2nd International Conference on New Frontiers in Physics (ICNFP 2013), 28 Aug - 5 Sep 2013, Kolymbari, Crete, Greece.
[Mitsou:2014pua]
[22-106]
Neutrino masses and mixing within a SU(3) family symmetry model with one or two light sterile neutrinos, Albino Hernandez-Galeana, Bled Workshops Phys. 14 (2013) 82-106, arXiv:1312.3403. 16th Workshop 'What Comes Beyond the Standard Models', 14-21 July, Bled, Slovenia.
[Hernandez-Galeana:2013ifa]
[22-107]
Neutrino and Changed Lepton Flavour Today, R. Alonso, M.B. Gavela, D. Hernandez, L. Merlo, S. Rigolin, arXiv:1311.1724, 2013. XLVIIIth Rencontres de Moriond, La Thuile (Italy), 2-9 March 2013.
[Alonso:2013bkc]
[22-108]
Current status of constraints on the elements of the neutrino mass matrix, Patrick Otto Ludl, Acta Phys.Polon. B44 (2013) 2339-2346, arXiv:1310.4455. XXXVII International Conference of Theoretical Physics 'Matter to the deepest,' Ustron, 1-6 September 2013.
[Ludl:2013tta]
[22-109]
New Results on Neutrino Magnetic Moments and on Democratic Neutrinos, Dmitry Zhuridov, arXiv:1309.2540, 2013. DPF 2013 Meeting of the American Physical Society Division of Particles and Fields, Santa Cruz, California, August 13-17, 2013.
[Zhuridov:2013ika]
[22-110]
Properties of twice four families of quarks and leptons, of scalars and gauge fields as predicted by the spin-charge-family theory, Norma Susana Mankoc Borstnik, Bled Workshop in Physics 12 (2011) DMFA-Zaloznistvo, arXiv:1307.2365. Bled 14th Workshop 'What comes beyond the standard models', Bled, July 11-21, 2011.
[Borstnik:2011vlu]
[22-111]
Lepton Universality in Kaon Decays, Cedric Weiland, arXiv:1306.2894, 2013. Moriond 2013 EW session.
[Weiland:2013wua]
[22-112]
Neutrinoless double $\beta$ decay with small neutrino masses, F. del Aguila, A. Aparici, S. Bhattacharya, A. Santamaria, J. Wudka, PoS Corfu2012 (2013) 028, arXiv:1305.4900. Contribution to the Proceedings of the Corfu Summer Institute 2012 'School and Workshops on Elementary Particle Physics and Gravity', September 8-27, 2012, Corfu, Greece.
[delAguila:2013zba]
[22-113]
Tracing the Interplay between Non-Thermal Dark Matter and Right-Handed Dirac Neutrinos with LHC Data, Luis A. Anchordoqui, Haim Goldberg, Brian Vlcek, Phys. Rev. D88 (2013) 043513, arXiv:1305.0146. 33rd International Cosmic Ray Conference (ICRC2013), Rio de Janeiro, Brazil, 2-9 July, 2013.
[Anchordoqui:2013pta]
[22-114]
Partial Mass Degenerated Model and Spontaneous CP Violation in the Leptonic Sector, Hiroyuki Ishida, arXiv:1304.4465, 2013. HPNP 2013, Toyama, Feb. 2013.
[Ishida:2013yia]
[22-115]
What can we learn from the 126 GeV Higgs boson for the Planck scale physics ? - Hierarchy problem and the stability of the vacuum -, Satoshi Iso, arXiv:1304.0293, 2013. SCGT12 (Nagoya) and HPNP2013 (Toyama).
[Iso:2013aqa]
[22-116]
Noncommutative geometry in quantum field theory and the cosmogenic neutrino physics at the extreme energies, Josip Trampetic, arXiv:1302.0656, 2013. Croatian Academy of Science Symposium: 'Nuclear and Subnuclear Physics', December 13, 2012, Zagreb, Croatia.
[Trampetic:2013ey]
[22-117]
Neutrino Masses and TeV-scale Particles Testable at the LHC, Kresimir Kumericki, Ivica Picek, Branimir Radovcic, arXiv:1302.0631, 2013. Croatian Academy of Science Symposium: 'Nuclear and Subnuclear Physics', December 13, 2012, Zagreb, Croatia.
[Kumericki:2013eq]
[22-118]
Low Scale Left-Right Symmetry and Warm Dark Matter, Miha Nemevsek, AIP Conf.Proc. 1534 (2012) 112-121, arXiv:1212.1039. CETUP' 2012 workshop in Lead, South Dakota.
[Nemevsek:2012as]
[22-119]
Phenomenology of Quantum Gravity and its Possible Role in Neutrino Anomalies, Mario A. Acero, Yuri Bonder, Springer Proc.Phys. 157 (2014) 461-468, arXiv:1210.3004. Relativity and Gravitation: 100 Years after Einstein in Prague (June 2012, Prague).
[Acero:2012mm]
[22-120]
Quasi-Degenerate Neutrino Masses with Normal and Inverted Hierarchy, Ng. K. Francis, N. Nimai Singh, J. Mod. Phys. 2 (2011) 1280-1284, arXiv:1206.3434. Ist IAS-CERN Singpore, Jan 2012; Journal of Modern Physics (JMP), Vol 2. No.11, November 2011 USA.
[Francis:2011wlc]
[22-121]
A Critical Appraisal of Some Concepts Used in Neutrino Physics, Francesco Vissani, Manimala Mitra, Giulia Pagliaroli, Nuovo Cim. C36 (2013) 223-228, arXiv:1206.1466. IFAE 2012.
[Vissani:2012dm]
[22-122]
Nonzero $\theta_{13}$ and Neutrino Masses from the Modified Tribimaximal Neutrino Mixing Matrix, Asan Damanik, Chin.J.Phys. 52 () 2014, arXiv:1206.0987. 24th Rencontres de Blois 2012: Particle Physics and Cosmology, Chateau Royal de Blois, France, 27 May - 1 June 2012.
[Damanik:2013aoa]
[22-123]
Mh in the MSSM-seesaw scenario with ILC precision, S. Heinemeyer, M. J. Herrero, S. Penaranda, A. M. Rodriguez-Sanchez, arXiv:1201.6157, 2012. 2011 International Workshop on Future Linear Colliders (LCWS11), Granada, Spain, 26-30 September 2011.
[Heinemeyer:2012az]
[22-124]
Quintessence, Neutrino Masses and Unification of the Dark Sector, Gennady Y. Chitov, PoS QFTHEP2011 (2013) 074, arXiv:1112.4798. XXth International Workshop 'High Energy Physics and Quantum Field Theory', Sept. 24 - Oct. 1, 2011, Sochi, Russia.
[Chitov:2011bq]
[22-125]
Lepton-number violating meson decays in theories beyond the Standard Model, A. V. Borisov, arXiv:1112.3269, 2011. Helmholtz International School 'Heavy Quark Physics' (HQP08), August 11-21, 2008, Dubna, Russia.
[Borisov:2011aa]
[22-126]
Dark matter stability from non-Abelian discrete flavor symmetries, E. Peinado, J. Phys. Conf. Ser. 375 (2012) 012043, arXiv:1112.2926. TAUP 2011.
[Peinado:2011aa]
[22-127]
Predictions for fermion masses and mixing from a low energy SU(3) flavor symmetry model with a Light Sterile Neutrino, Albino Hernandez Galeana, Bled Workshops Phys. 13 (2012) 28-46, arXiv:1111.7286. 14th Bled Workshop 'What Comes beyond the Standard Models', Bled 11-22 July 2011, Slovenia.
[Hernandez-Galeana:2012wcc]
[22-128]
Dark matter in a SUSY left-right model, A. Vicente, J. Phys. Conf. Ser. 375 (2012) 012042, arXiv:1111.7178. TAUP 2011.
[Vicente:2011mb]
[22-129]
Large Extra Dimensions and Neutrino Oscillations, P. A. N. Machado, H. Nunokawa, F. A. Pereira dos Santos, R. Zukanovich Funchal, arXiv:1110.1465, 2011. NUFACT 11, XIIIth International Workshop on Neutrino Factories, Super beams and Beta beams, 1-6 August 2011, CERN and University of Geneva.
[Machado:2011wx]
[22-130]
Long-range interaction effects on neutrino oscillation, Hye-Sung Lee, J. Phys. Conf. Ser. 408 (2013) 012032, arXiv:1110.1335. NUFACT 11, XIIIth International Workshop on Neutrino Factories, Super beams and Beta beams, 1-6 August 2011, CERN and University of Geneva.
[Lee:2011uh]
[22-131]
Collider phenomenology of the E6SSM, P. Athron et al., arXiv:1109.6373, 2011. 2011 Meeting of the Division of Particles and Fields of the American Physical Society (DPF 2011), Providence, Rhode Island, USA, 9-13 August 2011.
[Athron:2011ew]
[22-132]
Neutrino Oscillations: from Standard and Non-standard Viewpoints, Bo-Qiang Ma, Int. J. Mod. Phys. Conf. Ser. 1 (2011) 291-296, arXiv:1109.5276. CosPA2008.
[Ma:2011gh]
[22-133]
Warm dark matter in the galaxies:theoretical and observational progresses. Highlights and conclusions of the chalonge meudon workshop 2011, H. J. de Vega, N. G. Sanchez, arXiv:1109.3187, 2011.
[deVega:2011si]
[22-134]
A T' Flavour Model for Fermions and its Phenomenology, Luca Merlo, arXiv:1108.4459, 2011. WONP-NURT 2011 (February 7-11, 2011, Havana, Cuba), The XIV International Workshop on Neutrino Telescopes (March 15-18, 2011, Venice, Italy), PLANCK 2011 - From the Planck Scale to the ElectroWeak Scale (May 30 - June 3, 2011, Lisbon, Portugal).
[Merlo:2011pv]
[22-135]
Flavour physics, supersymmetry and grand unification, Ulrich Nierste, arXiv:1107.0621, 2011. Moriond 2011 conference on EW Interactions and Unified Theories.
[Nierste:2011na]
[22-136]
Neutrino Mass Models: Impact of non-zero reactor angle, Stephen F. King, arXiv:1106.4239, 2011. XIV International Workshop on 'Neutrino Telescopes' March 15-18, 2011.
[King:2011xu]
[22-137]
Strategies to link tiny neutrino masses with huge missing mass of the Universe, Yasaman Farzan, Int. J. Mod. Phys. A26 (2011) 2461-2485, arXiv:1106.2948. International Conference on Flavor Physics in the LHC, Singapore.
[Farzan:2011tz]
[22-138]
Radiative Generation of Neutrino Masses and its Experimental Signals, K. S. Babu, PoS ICHEP2010 (2010) 291, arXiv:1103.1338. ICHEP 2010.
[Babu:2010ckm]
[22-139]
Observable Lepton Flavor Symmetry at LHC, Ernest Ma, Mod. Phys. Lett. A26 (2011) 377-385, arXiv:1101.4972. International Conference on Flavor Physics in the LHC Era, Singapore (November 2010).
[Ma:2011yk]
[22-140]
Probing Extra Dimensions with Neutrino Oscillations, P. A. N. Machado, H. Nunokawa, R. Zukanovich Funchal, Nucl. Phys. Proc. Suppl. 217 (2011) 357-359, arXiv:1101.1686. NOW2010, Conca Specchiulla, Italy, September 4-11, 2010.
[Machado:2011ug]
[22-141]
Neutrino Phenomenology of gauged L_mu - L_tau: MINOS and beyond, Julian Heeck, Werner Rodejohann, AIP Conf. Proc. 1382 (2011) 144-146, arXiv:1012.2298. 12th International Workshop on Neutrino Factories, Superbeams and Beta Beams (NuFact10), October 20-25, 2010, Mumbai, India.
[Heeck:2010ub]
[22-142]
New Mechanism for Neutrino Mass Generation and Triply Charged Higgs Boson at the LHC, S. Nandi, PoS ICHEP2010 (2010) 311, arXiv:1012.1364. 35th International Conference of High Energy Physics - ICHEP2010, July 22-28, 2010, Paris, France.
[Nandi:2010vn]
[22-143]
New neutrino interactions at large colliders, Francisco del Aguila, Juan Antonio Aguilar-Saavedra, Jorge de Blas, PoS ICHEP2010 (2010) 296, arXiv:1012.1327. 35th International Conference of High Energy Physics - ICHEP2010, Paris, France, July 22-28, 2010.
[delAguila:2010uw]
[22-144]
Z'_{B-L} discovery potential at the LHC for \sqrt{s}=7 TeV, Lorenzo Basso, Alexander Belyaev, Stefano Moretti, Giovanni Marco Pruna, Claire H. Shepherd-Themistocleous, PoS ICHEP2010 (2010) 381, arXiv:1011.0872. 35th International Conference of High Energy Physics (ICHEP 2010), July 22-28, 2010, Paris, France.
[Basso:2010dq]
[22-145]
Lepton number, black hole entropy and 10 to the 32 copies of the Standard Model, Sergey Kovalenko, Heinrich Pas, Ivan Schmidt, J. Phys. Conf. Ser. 259 (2010) 012070, arXiv:1011.0410. PASCOS 2010, Valencia, Spain.
[Kovalenko:2010ti]
[22-146]
LHC phenomenology of supersymmetric models beyond the MSSM, Werner Porod, J. Phys. Conf. Ser. 259 (2010) 012002, arXiv:1010.4737. 16th International Symposium on Particles, Strings and Cosmology (PASCOS 2010), Valencia (Spain), July 19-23, 2010.
[Porod:2010ax]
[22-147]
PAMELA's cosmic positron from decaying LSP in SO(10) SUSY GUT, Bumseok Kyae, J. Phys. Conf. Ser. 259 (2010) 012103, arXiv:1010.4379. PASCOS, SUSY, and COSMO/CosPA in 2010.
[Kyae:2010sh]
[22-148]
Dark Left-Right Model: CDMS, LHC, etc, Ernest Ma, J. Phys. Conf. Ser. 315 (2011) 012006, arXiv:1006.3804. Dark Side of Universe 2010, Leon, Mexico.
[Ma:2010us]
[22-149]
The magic of four zero neutrino Yukawa textures, Probir Roy, arXiv:1004.0065, 2010. 'CTP International Conference on Neutrino Physics in the LHC Era' (Luxor,Egypt, 15-19 Nov, 2009) and 'Beyond the Standard Model, 2010'(Cape Town, South Africa, Feb 1-7, 2010).
[Roy:2010jh]
[22-150]
Neutrino phenomenology and unparticle physics, J. Barranco, A. Bolanos, O.G. Miranda, C.A. Moura, T.I. Rashba, AIP Conf. Proc. 1287 (2010) 99-104, arXiv:0911.1892. CINVESTAV's Advanced Summer School of Physics 2009. Mexico City, Mexico, 27-31 Jul, 2009.
[Barranco:2009td]
[22-151]
Probing the Majorana nature of the neutrino with neutrinoless double beta decay, S. Morisi, J. Phys. Conf. Ser. 203 (2010) 012060, arXiv:0910.2542. TAUP09, July 1-5, 2009 (Roma).
[Morisi:2009sz]
[22-152]
Phenomenology of a New Supersymmetric Standard Model: The $\mu\nu$SSM, Carlos Munoz, AIP Conf. Proc. 1200 (2010) 413-416, arXiv:0909.5140. SUSY 2009, 5-10 June, Boston.
[Munoz:2009an]
[22-153]
The $\mu\nu$SSM and gravitino dark matter, Carlos Munoz, AIP Conf. Proc. 1178 (2009) 1-7, arXiv:0909.4775. DSU09 'The Dark Side of the Universe', 1-5 June 2009, Melbourne.
[Munoz:2009qp]
[22-154]
Phenomenology of the minimal B-L extension of the Standard Model, L. Basso, A. Belyaev, S. Moretti, G. M. Pruna, C. H. Shepherd-Themistocleous, PoS EPS-HEP2009 (2009) 242, arXiv:0909.3113. 2009 Europhysics Conference on High Energy Physics, Krakow, Poland, July 16-22, 2009.
[Basso:2009gg]
[22-155]
Patterns of Flavor Violation in a Warped Extra Dimensional Model with Custodial Protection, Stefania Gori, AIP Conf. Proc. 1200 (2010) 635-638, arXiv:0909.3042. SUSY 2009, 17th International Conference on Supersymmetry and the Unification of Fundamental Interactions, June 2-4, Boston.
[Gori:2009em]
[22-156]
Supersymmetric Lepton Flavor Violation, Amon Ilakovac, Apostolos Pilaftsis, AIP Conf. Proc. 1200 (2010) 920-923, arXiv:0909.1981. SUSY'09, Boston, 5-10 June, USA.
[Ilakovac:2009dq]
[22-157]
Explaining LSND using extra-dimensional shortcuts, Sebastian Hollenberg, Octavian Micu, Heinrich Pas, Thomas J. Weiler, AIP Conf. Proc. 1200 (2010) 952-955, arXiv:0908.3986. SUSY09.
[Hollenberg:2009qf]
[22-158]
Analysis of the $\nu MSM$ theory equations, V.M. Gorkavenko, S.I. Vilchynskiy, Eur. Phys. J. C70 (2010) 1091-1098, arXiv:0907.4484. Quark Matter 2009, March 30 - April 4, Knoxville, Tennessee.
[Gorkavenko:2009vd]
[22-159]
Cosmological and Astrophysical Implications of Sterile Neutrinos, Kalliopi Petraki, ASP Conf.Ser. 426 (2010) 149, arXiv:0906.4049. SnowPAC 2009.
[Petraki:2009vf]
[22-160]
Growing neutrino cosmology, Christof Wetterich, Valeria Pettorino, arXiv:0905.0715, 2009. XIII International Workshop on Neutrino Telescopes, Venice 2009.
[Wetterich:2009qf]
[22-161]
Neutrino Mass Models and the Implications of a Non-Zero Reactor Angle, S.F.King, arXiv:0904.3255, 2009. 13th International Workshop on Neutrino Telescopes, Venice, March 10-13, 2009.
[King:2009fk]
[22-162]
Mass Varying Neutrinos With More Than One Species Of Neutrinos, Ole Eggers Bjaelde, AIP Conf. Proc. 1115 (2009) 260-265, arXiv:0903.4333. 4th International Workshop on the Dark Side of the Universe 2008, Cairo.
[Bjaelde:2009yt]
[22-163]
Particle astrophysics in nonlinear supersymmetric general relativity, Kazunari Shima, Motomu Tsuda, Fortsch. Phys. 57 (2009) 698-704, arXiv:0902.3358. 4th EU RTN Workshop, Constituents, Fundamental Forces and Symmetries of the Universe, 11-17 September 2008, Varna, Bulgaria.
[Shima:2009rx]
[22-164]
LFV and Dipole Moments in Models with A4 Flavour Symmetry, Luca Merlo, J. Phys. Conf. Ser. 171 (2009) 012083, arXiv:0902.3067. DISCRETE'08: Symposium on Prospects in the Physics of Discrete Symmetries, December 11-16 2008, Valencia, Spain.
[Merlo:2009js]
[22-165]
Dark Matter and Yukawa Unification with Massive Neutrinos, M.E. Gomez, S. Lola, P. Naranjo, J. Rodriguez-Quintero, AIP Conf. Proc. 1115 (2009) 273-278, arXiv:0901.4332. 4th International Workshop on the Dark Side of the Universe (DSU 2008), Cairo, June 2008.
[Gomez:2009dr]
[22-166]
Leptonic Radiative Decay in Supersymmetry without R parity, Chien-Yi Chen, Otto C. W. Kong, Phys. Rev. D79 (2009) 115013, arXiv:0901.3371.
[Chen:2008gd]
[22-167]
LFV in Models with A4 Flavour Symmetry, Luca Merlo, arXiv:0811.3512, 2008. Now 2008, September 6-13 2008, Conca Specchiulla (Otranto, Italy).
[Merlo:2008ue]
[22-168]
Muonium-Antimuonium Oscillations in an extended Minimal Supersymmetric Standard Model with right-handed neutrinos, Boyang Liu, Phys. Rev. D79 (2009) 015001, arXiv:0811.0855.
[Liu:2008ws]
[22-169]
Sterile neutrinos in cosmology and how to find them in the lab, Mikhail Shaposhnikov, J. Phys. Conf. Ser. 136 (2008) 022045, arXiv:0809.2028. XXIII Int. Conf. on Neutrino Physics and Astrophysics, May 25-31, Christchurch, New Zealand.
[Shaposhnikov:2008rc]
[22-170]
Differentiating Neutrino Models on the Basis of \theta_{13} and Lepton Flavor Violation, Carl H. Albright, AIP Conf. Proc. 1015 (2008) 42-51, arXiv:0803.4176. International Workshop on Grand Unified Theories: Current Status and Future Prospects (GUT07), December 17-19, 2007, Kusatsu, Japan.
[Albright:2008zz]
[22-171]
Decaying Majoron Dark Matter and Neutrino Masses, Massimiliano Lattanzi, AIP Conf. Proc. 966 (2007) 163-169, arXiv:0802.3155. 4th Sino-Italian Workshop on Relativistic Astrophysics, Pescara, 20-30 July 2007.
[Lattanzi:2008ds]
[22-172]
The neutrino masses and the change of allowed parameter region in universal extra dimension models, Shigeki Matsumoto, Joe Sato, Masato Senami, Masato Yamanaka, J. Phys. Conf. Ser. 120 (2008) 042007, arXiv:0711.2600. TAUP 2007.
[Matsumoto:2007xt]
[22-173]
Neutrino time travel, James Dent, Heinrich Pas, Sandip Pakvasa, Thomas J. Weiler, arXiv:0710.2524, 2007. SUSY07.
[Dent:2007rk]
[22-174]
nuMSM and its experimental tests, F. Bezrukov, J. Phys. Conf. Ser. 110 (2008) 082002, arXiv:0710.2501. International Europhysics Conference on High Energy Physics (EPS-HEP2007), Manchester, England, 19-25 Jul 2007.
[Bezrukov:2007qz]
[22-175]
Neutralino Dark Matter in SUSY-SU(5) with RH neutrinos, Lorenzo Calibbi, arXiv:0710.1759, 2007. SUSY07.
[Calibbi:2007da]
[22-176]
Implications of right-handed neutrinos with electroweak- scale masses, P. Q. Hung, Frascati Phys. Ser. 44 (2007) 313-323, arXiv:0706.2753. Les Rencontres de Physique de La Vallee d'Aoste, March 4-10, 2007, La Thuile, Vallee d'Aoste, Italy.
[Hung:2007px]
[22-177]
Probing for Dynamics of Dark-Energy in Mass Varying Neutrinos: Cosmic Microwave Background Radiation and Large Scale Structure, Yong-Yeon Keum, Mod. Phys. Lett. A22 (2007) 2131-2142, arXiv:0705.2204. COSPA-2006, NEPSE-2007 and Yong-Pyung APCTP-2007.
[Keum:2007pq]
[22-178]
The effect of Topcolor Assisted Technicolor, and other models, on Neutrino Oscillation, Minako Honda et al., arXiv:0704.0369, 2007. SCGT06, 21-24 November 2006, Nagoya, Japan.
[Honda:2007yd]
[22-179]
Dark energy and neutrino model in SUSY - Remarks on active and sterile neutrinos mixing -, Ryo Takahashi, Morimitsu Tanimoto, Int. J. Mod. Phys. E16 (2007) 1529-1540, arXiv:0704.0186. International Workshop on Neutrino Masses and Mixings - Toward Unified Understanding of Quark and Lepton Mass Matrices -, Shizuoka, Japan, 17-19 Dec 2006.
[Takahashi:2007xp]
[22-180]
Do Neutrinos Violate CP?, Hisakazu Minakata, arXiv:hep-ph/0604088, 2006. 3rd Interntional Workshop Neutrino Oscillations in Venice (NO-VE 2006): 50 Years after the Neutrino Experimental Discovery, Venice, Italy, 7-10 Feb 2006.
[Minakata:2006fe]
[22-181]
$U(1)_{B-L}$: Neutrino Physics and Inflation, V. N. Senoguz, Q. Shafi, arXiv:hep-ph/0512170, 2005. Planck 03, 11th International Workshop on Neutrino Telescopes, and PASCOS 2005.
[Senoguz:2005bc]
[22-182]
Low scale Seesaw model and Lepton Flavor Violating Rare B Decays, T. Fujihara et al., Phys. Rev. D73 (2006) 074011, arXiv:hep-ph/0512010.
[Fujihara:2005uq]
[22-183]
Massive neutrinos in a grounds-up approach, Shaouly Bar-Shalom, David Atwood, Amarjit Soni, PoS HEP2005 (2006) 188, arXiv:hep-ph/0511282. International Europhysics Conference on High Energy Physics, July 21st - 27th 2005, Lisboa, Portugal.
[Bar-Shalom:2005ira]
[22-184]
Generation mixing phenomena for leptons in e^+e^- collisions, Noriyuki Oshimo, arXiv:hep-ph/0511075, 2005. 3rd International Symposium on New Developments of Integrated Sciences, Tokyo, Japan, 10, 11, March, 2005.
[Oshimo:2005si]
[22-185]
Testing Neutrino Mass Models, Eung Jin Chun, Aip Conf. Proc. 805 (2006) 145, arXiv:hep-ph/0510318. PASCOS 2005.
[Chun:2005gca]
[22-186]
Lepton flavor changing Higgs boson decays in SUSY with $\nu_R$, E. Arganda, A. M. Curiel, M. J. Herrero, D. Temes, arXiv:hep-ph/0506128, 2005. XLth Rencontres de Moriond Electroweak Interactions and Unified Theories, La Thuile, Aosta Valley, Italy, March 5-12, 2005.
[Arganda:2005iq]
[22-187]
B_s-B_s-bar mixing and lepton flavor violation in SUSY SO(10), Sebastian Jager, arXiv:hep-ph/0505243, 2005. XXXXth Rencontres de Moriond.
[Jager:2005ii]
[22-188]
Various realizations of leptogenesis and neutrino mass constraints, Thomas Hambye, arXiv:hep-ph/0412053, 2004. International Conference on the Seesaw Mechanism, Paris, France, 10-11 June 2004.
[Hambye:2004fn]
[22-189]
Neutrino Mass Models and Leptogenesis, S.F. King, Phys. Scripta T121 (2005) 178, arXiv:hep-ph/0411345. 10th International Symposium on Particles, Strings and Cosmology (Pascos04), Northeastern University, Boston, August 16-22, 2004 and Nobel Symposium 129 on Neutrino Physics, Haga Slott, Enkoping, Sweden, August 19-24, 2004.
[King:2004wd]
[22-190]
Lepton Flavour Violation in the Minimal SO(10) GUT Model and in the Standard Model with additional Heavy Dirac Neutrinos, Takeshi Fukuyama, Amon Ilakovac, Tatsuru Kikuchi, Stjepan Meljanac, Nucl. Phys. Proc. Suppl. 144 (2005) 143, arXiv:hep-ph/0411282. Eigth International Workshop on Tau Lepton Physics (Tau04), Nara new public hall, Nara, Japan 14-17 September,2004.
[Fukuyama:2004gm]
[22-191]
Yukawa Matrix for the Neutrino and Lepton Flavour Violation, S. Kanemura et al., Nucl. Phys. Proc. Suppl. 149 (2005) 360, arXiv:hep-ph/0411240. NuFact04, Osaka, Japan, July 26 - August 1, 2004.
[Kanemura:2004wz]
[22-192]
Bi-maximal mixing at GUT, the low energy data and the leptogenesis, S. Kanemura et al., Nucl. Phys. Proc. Suppl. 149 (2005) 357, arXiv:hep-ph/0411239. NuFact04, Osaka, Japan, July 26 - August 1, 2004.
[Kanemura:2004wy]
[22-193]
Lepton flavor violating Higgs boson decays in the MSSM-seesaw, E. Arganda, A. M. Curiel, M. J. Herrero, D. Temes, arXiv:hep-ph/0411048, 2004. Vth Rencontres du Vietnam, Hanoi, August 5-11 2004.
[Arganda:2004hz]
[22-194]
Seesaw mechanism and the baryon asymmetry, M. Raidal, arXiv:hep-ph/0410362, 2004. Seesaw25, Paris, June 10-11, 2004.
[Raidal:2004hk]
[22-195]
Parametrizations of the Seesaw, or, can the Seesaw be tested?, Sacha Davidson, arXiv:hep-ph/0409339, 2004. Seesaw'25.
[Davidson:2004wi]
[22-196]
Why Are Neutrinos Light? - An Alternative, Lawrence J. Hall, Steven J. Oliver, Nucl. Phys. Proc. Suppl. 137 (2004) 269, arXiv:hep-ph/0409276. Fujihara Seminar on Neutrino Mass and Seesaw Mechanism held at KEK, Japan, February 2004.
[Hall:2004yg]
[22-197]
Working Group Report: Neutrino and Astroparticle Physics, Srubabati Goswami et al., Pramana 63 (2004) 1391, arXiv:hep-ph/0409225. 8th Workshop on High-Energy Physics Phenomenology (WHEPP-8), IIT Mumbai, India, 5-16 Jan 2004.
[Goswami:2004yb]
[22-198]
Study of leptonic CP violation, S. Nasri, J. Schechter, S. Moussa, Int. J. Mod. Phys. A19 (2004) 5367, arXiv:hep-ph/0406243. MRST2004.
[Nasri:2004ca]
[22-199]
Neutrinos: recent developments and origin of neutrino mass matrix, Riazuddin, AIP Conf.Proc. 748 (2005) 331, arXiv:hep-ph/0405289. First International Conference on Modern Trends in Physics Research (MTPR-04), April 04-09, 2004, Egypt.
[Riazuddin:2004aa]
[22-200]
Flavor and CP Violation Induced by Atmospheric Neutrino Mixing, Junji Hisano, Nucl. Phys. Proc. Suppl. 137 (2004) 169, arXiv:hep-ph/0405185. Fujihara Seminar on Neutrino Mass and Seesaw Mechanism (SEESAW 1979-2004), Tsukuba, Ibaraki, Japan, 23-25 Feb 2004.
[Hisano:2004ia]
[22-201]
SUSY Seesaw and FCNC, A. Masiero, S. K. Vempati, O. Vives, Nucl. Phys. Proc. Suppl. 137 (2004) 156, arXiv:hep-ph/0405017. Seesaw (1979-2004), Fujihara Seminar, Neutrino mass and Seesaw mechanism, Feb 23-25, 2004, KEK, Japan.
[Masiero:2004hg]
[22-202]
Testing the Leptogenesis Mechanism of the Seesaw Model, Elizabeth Jenkins, Int. J. Mod. Phys. A20 (2005) 1197, arXiv:hep-ph/0403086. Coral Gables 2003.
[Jenkins:2004xq]
[22-203]
Status of Tri/Bi-Maximal Neutrino Mixing, P. F. Harrison, W. G. Scott, arXiv:hep-ph/0402006, 2004. Second Workshop on Neutrino Oscillations in Venice (NOVE-II) Venice, Italy. 3-5 Dec 2003.
[Harrison:2004uh]
[22-204]
Measuring neutrino mixing angles at LHC, W. Porod, P. Skands, arXiv:hep-ph/0401077, 2004. 3rd Les Houches Workshop: Physics at TeV Colliders, Les Houches, France, 26 May - 6 June 2003.
[Porod:2004rb]
[22-205]
Probing Neutrino Parameters at Accelerators, J. C. Romao, PoS AHEP2003 (2003) AHEP2003/016, arXiv:hep-ph/0312073. International Workshop on Astroparticle and High Energy Physics, Valencia, Spain, 14-18 October 2003.
[Romao:2003wa]
[22-206]
Symmetric Textures in SO(10) and LMA Solution for Solar Neutrinos, Mu-Chun Chen, K.T. Mahanthappa, Aip Conf. Proc. 698 (2004) 222, arXiv:hep-ph/0308156. Conference on the Intersections of Particle and Nuclear Physics (CIPANP2003), New York City, May 19-24, 2003, and at the Tenth Marcel Grossmann Meeting on General Relativity, Rio de Janeiro (Brazil), July 20-26, 2003.
[Chen:2003wj]
[22-207]
Probing Grand Unification Through Neutrino Oscillations, Leptogenesis, and Proton Decay, Jogesh C. Pati, Int. J. Mod. Phys. A18 (2003) 4135, arXiv:hep-ph/0305221. Erice School (Sept 2002), Neutrino Conference (Stony Brook, 2002), PASCOS Conference (Mumbai, 2003).
[Pati:2003qia]
[22-208]
Phenomenological implication of KamLAND on lepton mass matrices, V. Antonelli, F. Caravaglios, R. Ferrari, M. Picariello, arXiv:hep-ph/0305169, 2003. XXXVIIIth Rencontres de Moriond, ElectroWeak Interactions and Unified Theories, 15-22 March 2003, Les Arcs, France.
[Antonelli:2003cq]
[22-209]
Phenomenology of the Minimal SO(10) SUSY Model, Stuart Raby, Pramana 62 (2004) 523, arXiv:hep-ph/0304074. PASCOS'03, Mumbai, India, January 3 - 8, 2003.
[Raby:2003in]
[22-210]
Universal Texture of Quark and Lepton Mass Matrices, Yoshio Koide et al., arXiv:hep-ph/0303256, 2003. 4th workshop on 'Neutrino Oscillations and their Origin' (NOON2003) (Kanazawa, Japan, 10-14 Feb. 2002).
[Koide:2003cc]

23 - Phenomenology - See-Saw

[23-1]
Electron and Muon $(g-2)_{e,\mu}$ Anomalous Magnetic Moment in $U(1)_{L_e-L_{\mu}}$ Symmetry Model, Rishu Verma, Ankush, B. C. Chauhan, arXiv:2404.13546, 2024.
[Verma:2024zav]
[23-2]
Phenomenology of 3-3-1 models with radiative inverse seesaw mechanism, V. H. Binh, Cesar Bonilla, A. E. Carcamo Hernandez, D. T. Huong, Vishnudath K. N., H. N. Long, P. N. Thu, Ivan Schmidt, arXiv:2404.13373, 2024.
[Binh:2024lez]
[23-3]
Neutrinoless double beta decay in the minimal type-I seesaw model: mass-dependent nuclear matrix element, current limits and future sensitivities, Dong-Liang Fang, Yu-Feng Li, Yi-Yu Zhang, Jing-Yu Zhu, arXiv:2404.12316, 2024.
[Fang:2024hzy]
[23-4]
Dark sterile neutrinos on a linear seesaw of neutrino masses, Ernesto A. Matute, arXiv:2404.06223, 2024.
[Matute:2024rwq]
[23-5]
$(g-2)_{e,\mu}$ anomalies and decays $h, Z\to e_b e_a $ in 3-3-1 models with inverse seesaw neutrinos, T. T. Hong, L. T. T. Phuong, T. Phong Nguyen, N. H. T. Nha, L. T. Hue, arXiv:2404.05524, 2024.
[Hong:2024yhk]
[23-6]
Models of radiative linear seesaw with electrically charged mediators, A. E. Carcamo Hernandez, Yocelyne Hidalgo Velasquez, Sergey Kovalenko, Nicolas A. Perez-Julve, Ivan Schmidt, arXiv:2403.05637, 2024.
[CarcamoHernandez:2024edi]
[23-7]
Heavy neutral lepton search and $\mu \to e \gamma$ constraints in case of type-I seesaw, Stefano Morisi, arXiv:2403.00983, 2024.
[Morisi:2024yxi]
[23-8]
Neutrino phenomenology in the modular S3S_3 seesaw model, Mitesh Kumar Behera, Pawin Ittisamai, Chakrit Pongkitivanichkul, Patipan Uttayarat, arXiv:2403.00593, 2024.
[Behera:2024ark]
[23-9]
Predictive linear seesaw model with $\Delta \left( 27\right) $ family symmetry, A. E. Carcamo Hernandez, Ivo de Medeiros Varzielas, Juan Marchant Gonzalez, arXiv:2401.15147, 2024.
[CarcamoHernandez:2024vcr]
[23-10]
The 3-3-1 model with exotic electric charges, right-handed neutrinos with type-I+II seesaw mechanism and its effects on LFV, Abrar Ahmada, Shakeel Mahmoodb, Farida Tahira, Wasi Uz Zamanb, Fizza Atifb, arXiv:2401.11828, 2024.
[Ahmad:2024bim]
[23-11]
Constraining New Physics models from $\mu\to e$ observables in bottom-up EFT, Marco Ardu, Sacha Davidson, Stephane Lavignac, arXiv:2401.06214, 2024.
[Ardu:2024bua]
[23-12]
Light thermal dark matter via type-I seesaw portal, Debasish Borah, Pritam Das, Satyabrata Mahapatra, Narendra Sahu, arXiv:2401.01639, 2024.
[Borah:2024yow]
[23-13]
$Z^\prime$ induced forward dominant processes in $\mu$TRISTAN experiment, Arindam Das, Yuta Orikasa, Phys.Lett.B 851 (2024) 138577, arXiv:2401.00696.
[Das:2024gfg]
[23-14]
Explanation of the 95 GeV $\gamma\gamma$ and $b\bar{b}$ excesses in the Minimal Left-Right Symmetric Model, P. S. Bhupal Dev, Rabindra N. Mohapatra, Yongchao Zhang, Phys.Lett.B 849 (2024) 138481, arXiv:2312.17733.
[Dev:2023kzu]
[23-15]
Axion Dark Matter and additional BSM aspects in an extended 2HDM setup, Giorgio Arcadi, Sarif Khan, arXiv:2312.17099, 2023.
[Arcadi:2023rbv]
[23-16]
Testing the dark and visible sides of the Seesaw, Subhaditya Bhattacharya, Niloy Mondal, Rishav Roshan, Drona Vatsyayan, arXiv:2312.15053, 2023.
[Bhattacharya:2023kws]
[23-17]
Self Interacting Dark Matter and Dirac neutrinos via Lepton Quarticity, Satyabrata Mahapatra, Sujit Kumar Sahoo, Narendra Sahu, Vicky Singh Thounaojam, Phys.Rev.D 109 (2024) 055036, arXiv:2312.12322.
[Mahapatra:2023oyh]
[23-18]
$(g-2)_{e,\mu}$ anomalies and decays $h\to e_a e_b$, $Z\to e_ae_b$, and $e_b\to e_a \gamma$ in a two Higgs doublet model with inverse seesaw neutrinos, T. T. Hong, Q.Duyet Tran, T. Phong Nguyen, L.T. Hue, N.H.T. Nha, Eur.Phys.J.C 84 (2024) 338, arXiv:2312.11427.
[Hong:2023rhg]
[23-19]
Bounding the Dimension-5 Seesaw Portal with Non-Pointing Photon Searches, L. Duarte, J. Jones-Perez, C. Manrique-Chavil, arXiv:2311.17989, 2023.
[Duarte:2023tdw]
[23-20]
Phenomenology of the flavor symmetric scoto-seesaw model with dark matter and TM$_1$ mixing, Joy Ganguly, Janusz Gluza, Biswajit Karmakar, Satyabrata Mahapatra, arXiv:2311.15997, 2023.
[Ganguly:2023jml]
[23-21]
CP violation in lepton-number-conserving processes through heavy Majorana neutrinos at future lepton colliders, Zhe Wang, Xing-Hua Yang, Xin-Yi Zhang, arXiv:2311.15166, 2023.
[Wang:2023zhh]
[23-22]
$\nu$GRe: Gravitational Neutrino Reheating, Md Riajul Haque, Debaprasad Maity, Rajesh Mondal, Phys.Rev.D 109 (2024) 063543, arXiv:2311.07684.
[Haque:2023zhb]
[23-23]
Probing Parity Manifest Minimal Left-Right Symmetric Model through Anomalous Magnetic Moment, CP Violation, and Flavor Violation of Charged Leptons, Rafid Buksh, Samim Ul Islam, Md. Ehsanuzzaman, arXiv:2310.18851, 2023.
[Buksh:2023qvs]
[23-24]
Novel moduli space in modular flavor models : a case study for modular $T'$ seesaw model with hidden $SU(2)$ gauge symmetry, Keiya Ishiguro, Takaaki Nomura, Hiroshi Okada, Yuta Orikasa, Hajime Otsuka, arXiv:2310.17068, 2023.
[Ishiguro:2023gld]
[23-25]
A cosmological sandwiched window for seesaw with primordial majoron abundance, Shao-Ping Li, Bingrong Yu, JCAP 04 (2024) 047, arXiv:2310.13492.
[Li:2023kuz]
[23-26]
Interplay of type-I and type-II seesaw in neutrinoless double beta decay in left-right symmetric model, Vivek Banerjee, Sasmita Mishra, arXiv:2309.11105, 2023.
[Banerjee:2023aro]
[23-27]
Neutrino Phenomenology in a Model with Generalized CP symmetry within Type-I seesaw framework, Tapender, Sanjeev Kumar, Surender Verma, Phys.Rev.D 109 (2024) 015004, arXiv:2309.04242.
[Tapender:2023kdk]
[23-28]
MeV Sterile Neutrino in light of the Cabibbo-Angle Anomaly, Teppei Kitahara, Kohsaku Tobioka, Phys.Rev.D 108 (2023) 115034, arXiv:2308.13003.
[Kitahara:2023xab]
[23-29]
A possible search for Majorana neutrinos at future lepton colliders, E. Antonov, A. Drutskoy, M. Dubinin, JETP Lett. 118 (2023) 461-469, arXiv:2308.02240.
[Antonov:2023otp]
[23-30]
Diraxiogenesis, Maximilian Berbig, JHEP 01 (2024) 061, arXiv:2307.14121.
[Berbig:2023uzs]
[23-31]
Correlating neutrino magnetic moment and scalar triplet dark matter to enlighten XENONnT bounds in a Type-II model, Shivaramakrishna Singirala, Dinesh Kumar Singha, Rukmani Mohanta, Phys.Rev.D 109 (2024) 075031, arXiv:2307.10898.
[Singirala:2023utf]
[23-32]
FCNCs, Proton Stability, $ g_{\mu}-2$ Discrepancy, Neutralino cold Dark Matter in Flipped $SU(5) \times U(1)_{\chi}$ from $F$ Theory based on $ A_{4} $ Symmetry, Gayatri Ghosh, arXiv:2307.09948, 2023.
[Ghosh:2023xcn]
[23-33]
Primordial non-Gaussianity as a probe of seesaw and leptogenesis, Chee Sheng Fong, Anish Ghoshal, Abhishek Naskar, Moinul Hossain Rahat, Shaikh Saad, JHEP 11 (2023) 182, arXiv:2307.07550.
[Fong:2023egk]
[23-34]
NANOGrav meets Hot New Early Dark Energy and the origin of neutrino mass, Juan S. Cruz, Florian Niedermann, Martin S. Sloth, Phys.Lett.B 846 (2023) 138202, arXiv:2307.03091.
[Cruz:2023lnq]
[23-35]
General solutions for TM$_{1,2}$ mixing in the minimal type-I seesaw mechanism and phenomenological constraints to Yukawa matrix of neutrinos, Masaki J. S. Yang, arXiv:2306.14383, 2023.
[Yang:2023yub]
[23-36]
Complementarity of $B\to K^{(*)} \mu \bar \mu$ and $B\to K^{(*)} + \mathrm{inv}$ for searches of GeV-scale Higgs-like scalars, Maksym Ovchynnikov, Michael A. Schmidt, Thomas Schwetz, Eur.Phys.J.C 83 (2023) 791, arXiv:2306.09508.
[Ovchynnikov:2023von]
[23-37]
Bounds on lepton non-unitarity and heavy neutrino mixing, Mattias Blennow, Enrique Fernandez-Martinez, Josu Hernandez-Garcia, Jacobo Lopez-Pavon, Xabier Marcano, Daniel Naredo-Tuero, JHEP 08 (2023) 030, arXiv:2306.01040.
[Blennow:2023mqx]
[23-38]
Fermion mass hierarchy in an extended left-right symmetric model, Cesar Bonilla, A. E. Carcamo Hernandez, Sergey Kovalenko, H. Lee, R. Pasechnik, Ivan Schmidt, JHEP 12 (2023) 075, arXiv:2305.11967.
[Bonilla:2023wok]
[23-39]
Two-component vector WIMP, fermion FIMP dark matter model with an extended seesaw mechanism, Francesco Costa, PoS DISCRETE2022 (2024) 020, arXiv:2305.02851.
[Costa:2023hsp]
[23-40]
Phenomenology of the simplest linear seesaw mechanism, Aditya Batra, Praveen Bharadwaj, Sanjoy Mandal, Rahul Srivastava, Jose W. F. Valle, JHEP 07 (2023) 221, arXiv:2305.00994.
[Batra:2023mds]
[23-41]
Naturally low scale type I seesaw mechanism and its viability in the 3-3-1 model with right-handed neutrinos, E. Cabrera, D. Cogollo, C. A. de S. Pires, Nucl.Phys.B 996 (2023) 116372, arXiv:2304.14443.
[Cabrera:2023rcy]
[23-42]
Testing electroweak scale seesaw models at $e^{-} \gamma$ and $\gamma \gamma$ colliders, Arindam Das, Sanjoy Mandal, Sujay Shil, Phys.Rev.D 108 (2023) 015022, arXiv:2304.06298.
[Das:2023tna]
[23-43]
Common Seesaw Anchors for Neutrinos and Freeze-In Long-Lived Dark Matter with possible $W$ Mass Shift, Ernest Ma, Phys.Lett.B 847 (2023) 138277, arXiv:2304.00184.
[Ma:2023krj]
[23-44]
Non-Minimal Approximation for the Type-I Seesaw Mechanism, Mikhail Dubinin, Elena Fedotova, Symmetry 15 (2023) 679, arXiv:2303.06680.
[Dubinin:2023yli]
[23-45]
Fermion masses and mixings in an extended SM based on A4 flavor symmetry with the linear seesaw for majorana neutrino, V. V. Vien, arXiv:2303.04687, 2023.
[Vien:2023xyq]
[23-46]
Neutrinoless double beta decay in Left-Right symmetric model with double seesaw, Sudhanwa Patra, S. T. Petcov, Prativa Pritimita, Purushottam Sahu, Phys.Rev.D 107 (2023) 075037, arXiv:2302.14538.
[Patra:2023ltl]
[23-47]
KeV dark matter in minimal extended seesaw model and its predictions in neutrinoless double beta decay and baryogenesis, Mayengbam Kishan Singh, S. Robertson Singh, N. Nimai Singh, arXiv:2302.09840, 2023.
[Singh:2023jll]
[23-48]
$(g-2)_{e, mu}$ and decays $e_b \to e_a \gamma$ in a $\text{SU(4)}_L \times \text{U(1)}_X$ model with inverse seesaw neutrinos, N. H. Thao, D. T. Binh, T. T. Hong, L. T. Hue, D. P. Khoi, PTEP 2023 (2023) 8, arXiv:2302.07576.
[Thao:2023gvs]
[23-49]
cLFV processes and suppression of non-unitary mixing effects in low scale seesaw models, J. C. Garnica, G. Hernandez-Tome, E. Peinado, Phys.Rev.D 108 (2023) 035033, arXiv:2302.07379.
[Garnica:2023ccx]
[23-50]
Implication of cosmological upper bound on the validity of golden ratio neutrino mixings under radiative corrections, Y. Monitar Singh, M. Shubhakanta Singh, N. Nimai Singh, arXiv:2302.06168, 2023.
[Singh:2023cgm]
[23-51]
A $_{4}$-based model with linear seesaw scheme for lepton mass and mixing, V. V. Vien, H. N. Long, Phys. Scripta 98 (2023) 015301, arXiv:2302.03195.
[Vien:2022cxr]
[23-52]
Neutrino phenomenology, W mass anomaly \& muon $(g-2)$ in minimal type-III seesaw using $T^\prime$ modular symmetry, Priya Mishra, Mitesh Kumar Behera, Rukmani Mohanta, Phys.Rev.D 107 (2023) 115004, arXiv:2302.00494.
[Mishra:2023cjc]
[23-53]
Revealing the origin of neutrino masses through the Type II Seesaw mechanism at high-energy muon colliders, Tong Li, Chang-Yuan Yao, Man Yuan, JHEP 03 (2023) 137, arXiv:2301.07274.
[Li:2023ksw]
[23-54]
Quark-lepton Yukawa ratios and nucleon decay in SU(5) GUTs with type-III seesaw, Stefan Antusch, Kevin Hinze, Shaikh Saad, Nucl.Phys.B 991 (2023) 116195, arXiv:2301.03601.
[Antusch:2023kli]
[23-55]
Disentangling the Seesaw in the Left-Right Model - An Algorithm for the General Case, Joshua Kiers, Ken Kiers, Alejandro Szynkman, Tatiana Tarutina, Phys.Rev.D 107 (2023) 075001, arXiv:2212.14837.
[Kiers:2022cyc]
[23-56]
Explaining the ${\mathcal{R}}(D)$ and ${\mathcal{R}}(D^{\ast})$ Anomalies in the $B-L$ Supersymmetric Standard Model with Inverse Seesaw, Dris Boubaa, Shaaban Khalil, Stefano Moretti, Cem Salih Un, Phys.Rev.D 107 (2023) 075024, arXiv:2212.14485.
[Boubaa:2022xsk]
[23-57]
One vanishing minor in neutrino mass matrix using trimaximal mixing, Iffat Ara Mazumder, Rupak Dutta, Phys.Rev.D 107 (2023) 115023, arXiv:2212.12884.
[Mazumder:2022ywa]
[23-58]
Lepton universality in a model with three generations of sterile Majorana neutrinos, M. N. Dubinin, D. M. Kazarkin, Phys.Rev.D 109 (2024) 055004, arXiv:2212.11310.
[Dubinin:2022gsk]
[23-59]
Dilution of Dark Matter Relic abundance due to First Order Electroweak Phase Transition in the singlet scalar extended type-II seesaw model, Subhojit Roy, arXiv:2212.11230, 2022.
[Roy:2022gop]
[23-60]
Dark matter produced from right-handed neutrinos, Shao-Ping Li, Xun-Jie Xu, JCAP 06 (2023) 047, arXiv:2212.09109.
[Li:2022bpp]
[23-61]
Riding the Seesaw: What Higgsstrahlung May Reveal about Massive Neutrinos, Tobias Felkl, Adam Lackner, Michael A. Schmidt, Eur.Phys.J.C 83 (2023) 342, arXiv:2211.15954.
[Felkl:2022zgn]
[23-62]
PBH-infused seesaw origin of matter and unique gravitational waves, Debasish Borah, Suruj Jyoti Das, Rome Samanta, Federico R. Urban, JHEP 03 (2023) 127, arXiv:2211.15726.
[Borah:2022iym]
[23-63]
Minimal realisation of light thermal self-interacting dark matter, Debasish Borah, Satyabrata Mahapatra, Narendra Sahu, Phys.Rev.D 108 (2023) L091702, arXiv:2211.15703.
[Borah:2022ask]
[23-64]
Interplay among gravitational waves, dark matter and collider signals in the singlet scalar extended type-II seesaw model, Purusottam Ghosh, Tathagata Ghosh, Subhojit Roy, JHEP 10 (2023) 057, arXiv:2211.15640.
[Ghosh:2022fzp]
[23-65]
A seesaw model for large neutrino masses in concordance with cosmology, Miguel Escudero, Thomas Schwetz, Jorge Terol-Calvo, JHEP 02 (2023) 142, arXiv:2211.01729.
[Escudero:2022gez]
[23-66]
A two-component vector WIMP - fermion FIMP dark matter model with an extended seesaw mechanism, Francesco Costa, Sarif Khan, Jinsu Kim, JHEP 12 (2022) 165, arXiv:2209.13653.
[Costa:2022lpy]
[23-67]
Probing right-handed neutrinos dipole operators, Daniele Barducci, Enrico Bertuzzo, Marco Taoso, Claudio Toni, JHEP 03 (2023) 239, arXiv:2209.13469.
[Barducci:2022gdv]
[23-68]
Non-SUSY Lepton Flavor Model with 3HDM, Yukimura Izawa, Yusuke Shimizu, Hironori Takei, PTEP 2023 (2023) 063B04, arXiv:2209.10201.
[Izawa:2022viu]
[23-69]
HNL mass degeneracy: implications for low-scale seesaws, LNV at colliders and leptogenesis, Enrique Fernandez-Martinez, Xabier Marcano, Daniel Naredo-Tuero, JHEP 03 (2023) 057, arXiv:2209.04461.
[Fernandez-Martinez:2022gsu]
[23-70]
W-mass Anomaly in the Simplest Linear Seesaw Mechanism, Aditya Batra, Praveen Bharadwaj, Sanjoy Mandal, Rahul Srivastava, Jose W. F. Valle, Phys.Lett.B 834 (2022) 137408, arXiv:2208.04983.
[Batra:2022arl]
[23-71]
Probing high scale seesaw and PBH generated dark matter via gravitational waves with multiple tilts, Debasish Borah, Suruj Jyoti Das, Rishav Roshan, Nucl.Phys.B 1002 (2024) 116528, arXiv:2208.04965.
[Borah:2022vsu]
[23-72]
Axionic Dirac seesaw and electroweak vacuum stability, J. T. Penedo, Yakefu Reyimuaji, Xinyi Zhang, Phys.Rev.D 106 (2022) 115035, arXiv:2208.03329.
[Penedo:2022gej]
[23-73]
Exploring the feasibility of the cLFV decay $ \mu \rightarrow e + \gamma $ in inverse and linear seesaw mechanisms with $A_4$ flavour symmetry, Maibam Ricky Devi, Kalpana Bora, Mod.Phys.Lett.A 37 (2022) 2250206, arXiv:2208.02214.
[Devi:2022scm]
[23-74]
Comprehensive Analysis of Charged Lepton Flavour Violation in the Symmetry Protected Type-I Seesaw, Andreas Crivellin, Fiona Kirk, Claudio Andrea Manzari, JHEP 12 (2022) 031, arXiv:2208.00020.
[Crivellin:2022cve]
[23-75]
Neutrino masses and mixing in Minimal Inverse Seesaw using $A_4$ modular symmetry, Jotin Gogoi, Nayana Gautam, Mrinal Kumar Das, Int.J.Mod.Phys.A 38 (2023) 2350022, arXiv:2207.10546.
[Gogoi:2022jwf]
[23-76]
S.M.A.S.H.E.D.: Standard Model Axion Seesaw Higgs Inflation Extended for Dirac Neutrinos, Maximilian Berbig, JCAP 11 (2022) 042, arXiv:2207.08142.
[Berbig:2022pye]
[23-77]
Explaining anomalies of $B$-physics, muon $g-2$ and $W$ mass in $R$-parity violating MSSM with seesaw mechanism, Min-Di Zheng, Feng-Zhi Chen, Hong-Hao Zhang, Eur.Phys.J.C 82 (2022) 895, arXiv:2207.07636.
[Zheng:2022ssr]
[23-78]
Fatjet signatures of heavy neutrinos and heavy leptons in a left-right model with universal seesaw at the HL-LHC, Atri Dey, Rafiqul Rahaman, Santosh Kumar Rai, Eur.Phys.J.C 84 (2024) 132, arXiv:2207.06857.
[Dey:2022tbp]
[23-79]
Combined explanations of muon $g-2$ and $R_{K,K^*}$ anomalies in left-right model with inverse seesaw, M. Ashry, K. Ezzat, S. Khalil, Phys.Rev.D 107 (2023) 055044, arXiv:2207.05828.
[Ashry:2022maw]
[23-80]
Lepton Flavour Violation in minimal grand-unified type II seesaw models, Lorenzo Calibbi, Xiyuan Gao, Phys.Rev.D 106 (2022) 095036, arXiv:2206.10682.
[Calibbi:2022wko]
[23-81]
Decays $h\to e_ae_b$, $e_b\to e_a\gamma$, and $(g-2)_{e,\mu}$ in a 3-3-1 model with inverse seesaw neutrinos, T.T. Hong, N.H.T. Nha, T. Phong Nguyen, L. T. T. Phuong, L.T. Hue, PTEP 2022 (2022) 093B05, arXiv:2206.08028.
[Hong:2022xjg]
[23-82]
Lepton masses and mixings, and muon anomalous magnetic moment in an extended $B-L$ model with type I seesaw mechanism, V. V. Vien, H. N. Long, A. E. Carcamo Hernandez, PTEP 9 (2022) 093B11, arXiv:2206.06564.
[Vien:2022pwf]
[23-83]
Improved cosmological bounds for a fine-tuned see-saw mechanism of keV sterile neutrinos, M. N. Dubinin, D.M. Kazarkin, arXiv:2206.05186, 2022.
[Dubinin:2022axc]
[23-84]
Assessment of the Dimension-5 Seesaw Portal and Impact on Non-Pointing Photon Searches from Exotic Higgs Decays, F. Delgado, L. Duarte, J. Jones-Perez, C. Manrique-Chavil, S. Pena, JHEP 09 (2022) 079, arXiv:2205.13550.
[Delgado:2022fea]
[23-85]
Boosted displaced decay of right-handed neutrinos at CMS, ATLAS and MATHUSLA, Priyotosh Bandyopadhyay, Eung Jin Chun, Chandrima Sen, JHEP 02 (2023) 103, arXiv:2205.12511.
[Bandyopadhyay:2022mej]
[23-86]
Type III Neutrino Seesaw, Freeze-In Long-Lived Dark Matter, and the $W$ Mass Shift, Ernest Ma, arXiv:2205.09794, 2022.
[Ma:2022emu]
[23-87]
Nested Radiative Seesaw Masses for Dark Matter and Neutrinos, Talal Ahmed Chowdhury, Shaaban Khalil, Ernest Ma, Phys.Rev.D 106 (2022) 095020, arXiv:2205.07942.
[Chowdhury:2022zwe]
[23-88]
Physics implication from a $Z_3$ symmetry of hadrons, Phung Van Dong, Phys.Rev.D 107 (2023) 055026, arXiv:2205.04253.
[VanDong:2022rox]
[23-89]
Probing heavy triplet leptons in Type III seesaw at future muon colliders, Tong Li, Han Qin, Chang-Yuan Yao, Man Yuan, Phys.Rev.D 106 (2022) 035021, arXiv:2205.04214.
[Li:2022kkc]
[23-90]
Viable quark-lepton Yukawa ratios and nucleon decay predictions in $SU(5)$ GUTs with type-II seesaw, Stefan Antusch, Kevin Hinze, Shaikh Saad, Nucl.Phys.B 986 (2023) 116049, arXiv:2205.01120.
[Antusch:2022afk]
[23-91]
Hiding neutrinoless double beta decay in split seesaw model with 2+1 right-handed neutrinos, Zhen-hua Zhao, Eur.Phys.J.C 82 (2022) 1020, arXiv:2205.01021.
[Zhao:2022trb]
[23-92]
Flavour and dark matter in a scoto/type-II seesaw model, D.M. Barreiros, H.B. Camara, F.R. Joaquim, JHEP 08 (2022) 030, arXiv:2204.13605.
[Barreiros:2022aqu]
[23-93]
Investigating $R_D$ and $R_{D^*}$ anomalies in a Left-Right model with an Inverse Seesaw, K. Ezzat, G. Faisel, S. Khalil, Eur.Phys.J.C 83 (2023) 731, arXiv:2204.10922.
[Ezzat:2022gpk]
[23-94]
W-boson mass in the triplet seesaw model, Julian Heeck, Phys.Rev.D 106 (2022) 015004, arXiv:2204.10274.
[Heeck:2022fvl]
[23-95]
The Triplet Dirac Seesaw in the View of the Recent CDF-II W Mass Anomaly, Oleg Popov, Rahul Srivastava, Phys.Lett.B 840 (2023) 137837, arXiv:2204.08568.
[Popov:2022ldh]
[23-96]
Type III seesaw under $A_4$ modular symmetry with leptogenesis and muon $g-2$, Priya Mishra, Mitesh Kumar Behera, Papia Panda, Rukmani Mohanta, Eur.Phys.J.C 82 (2022) 1115, arXiv:2204.08338.
[Mishra:2022egy]
[23-97]
Type II Dirac Seesaw with Observable $\DeltaN_{\rm eff}$ in the light of W-mass Anomaly, Debasish Borah, Satyabrata Mahapatra, Dibyendu Nanda, Narendra Sahu, Phys.Lett.B 833 (2022) 137297, arXiv:2204.08266.
[Borah:2022obi]
[23-98]
Type III seesaw with R-parity violation in light of $m_W$ (CDF), Anish Ghoshal, Nobuchika Okada, Satomi Okada, Digesh Raut, Qaisar Shafi, Anil Thapa, Nucl.Phys.B 989 (2023) 116099, arXiv:2204.07138.
[Ghoshal:2022vzo]
[23-99]
Type-II Seesaw Triplet Scalar and Its VEV Effects on Neutrino Trident Scattering and W mass, Yu Cheng, Xiao-Gang He, Zhong-Lv Huang, Ming-Wei Li, Phys.Lett.B 831 (2022) 137218, arXiv:2204.05031.
[Cheng:2022jyi]
[23-100]
Unifying gravitational waves with $W$ boson, FIMP dark matter, and Majorana Seesaw mechanism, Xuewen Liu, Shu-Yuan Guo, Bin Zhu, Ying Li, Sci.Bull. 67 (2022) 1437-1442, arXiv:2204.04834.
[Liu:2022jdq]
[23-101]
Dynamical Minimal Flavour Violating Inverse Seesaw, Fernando Arias-Aragon, Enrique Fernandez-Martinez, Manuel Gonzalez-Lopez, Luca Merlo, JHEP 09 (2022) 210, arXiv:2204.04672.
[Arias-Aragon:2022ats]
[23-102]
Testing the seesaw mechanisms via displaced right-handed neutrinos from a light scalar at the HL-LHC, Wei Liu, Jiale Li, Jing Li, Hao Sun, Phys.Rev.D 106 (2022) 015019, arXiv:2204.03819.
[Liu:2022ugx]
[23-103]
Neutrino phenomenology, muon and electron $(g-2)$ under $U(1)$ gauged symmetries in an extended inverse seesaw model, Papia Panda, Priya Mishra, Mitesh Kumar Behera, Rukmani Mohanta, Phys.Rev.D 108 (2023) 035032, arXiv:2203.14536.
[Panda:2022kbn]
[23-104]
Towards deconstructing the simplest seesaw mechanism, Sanjoy Mandal, O. G. Miranda, G. Sanchez Garcia, J. W. F. Valle, Xun-Jie Xu, Phys.Rev.D 105 (2022) 095020, arXiv:2203.06362.
[Mandal:2022zmy]
[23-105]
Electroweak Phase Transition and Gravitational Waves in the Type-II Seesaw Model, Ruiyu Zhou, Ligong Bian, Yong Du, arXiv:2203.01561, 2022.
[Zhou:2022mlz]
[23-106]
Spelling Out Leptonic CP Violation in the Language of Invariant Theory, Bingrong Yu, Shun Zhou, Phys.Rev.D 106 (2022) L051701, arXiv:2203.00574.
[Yu:2022nxj]
[23-107]
A general formula by $LDL^{T}$ decomposition in the minimal seesaw model and conditions of $CP$ symmetry for Lagrangian parameters, Masaki J. S. Yang, arXiv:2202.10067, 2022.
[Yang:2022wch]
[23-108]
Dirac dark matter, dark radiation and type-II seesaw in alternative $U(1)_X$ standard model, Nobuchika Okada, Osamu Seto, Phys.Rev.D 105 (2022) 123512, arXiv:2202.08508.
[Okada:2022cby]
[23-109]
High-energy colliders as a probe of neutrino properties, O. G. Miranda, J. W. F. Valle, G. Sanchez Garcia, Sanjoy Mandal, Xun-Jie Xu, Phys.Lett.B 829 (2022) 137110, arXiv:2202.04502.
[Mandal:2022ysp]
[23-110]
Lower bounds on lepton flavor violating branching ratios in a radiative seesaw model, Osamu Seto, Tetsuo Shindo, Takanao Tsuyuki, Phys.Rev.D 105 (2022) 095018, arXiv:2202.00931.
[Seto:2022ebh]
[23-111]
The see-saw portal at future Higgs factories: the role of dimension six operators, Daniele Barducci, Enrico Bertuzzo, JHEP 06 (2022) 077, arXiv:2201.11754.
[Barducci:2022hll]
[23-112]
A radiative seesaw model in a supersymmetric modular $A_4$ group, Takaaki Nomura, Hiroshi Okada, arXiv:2201.10244, 2022.
[Nomura:2022hxs]
[23-113]
LHC signatures of sterile neutrinos in a minimal radiative extended seesaw framework, Sudhanwa Patra, Utkarsh Patel, Purushottam Sahu, Int.J.Mod.Phys.A 2150263 (2021) S0217751, arXiv:2201.07441.
[Patra:2022sbn]
[23-114]
Reconciling LSND and super-Kamiokande data through the dynamical Lorentz symmetry breaking in a four-Majorana fermion model, Y. M. P. Gomes, M. J. Neves, Phys.Rev.D 106 (2022) 015013, arXiv:2201.05652.
[Gomes:2022ekc]
[23-115]
One-loop Matching of the Type-II Seesaw Model onto the Standard Model Effective Field Theory, Xu Li, Di Zhang, Shun Zhou, JHEP 04 (2022) 038, arXiv:2201.05082.
[Li:2022ipc]
[23-116]
Neutrino seesaw models at one-loop matching: Discrimination by effective operator, Yong Du, Xu-Xiang Li, Jiang-Hao Yu, JHEP 09 (2022) 207, arXiv:2201.04646.
[Du:2022vso]
[23-117]
Improving heavy Dirac neutrino prospects at future hadron colliders using machine learning, Jie Feng, Mingqiu Li, Qi-Shu Yan, Yu-Pan Zeng, Hong-Hao Zhang, Yongchao Zhang, Zhijie Zhao, arXiv:2112.15312, 2021.
[2112.15312]
[23-118]
MH-Octant-CPV entanglement, vacuum alignment of $ A_{4} $ flavour symmetry, and $0\nu\beta\beta$ decay in an inverse seesaw model, Maibam Ricky Devi, Kalpana Bora, Mod.Phys.Lett.A 37 (2022) 2250073, arXiv:2112.13004.
[Devi:2021aaz]
[23-119]
Shedding Flavor on Dark via Freeze-in: $U(1)_{B-3L_i}$ Gauged Extensions, Basabendu Barman, Purusottam Ghosh, Anish Ghoshal, Lopamudra Mukherjee, JCAP 08 (2022) 049, arXiv:2112.12798.
[Barman:2021yaz]
[23-120]
Flavor Seesaw, Sudip Jana, Sophie Klett, Manfred Lindner, Phys.Rev.D 105 (2022) 115015, arXiv:2112.09155.
[Jana:2021tlx]
[23-121]
Hot New Early Dark Energy: Towards a Unified Dark Sector of Neutrinos, Dark Energy and Dark Matter, Florian Niedermann, Martin S. Sloth, Phys.Lett.B 835 (2022) 137555, arXiv:2112.00759.
[Niedermann:2021ijp]
[23-122]
Predestined Dark Matter Varieties in the Simplest Left-Right Model, Talal Ahmed Chowdhury, Shaaban Khalil, Ernest Ma, Nucl.Phys.B 978 (2022) 115778, arXiv:2111.13044.
[Chowdhury:2021kzl]
[23-123]
Type-III see-saw: Search for triplet fermions in final states with multiple leptons and fat-jets at 13 TeV LHC, Saiyad Ashanujjaman, Kirtiman Ghosh, Phys.Lett.B 825 (2022) 136889, arXiv:2111.07949.
[Ashanujjaman:2021zrh]
[23-124]
A full parametrization of the $9\times 9$ active-sterile flavor mixing matrix in the inverse or linear seesaw scenario of massive neutrinos, He-chong Han, Zhi-zhong Xing, Nucl.Phys.B 973 (2021) 115609, arXiv:2110.12705.
[Han:2021qum]
[23-125]
Lepton flavor violation in the Littlest Higgs Model with T parity realizing an inverse seesaw, Ivan Pacheco, Pablo Roig, JHEP 02 (2022) 054, arXiv:2110.03711.
[Pacheco:2021djh]
[23-126]
Heavy singly charged Higgs bosons and inverse seesaw neutrinos as origins of large $(g-2)_{e,\mu}$ in two higgs doublet models, L. T. Hue, A. E. Carcamo Hernandez, H. N. Long, T. T.Hong, Nucl.Phys.B 984 (2022) 115962, arXiv:2110.01356.
[Hue:2021xzl]
[23-127]
Testing left-right symmetry with inverse seesaw at the LHC, Mathew Thomas Arun, Tanumoy Mandal, Subhadip Mitra, Ananya Mukherjee, Lakshmi Priya, Adithya Sampath, Phys.Rev.D 105 (2022) 115007, arXiv:2109.09585.
[ThomasArun:2021rwf]
[23-128]
An explanation of experimental data of $(g-2)_{e,\mu}$ in 3-3-1 models with inverse seesaw neutrinos, L. T. Hue, Khiem Hong Phan, T. Phong Nguyen, H. N. Long, H. T. Hung, Eur.Phys.J.C 82 (2022) 722, arXiv:2109.06089.
[Hue:2021zyw]
[23-129]
Linear seesaw model with a modular $S_4$ flavor symmetry, Takaaki Nomura, Hiroshi Okada, Chin.Phys.C 46 (2022) 053101, arXiv:2109.04157.
[Nomura:2021ewm]
[23-130]
The $\mu\to e\gamma$ decay in an EW-scale non-sterile RH neutrino model, D. N. Dinh, Eur.Phys.J.C 82 (2022) 295, arXiv:2108.12613.
[Dinh:2021fmt]
[23-131]
Revisiting Type-II see-saw: Present Limits and Future Prospects at LHC, Saiyad Ashanujjaman, Kirtiman Ghosh, JHEP 03 (2022) 195, arXiv:2108.10952.
[Ashanujjaman:2021txz]
[23-132]
Loop-corrected Higgs Masses in the NMSSM with Inverse Seesaw Mechanism, Thi Nhung Dao, Margarete Muhlleitner, Anh Vu Phan, Eur.Phys.J.C 82 (2022) 667, arXiv:2108.10088.
[Dao:2021vqp]
[23-133]
Nucleon decay in a minimal non-SUSY GUT with predicted quark-lepton Yukawa ratios, Stefan Antusch, Kevin Hinze, Nucl.Phys.B 976 (2022) 115719, arXiv:2108.08080.
[Antusch:2021yqe]
[23-134]
Displaced Higgs production in Type-III Seesaw at the LHC/FCC, MATHUSLA and Muon collider, Chandrima Sen, Priyotosh Bandyopadhyay, Saunak Dutta, Aleesha KT, Eur.Phys.J.C 82 (2022) 230, arXiv:2107.12442.
[Sen:2021fha]
[23-135]
Experimentally Verifiable $U(1)_{\rm B-L}$ Symmetric Model with Type-II Seesaw and Dark Matter, Purusottam Ghosh, Satyabrata Mahapatra, Nimmala Narendra, Narendra Sahu, Harish-Chandra Research Institute, India, Indian Institute of Technology Hyderabad, India, Physical Research Laboratory, India, Phys.Rev.D 106 (2022) 015001, arXiv:2107.11951.
[Ghosh:2021khk]
[23-136]
Flavour and CP symmetries in the inverse seesaw, C. Hagedorn, J. Kriewald, J. Orloff, A. M. Teixeira, Eur.Phys.J.C 82 (2022) 194, arXiv:2107.07537.
[Hagedorn:2021ldq]
[23-137]
Gauged Inverse Seesaw from Dark Matter, Asmaa Abada, Nicolas Bernal, Antonio E. Carcamo Hernandez, Xabier Marcano, Gioacchino Piazza, Eur.Phys.J.C 81 (2021) 758, arXiv:2107.02803.
[Abada:2021yot]
[23-138]
Extension of Hyperchargeless Higgs Triplet Model, Pritam Das, Mrinal Kumar Das, Najimuddin Khan, Phys.Rev.D 104 (2021) 095026, arXiv:2107.01578.
[Das:2021qqr]
[23-139]
A new texture of neutrino mass matrix with three constraints, Radha Raman Gautam, Sanjeev Kumar, Phys.Lett.B 820 (2021) 136504, arXiv:2107.01526.
[Gautam:2021own]
[23-140]
Confronting the inverse seesaw mechanism with the recent muon g-2 result, Joao Paulo Pinheiro, C. A. de S. Pires, Farinaldo S. Queiroz, Yoxara S. Villamizar, Phys.Lett.B 823 (2021) 136764, arXiv:2107.01315.
[Pinheiro:2021mps]
[23-141]
Inflation and type III seesaw mechanism in $\nu$-gauge mediated supersymmetry breaking, Shinsuke Kawai, Nobuchika Okada, Phys.Rev.D 104 (2021) 115031, arXiv:2107.01263.
[Kawai:2021gap]
[23-142]
TeV-scale Lepton Number Violation: Connecting Leptogenesis, Neutrinoless Double Beta Decay, and Colliders, Julia Harz, Michael J. Ramsey-Musolf, Tianyang Shen, Sebastian Urrutia-Quiroga, arXiv:2106.10838, 2021.
[Harz:2021psp]
[23-143]
Inverse Seesaw, dark matter and the Hubble tension, Enrique Fernandez-Martinez, Mathias Pierre, Emanuelle Pinsard, Salvador Rosauro-Alcaraz, Eur.Phys.J.C 81 (2021) 954, arXiv:2106.05298.
[Fernandez-Martinez:2021ypo]
[23-144]
Inverse Seesaw Model with a Modular $S^{}_4$ Symmetry: Lepton Flavor Mixing and Warm Dark Matter, Xinyi Zhang, Shun Zhou, JCAP 09 (2021) 043, arXiv:2106.03433.
[Zhang:2021olk]
[23-145]
Effect of large light-heavy neutrino mixing and natural type-II seesaw dominance to lepton flavor violation and neutrinoless double beta decay, Nitali Dash, Sudhanwa Patra, Prativa Pritimita, Urjit A. Yajnik, Eur.Phys.J.C 82 (2022) 847, arXiv:2105.11795.
[Dash:2021pbx]
[23-146]
An extended 3-3-1 model with radiative linear seesaw mechanism, A. E. Carcamo Hernandez, Sergey Kovalenko, Farinaldo S. Queiroz, Yoxara S. Villamizar, Phys.Lett.B 829 (2022) 137082, arXiv:2105.01731.
[CarcamoHernandez:2021tlv]
[23-147]
Radiative Seesaw Dark Matter, Ernest Ma, Valentina De Romeri, Phys.Rev.D 104 (2021) 055004, arXiv:2105.00552.
[Ma:2021eko]
[23-148]
Displaced Neutrino Jets at the LHeC, Giovanna Cottin, Oliver Fischer, Sanjoy Mandal, Manimala Mitra, Rojalin Padhan, JHEP 06 (2022) 168, arXiv:2104.13578.
[Cottin:2021tfo]
[23-149]
The simplest scoto-seesaw model: WIMP dark matter phenomenology and Higgs vacuum stability, Sanjoy Mandal, Rahul Srivastava, Jose W. F. Valle, Phys.Lett. B819 (2021) 136458, arXiv:2104.13401.
[Mandal:2021yph]
[23-150]
Impact of texture zeros on dark matter and neutrinoless double beta decay in inverse seesaw, Nayana Gautam, Mrinal Kumar Das, Nucl.Phys.B 971 (2021) 115519, arXiv:2104.13071.
[Gautam:2021vhf]
[23-151]
CP violating dark photon kinetic mixing and Type-III Seesaw, Yu Cheng, Xiao-Gang He, Michael J. Ramsey-Musolf, Jin Sun, Phys.Rev.D 105 (2022) 095010, arXiv:2104.11563.
[Cheng:2021qbl]
[23-152]
Quasi-Dirac neutrinos in the linear seesaw model, Carolina Arbelaez, Claudio Dib, Kevin Monsalvez-Pozo, Ivan Schmidt, JHEP 07 (2021) 154, arXiv:2104.08023.
[Arbelaez:2021chf]
[23-153]
Neutrino Masses, Leptonic Flavor Mixing and Muon $(g-2)$ in the Seesaw Model with the $U(1)^{}_{L^{}_\mu-L^{}_\tau}$ Gauge Symmetry, Shun Zhou, Chin.Phys.C 46 (2022) 011001, arXiv:2104.06858.
[Zhou:2021vnf]
[23-154]
$\boldsymbol{(g-2)_{e,\mu}}$ in an extended inverse type-III seesaw, Pablo Escribano, Jorge Terol-Calvo, Avelino Vicente, Phys.Rev. D103 (2021) 115018, arXiv:2104.03705.
[Escribano:2021css]
[23-155]
Imprint of seesaw on FIMP dark matter and baryon asymmetry, Arghyajit Datta, Rishav Roshan, Arunansu Sil, Phys.Rev.Lett. 127 (2021) 231801, arXiv:2104.02030.
[Datta:2021elq]
[23-156]
Seesaw determination of the dark matter relic density, Rupert Coy, Aritra Gupta, Thomas Hambye, Phys.Rev.D 104 (2021) 083024, arXiv:2104.00042.
[Coy:2021sse]
[23-157]
A Model of Muon Anomalies, Admir Greljo, Peter Stangl, Anders Eller Thomsen, Phys.Lett.B 820 (2021) 136554, arXiv:2103.13991.
[Greljo:2021xmg]
[23-158]
A radiatively induced inverse seesaw model with hidden $U(1)$ gauge symmetry, Takaaki Nomura, Hiroshi Okada, Prasenjit Sanyal, Eur.Phys.J.C 82 (2022) 697, arXiv:2103.09494.
[Nomura:2021adf]
[23-159]
New constraints on radiative seesaw models from IceCube and other neutrino detectors, T. de Boer, R. Busse, A. Kappes, M. Klasen, S. Zeinstra, Phys.Rev. D103 (2021) 123006, arXiv:2103.06881.
[deBoer:2021xjs]
[23-160]
Searching for heavy neutrino in terms of tau lepton at future hadron collider, Chengcheng Han, Tong Li, Chang-Yuan Yao, Phys.Rev.D 104 (2021) 015036, arXiv:2103.03548.
[Han:2021pun]
[23-161]
Freeze-In Dark Matter within the Seesaw mechanism, Michele Lucente, Phys.Lett.B 846 (2023) 138206, arXiv:2103.03253.
[Lucente:2021har]
[23-162]
Dynamical inverse seesaw mechanism as a simple benchmark for electroweak breaking and Higgs boson studies, Sanjoy Mandal, Jorge C. Romao, Rahul Srivastava, Jose W. F. Valle, JHEP 07 (2021) 029, arXiv:2103.02670.
[Mandal:2021acg]
[23-163]
Electron and Muon Anomalous Magnetic Moments in the Inverse Seesaw Extended NMSSM, Junjie Cao, Yangle He, Jingwei Lian, Di Zhang, Pengxuan Zhu, Phys.Rev.D 104 (2021) 055009, arXiv:2102.11355.
[Cao:2021lmj]
[23-164]
$\tilde\nu$ contributions to electron and muon EDM in an Inverse Seesaw Mechanism, J.S. Alvarado, R. Martinez, arXiv:2102.10227, 2021.
[Alvarado:2021qmn]
[23-165]
Type-III Seesaw: Phenomenological Implications of the Information Lost in Decoupling from High-Energy to Low-Energy, Saiyad Ashanujjaman, Kirtiman Ghosh, Phys.Lett. B819 (2021) 136403, arXiv:2102.09536.
[Ashanujjaman:2021jhi]
[23-166]
Dark Matter in the Type Ib Seesaw Model, Marco Chianese, Bowen Fu, Stephen F. King, JHEP 2105 (2021) 129, arXiv:2102.07780.
[Chianese:2021toe]
[23-167]
Rare Kaon Decay to Missing Energy: Implications of the NA62 Result for a $Z^\prime$ Model, Tessio B. de Melo, Sergey Kovalenko, Farinaldo S. Queiroz, C. Siqueira, Yoxara S. Villamizar, Phys.Rev. D103 (2021) 115001, arXiv:2102.06262.
[deMelo:2021ers]
[23-168]
Resolving a challenging supersymmetric low-scale seesaw scenario at the ILC, J. Masias, N. Cerna-Velazco, J. Jones-Perez, W. Porod, Phys.Rev. D103 (2021) 115028, arXiv:2102.06236.
[Masias:2021uga]
[23-169]
CP Asymmetries and Higher-Order Unitarity Relations, Tomas Blazek, Peter Matak, Phys.Rev. D103 (2021) L091302, arXiv:2102.05914.
[Blazek:2021olf]
[23-170]
Radiative Decays of Charged Leptons in the Seesaw Effective Field Theory with One-loop Matching, Di Zhang, Shun Zhou, Phys.Lett.B 819 (2021) 136463, arXiv:2102.04954.
[Zhang:2021tsq]
[23-171]
Scalar Dark Matter in an Inverse Seesaw Model with A_4 Discrete Flavor Symmetry, Rishu Verma, Monal Kashav, Surender Verma, B. C. Chauhan, PTEP 2021 (2021) 123B01, arXiv:2102.03074.
[Verma:2021koo]
[23-172]
SU(5) unification of two triplet seesaw and leptogenesis with dark matter and vacuum stability, Mina Ketan Parida, Riyanka Samantaray, Nucl.Phys.B 970 (2021) 115484, arXiv:2102.01605.
[Parida:2021wmd]
[23-173]
Probing the doubly-charged Higgs with Muonium to Antimuonium Conversion Experiment, Chengcheng Han, Da Huang, Jian Tang, Yu Zhang, Phys.Rev. D103 (2021) 055023, arXiv:2102.00758.
[Han:2021nod]
[23-174]
Neutrinoless double beta decays tell nature of right-handed neutrinos, Takehiko Asaka, Hiroyuki Ishida, Kazuki Tanaka, JHEP 07 (2023) 062, arXiv:2101.12498.
[Asaka:2021hkg]
[23-175]
Search for Heavy Neutral Higgs Boson in Left-Right Model with Inverse-Seesaw at the LHC, M. Ashry, K. Ezzat, S. Khalil, Phys.Rev.D 104 (2021) 015016, arXiv:2101.08255.
[Ezzat:2021bzs]
[23-176]
The Genuine Type-V Seesaw Model: Phenomenological Introduction, Saiyad Ashanujjaman, Kirtiman Ghosh, JHEP 2106 (2021) 084, arXiv:2012.15609.
[Ashanujjaman:2020tuv]
[23-177]
Extraction of neutrino Yukawa parameters from displaced vertices of sneutrinos, Amit Chakraborty, Stefano Moretti, Claire H. Shepherd-Themistocleous, Harri Waltari, JHEP 2106 (2021) 027, arXiv:2012.14034.
[Chakraborty:2020cpa]
[23-178]
Prospects of gravitational waves in the minimal left-right symmetric model, Mingqiu Li, Qi-Shu Yan, Yongchao Zhang, Zhijie Zhao, JHEP 2103 (2021) 267, arXiv:2012.13686.
[Li:2020eun]
[23-179]
Neutrino masses and gravitational wave background, Takehiko Asaka, Hisashi Okui, Phys.Lett. B814 (2021) 136074, arXiv:2012.13527.
[Asaka:2020wcr]
[23-180]
What if a specific neutrinoless double beta decay is absent, Takehiko Asaka, Hiroyuki Ishida, Kazuki Tanaka, PTEP 2021 (2021) 063B01, arXiv:2012.13186.
[Asaka:2020lsx]
[23-181]
Hiding neutrinoless double beta decay in the minimal seesaw mechanism, Takehiko Asaka, Hiroyuki Ishida, Kazuki Tanaka, Phys.Rev. D103 (2021) 015014, arXiv:2012.12564.
[Asaka:2020wfo]
[23-182]
Neutrino lines from DM decay induced by high-scale seesaw interactions, Rupert Coy, Thomas Hambye, JHEP 2105 (2021) 101, arXiv:2012.05276.
[Coy:2020wxp]
[23-183]
Minimal inverse-seesaw mechanism with Abelian flavour symmetries, H. B. Camara, R. G. Felipe, F. R. Joaquim, JHEP 2105 (2021) 021, arXiv:2012.04557.
[Camara:2020efq]
[23-184]
Low energy phenomena of the lepton sector in an $A_4$ symmetry model with heavy inverse seesaw neutrinos, T. Phong Nguyen, T.T. Thuc, D.T. Si, T.T.Hong, L. T. Hue, PTEP 2022 (2022) 2, arXiv:2011.12181.
[Nguyen:2020ehj]
[23-185]
Dark Matter candidates in a Type-II radiative neutrino mass model, Roberto A. Lineros, Mathias Pierre, JHEP 2106 (2021) 072, arXiv:2011.08195.
[Lineros:2020eit]
[23-186]
The see-saw portal at future Higgs Factories, Daniele Barducci, Enrico Bertuzzo, Andrea Caputo, Pilar Hernandez, Barbara Mele, JHEP 2103 (2021) 117, arXiv:2011.04725.
[Barducci:2020icf]
[23-187]
Alternative dark matter phenomenology in a general $U(1)_X$ extension of the Standard Model, Arindam Das, Kazuki Enomoto, Shinya Kanemura, arXiv:2011.04537, 2020.
[Das:2020rxn]
[23-188]
Probing Discerning Signatures of SM and Various Seesaw Models at $e^-e^-$ Collider, Priyotosh Bandyopadhyay, Anirban Karan, arXiv:2011.04191, 2020.
[Bandyopadhyay:2020mnp]
[23-189]
Majorana Neutrinos in Same-Sign $W^\pm W^\pm$ Scattering at the LHC: Breaking the TeV Barrier, Benjamin Fuks, Jonas Neundorf, Krisztian Peters, Richard Ruiz, Matthias Saimpert, Phys.Rev. D103 (2021) 055005, arXiv:2011.02547.
[Fuks:2020att]
[23-190]
Charged Lepton Flavor Violation in SU(5) SUSY GUT and MSSM + Type-I Seesaw Model, Devidutta Gahan, Ng. K. Francis, arXiv:2010.16393, 2020.
[Gahan:2020svx]
[23-191]
Five-zero texture in neutrino-dark matter model within the framework of minimal extended seesaw, Pritam Das, Mrinal Kumar Das, Najimuddin Khan, Nucl.Phys.B 980 (2022) 115810, arXiv:2010.13084.
[Das:2020vca]
[23-192]
A two-Higgs doublet solution to the LSND, MiniBooNE and muon $g-2$ anomalies, Waleed Abdallah, Raj Gandhi, Samiran Roy, Phys.Rev.D 104 (2021) 055028, arXiv:2010.06159.
[Abdallah:2020vgg]
[23-193]
Radiative seesaw corrections and charged-lepton decays in a model with soft flavour violation, E.H. Aeikens, P.M. Ferreira, W. Grimus, D. Jurciukonis, L. Lavoura, JHEP 2012 (2020) 122, arXiv:2009.13479.
[Aeikens:2020acn]
[23-194]
Radiative decays of charged leptons as constraints of unitarity polygons for active-sterile neutrino mixing and CP violation, Zhi-zhong Xing, Di Zhang, Eur.Phys.J. C80 (2020) 1134, arXiv:2009.09717.
[Xing:2020ivm]
[23-195]
Connecting Low scale Seesaw for Neutrino Mass and Inelastic sub-GeV Dark Matter with Abelian Gauge Symmetry, Debasish Borah, Satyabrata Mahapatra, Narendra Sahu, Nucl.Phys. B968 (2021) 115407, arXiv:2009.06294.
[Borah:2020smw]
[23-196]
Singlet-Doublet Majorana Dark Matter and Neutrino Mass in a minimal Type-I Seesaw Scenario, Subhaditya Bhattacharya, Manoranjan Dutta, Purusottam Ghosh, Narendra Sahu, JCAP 2103 (2021) 008, arXiv:2009.00885.
[Dutta:2020xwn]
[23-197]
Baryon and Lepton Number Violation from Gravitational Waves, Bartosz Fornal, Barmak Shams Es Haghi, Phys.Rev. D102 (2020) 115037, arXiv:2008.05111.
[Fornal:2020esl]
[23-198]
Associated Higgs boson production with $Z$ boson in the minimal $U(1)_X$ extended Standard Model, Arindam Das, Nobuchika Okada, Nucl.Phys.B 990 (2023) 116159, arXiv:2008.04023.
[Das:2020rsr]
[23-199]
Deep learnig analysis of the inverse seesaw in a 3-3-1 model at the LHC, D. Cogollo, F. F. Freitas, C. A. de S. Pires, Yohan M. Oviedo-Torres, P. Vasconcelos, Phys.Lett. B811 (2020) 135931, arXiv:2008.03409.
[Cogollo:2020afo]
[23-200]
A quantitative study on helicity inversion in Majorana neutrino decays at the LHC, Richard Ruiz, Phys.Rev. D103 (2020) 015022, arXiv:2008.01092.
[Ruiz:2020cjx]
[23-201]
A Dark Seesaw Solution to Low Energy Anomalies: MiniBooNE, the muon $(g-2)$, and BaBar, Asli Abdullahi, Matheus Hostert, Silvia Pascoli, Phys.Lett.B 820 (2021) 136531, arXiv:2007.11813.
[Abdullahi:2020nyr]
[23-202]
$\nu$ Electroweak Baryogenesis, E. Fernandez-Martinez, J. Lopez-Pavon, T. Ota, S. Rosauro-Alcaraz, JHEP 2010 (2020) 063, arXiv:2007.11008.
[Fernandez-Martinez:2020szk]
[23-203]
A radiative seesaw model linking to XENON1T anomaly, Jongkuk Kim, Takaaki Nomura, Hiroshi Okada, Phys.Lett. B811 (2020) 135862, arXiv:2007.09894.
[Kim:2020aua]
[23-204]
Relaxing Cosmological Neutrino Mass Bounds with Unstable Neutrinos, Miguel Escudero, Jacobo Lopez-Pavon, Nuria Rius, Stefan Sandner, JHEP 2012 (2020) 119, arXiv:2007.04994.
[Escudero:2020ped]
[23-205]
Multi-charged TeV scale scalars and fermions in the framework of a radiative seesaw model, Avnish, Kirtiman Ghosh, arXiv:2007.01766, 2020.
[Avnish:2020rhx]
[23-206]
The effective field theory of low scale see-saw at colliders, Anke Biekotter, Mikael Chala, Michael Spannowsky, Eur.Phys.J. C80 (2020) 743, arXiv:2007.00673.
[Biekotter:2020tbd]
[23-207]
Lepton Number Violating Electron Recoils at XENON1T by the $U(1)_{B-L}$ Model with Non-Standard Interactions, Yu Gao, Tianjun Li, arXiv:2006.16192, 2020.
[Lin:2020kfn]
[23-208]
Bounds on the triplet fermions in type-III seesaw and implications for collider searches, Arindam Das, Sanjoy Mandal, Nucl.Phys. B966 (2021) 115374, arXiv:2006.04123.
[Das:2020uer]
[23-209]
The case for decaying spin-3/2 dark matter, Marcos A. G. Garcia, Yann Mambrini, Keith A. Olive, Sarunas Verner, Phys.Rev. D102 (2020) 083533, arXiv:2006.03325.
[Garcia:2020hyo]
[23-210]
Non-thermal production of lepton asymmetry and dark matter in minimal seesaw with right handed neutrino induced Higgs potential, Rome Samanta, Anirban Biswas, Sukannya Bhattacharya, JCAP 2101 (2021) 055, arXiv:2006.02960.
[Samanta:2020gdw]
[23-211]
Testing triplet fermions at the electron-positron and electron-proton colliders using fat jet signatures, Arindam Das, Sanjoy Mandal, Tanmoy Modak, Phys.Rev. D102 (2020) 033001, arXiv:2005.02267.
[Das:2020gnt]
[23-212]
Hidden Patterns within the Yukawa Couplings of the Higgs boson, M. A. Arroyo-Urena, J. Lorenzo Diaz-Cruz, Phys.Lett. B810 (2020) 135799, arXiv:2005.01153.
[Arroyo-Urena:2020fkt]
[23-213]
Seesaw neutrino dark matter by freeze-out, Carlos Jaramillo, Manfred Lindner, Werner Rodejohann, JCAP 2104 (2021) 023, arXiv:2004.12904.
[Jaramillo:2020dde]
[23-214]
Strong CP violation: problem or blessing?, Goran Senjanovic, Vladimir Tello, Int.J.Mod.Phys.A 38 (2023) 2350067, arXiv:2004.04036.
[Senjanovic:2020int]
[23-215]
Dirac neutrinos in the seesaw mechanism. Dirac lepton number violation, Igor T. Dyatlov, Phys.Atom.Nucl. 83 (2020) 480-487, arXiv:2004.02272.
[Dyatlov:2020vmc]
[23-216]
Charged Lepton Flavor Violating processes in Neutrinophilic Higgs+Seesaw model, Naoyuki Haba, Tsuneharu Omija, Toshifumi Yamada, PTEP 2020 (2020) 073B08, arXiv:2004.01896.
[Haba:2020lqv]
[23-217]
General neutrino mass spectrum and mixing properties in seesaw mechanisms, Wojciech Flieger, Janusz Gluza, Chin.Phys. C45 (2021) 023106, arXiv:2004.00354.
[Flieger:2020lbg]
[23-218]
Resolving Hubble Tension by Self-Interacting Neutrinos with Dirac Seesaw, Hong-Jian He, Yin-Zhe Ma, Jiaming Zheng, JCAP 2011 (2020) 003, arXiv:2003.12057.
[He:2020zns]
[23-219]
One-loop Type II Seesaw Neutrino Model with Stable Dark Matter Candidates, M. A. Loualidi, M. Miskaoui, Nucl.Phys. B961 (2020) 115219, arXiv:2003.11434.
[Loualidi:2020jlj]
[23-220]
Minimal flavor violation in the see-saw portal, Daniele Barducci, Enrico Bertuzzo, Andrea Caputo, Pilar Hernandez, JHEP 2006 (2020) 185, arXiv:2003.08391.
[Barducci:2020ncz]
[23-221]
LFV and g-2 in non-universal SUSY models with light higgsinos, Chengcheng Han, M.L. Lopez-Ibanez, Aurora Melis, Oscar Vives, Lei Wu, Jin Min Yang, JHEP 2005 (2020) 102, arXiv:2003.06187.
[Han:2020exx]
[23-222]
Data Driven Flavour Model, F. Arias-Aragon, C. Bouthelier-Madre, J.M. Cano, L. Merlo, Eur.Phys.J. C80 (2020) 854, arXiv:2003.05941.
[Arias-Aragon:2020bzy]
[23-223]
$\Delta(27)$ framework for cobimaximal mixing models, A. E. Carcamo Hernandez, Ivo de Medeiros Varzielas, Phys.Lett. B806 (2020) 135491, arXiv:2003.01134.
[CarcamoHernandez:2020udg]
[23-224]
Confronting Grand Unification with Lepton Flavour Violation, Dark Matter and LHC Data, J. Ellis, M.E. Gomez, S. Lola, R. Ruiz de Austri, Q. Shafi, JHEP 2009 (2020) 197, arXiv:2002.11057.
[Ellis:2020jfc]
[23-225]
Flavoured CP-asymmetry at the effective neutrino mass floor, Nimmala Narendra, Narendra Sahu, S. Uma Sankar, Nucl.Phys. B962 (2021) 115268, arXiv:2002.08753.
[Narendra:2020hoz]
[23-226]
Verifiable type-II seesaw and dark matter in a gauged $U(1)_{B-L}$ model, Satyabrata Mahapatra, Nimmala Narendra, Narendra Sahu, arXiv:2002.07000, 2020.
[Mahapatra:2020dgk]
[23-227]
Probing the Seesaw Mechanism with Cosmological data, J. G. Rodrigues, Micol Benetti, Marcela Campista, Jailson Alcaniz, JCAP 2007 (2020) 007, arXiv:2002.05154.
[Rodrigues:2020dod]
[23-228]
Two-loop radiative seesaw, LFV, muon $g-2$, and dark matter, Chuan-Hung Chen, Takaaki Nomura, JHEP 09 (2021) 090, arXiv:2001.07515.
[Chen:2020ptg]
[23-229]
Realization of the minimal extended seesaw mechanism and $TM_2$ type neutrino mixing in the light of $A_4\times C_4$ symmetry group, R. Krishnan, Ananya Mukherjee, Srubabati Goswami, JHEP 2009 (2020) 050, arXiv:2001.07388.
[Krishnan:2020xeq]
[23-230]
Dark matter, neutrino mass and baryogenesis in the radiative seesaw model, Pritam Das, Mrinal Kumar Das, Najimuddin Khan, Nucl.Phys. B964 (2021) 115307, arXiv:2001.04070.
[Das:2020hpd]
[23-231]
An economical 3-3-1 model with linear seesaw mechanism, A. E. Carcamo Hernandez, L.T. Hue, Sergey Kovalenko, H. N. Long, Eur.Phys.J.Plus 136 (2021) 1158, arXiv:2001.01748.
[CarcamoHernandez:2020pnh]
[23-232]
Anomalous Muon Magnetic Moment in the Inverse Seesaw Extended Next-to-Minimal Supersymmetric Standard Model, Junjie Cao, Jingwei Lian, Lie Meng, Yuanfang Yue, Pengxuan Zhu, Phys.Rev. D101 (2020) 095009, arXiv:1912.10225.
[Cao:2019evo]
[23-233]
Composite Higgs bosons from neutrino condensates in an inverted see-saw scenario, Leonardo Coito, Carlos Faubel, Arcadi Santamaria, Phys.Rev. D101 (2020) 075009, arXiv:1912.10001.
[Coito:2019wte]
[23-234]
Search for Long-Lived Heavy Neutrinos at the LHC with a VBF Trigger, J. Jones-Perez, J. Masias, J. D. Ruiz-Alvarez, Eur.Phys.J. C80 (2020) 642, arXiv:1912.08206.
[Jones-Perez:2019plk]
[23-235]
Type-I Seesaw with eV-Scale Neutrinos, G. C. Branco, J. T. Penedo, Pedro M. F. Pereira, M. N. Rebelo, J. I. Silva-Marcos, JHEP 2007 (2020) 164, arXiv:1912.05875.
[Branco:2020yvs]
[23-236]
Quark Condensate Seesaw Mechanism for Neutrino Mass, A. Babic, S. G. Kovalenko, M. I. Krivoruchenko, F. Simkovic, Phys.Rev. D103 (2021) 015007, arXiv:1911.12189.
[Babic:2019zqu]
[23-237]
Global Bounds on the Type-III Seesaw, Carla Biggio, Enrique Fernandez-Martinez, Manuele Filaci, Josu Hernandez-Garcia, Jacobo Lopez-Pavon, JHEP 2005 (2020) 022, arXiv:1911.11790.
[Biggio:2019eeo]
[23-238]
Displaced Vertex and Disappearing Track Signatures in type-III Seesaw, Sudip Jana, Nobuchika Okada, Digesh Raut, Eur.Phys.J.C 82 (2022) 927, arXiv:1911.09037.
[Jana:2020qzn]
[23-239]
Neutrino mass and dark matter from an approximate $B-L$ symmetry, Duong Van Loi, Phung Van Dong, Dang Van Soa, JHEP 2005 (2020) 090, arXiv:1911.04902.
[VanLoi:2019eax]
[23-240]
Inverse see-saw neutrino masses in the Littlest Higgs model with T-parity, Francisco del Aguila, Jose Ignacio Illana, Jose Maria Perez-Poyatos, Jose Santiago, JHEP 1912 (2019) 154, arXiv:1910.09569.
[DelAguila:2019xec]
[23-241]
Explaining the AMS positron excess via Right-handed Neutrinos, Farinaldo S. Queiroz, Clarissa Siqueira, Phys.Rev. D101 (2020) 075007, arXiv:1910.04782.
[Queiroz:2019syq]
[23-242]
Radiative type-I seesaw neutrino masses, Carolina Arbelaez, A. E. Carcamo Hernandez, Ricardo Cepedello, Martin Hirsch, Sergey Kovalenko, Phys.Rev. D100 (2019) 115021, arXiv:1910.04178.
[Arbelaez:2019wyz]
[23-243]
Dirac neutrinos from Peccei-Quinn symmetry: a fresh look at the axion, Eduardo Peinado, Mario Reig, Rahul Srivastava, Jose W. F. Valle, Mod.Phys.Lett. A35 (2020) 2050176, arXiv:1910.02961.
[Peinado:2019mrn]
[23-244]
Associated production of SM Higgs with a photon in type-II seesaw models at the ILC, A. Arhrib, R. Benbrik, L. Rahili, Eur.Phys.J. C79 (2019) 940, arXiv:1909.07793.
[Rahili:2019ixf]
[23-245]
Phenomenological Study of Type II Seesaw with $\Delta(27)$ Symmetry, Itishree Sethi, Sudhanwa Patra, J.Phys.G 48 (2021) 105003, arXiv:1909.01560.
[Sethi:2019bfu]
[23-246]
Electroweak Breaking and Higgs Boson Profile in the Simplest Linear Seesaw Model, Duarte Fontes, Jorge C. Romao, Jose W. F. Valle, arXiv:1908.09587, 2019.
[Fontes:2019jwf]
[23-247]
$keV$ scale dark matter, baryogenesis and neutrinoless double beta decay in minimal extended seesaw, Pritam Das, Mrinal Kumar Das, Int.J.Mod.Phys. A35 (2020) 2050125, arXiv:1908.08417.
[Das:2019kmn]
[23-248]
Elegant solutions to the 96 GeV diphoton excess in the seesaw extensions of the natural NMSSM, Junjie Cao, Xinglong Jia, Yuanfang Yue, Haijing Zhou, Pengxuan Zhu, Phys.Rev. D101 (2020) 055008, arXiv:1908.07206.
[Cao:2019ofo]
[23-249]
Type III Seesaw for Neutrino Masses in $U(1)_{B-L}$ Model with Multi-component Dark Matter, Anirban Biswas, Debasish Borah, Dibyendu Nanda, JHEP 1912 (2019) 109, arXiv:1908.04308.
[Biswas:2019ygr]
[23-250]
Lepton-Trijet and Displaced Vertex Searches for Heavy Neutrinos at Future Electron-Proton Colliders, Stefan Antusch, Oliver Fischer, A. Hammad, JHEP 2003 (2020) 110, arXiv:1908.02852.
[Antusch:2019eiz]
[23-251]
Fermion masses and mixings and some phenomenological aspects of a 3-3-1 model with linear seesaw mechanism, A. E. Carcamo Hernandez, Nicolas A. Perez-Julve, Yocelyne Hidalgo Velasquez, Phys.Rev. D100 (2019) 095025, arXiv:1907.13083.
[CarcamoHernandez:2019iwh]
[23-252]
Double type-II Dirac seesaw accompanied by Dirac fermionic dark matter, Pei-Hong Gu, Phys.Lett.B 821 (2021) 136605, arXiv:1907.11557.
[Gu:2019ird]
[23-253]
A Supersymmetric Theory of Baryogenesis and Sterile Sneutrino Dark Matter from B Mesons, Gonzalo Alonso-Alvarez, Gilly Elor, Ann E. Nelson, Huangyu Xiao, JHEP 2003 (2020) 046, arXiv:1907.10612.
[Alonso-Alvarez:2019fym]
[23-254]
Study of a tri-direct littlest seesaw model at MOMENT, Jian Tang, TseChun Wang, Nucl.Phys. B952 (2020) 114915, arXiv:1907.01371.
[Tang:2019edw]
[23-255]
An Axion-Like Particle from an $SO(10)$ Seesaw with $U(1)_{B-L}$, Claudio Coriano, Paul H. Framptom, Alessandro Tatullo, Dimosthenis Theofilopoulos, Phys.Lett. B802 (2020) 135273, arXiv:1906.05810.
[Coriano:2019vjl]
[23-256]
Dark matter and flavor changing in the flipped 3-3-1 model, D. T. Huong, D. N. Dinh, L. D. Thien, Phung Van Dong, JHEP 1908 (2019) 051, arXiv:1906.05240.
[Huong:2019vej]
[23-257]
Inverse Seesaw and Portal Dark Matter, Chakrit Pongkitivanichkul, Nakorn Thongyoi, Patipan Uttayarat, Phys.Rev. D100 (2019) 035034, arXiv:1905.13224.
[Pongkitivanichkul:2019cvm]
[23-258]
Type-I Seesaw as the Common Origin of Neutrino Mass, Baryon Asymmetry, and the Electroweak Scale, Vedran Brdar, Alexander J. Helmboldt, Sho Iwamoto, Kai Schmitz, Phys.Rev. D100 (2019) 075029, arXiv:1905.12634.
[Brdar:2019iem]
[23-259]
Hidden relations in three generation seesaw model with Dirac mass matrix of four-zero texture, Takuya Morozumi, Yusuke Shimizu, Hiroyuki Umeeda, Akihiro Yuu, Phys.Lett. B799 (2019) 135046, arXiv:1905.11747.
[Morozumi:2019jrm]
[23-260]
Measuring the heavy neutrino oscillations in rare W boson decays at the Large Hadron Collider, Gorazd Cvetic, Arindam Das, Sebastian Tapia, Jilberto Zamora-Saa, J.Phys. G47 (2020) 015001, arXiv:1905.03097.
[Cvetic:2019rms]
[23-261]
Heavy Neutral Leptons from low-scale seesaws at the DUNE Near Detector, Peter Ballett, Tommaso Boschi, Silvia Pascoli, JHEP 2003 (2020) 111, arXiv:1905.00284.
[Ballett:2019bgd]
[23-262]
Constraining a general U(1)$^\prime$ inverse seesaw model from vacuum stability, dark matter and collider, Arindam Das, Srubabati Goswami, Vishnudath K. N., Takaaki Nomura, Phys.Rev. D101 (2020) 055026, arXiv:1905.00201.
[Das:2019pua]
[23-263]
Probing the Decoupled Seesaw Scalar in Rare Higgs Decay, Yu Gao, Mingjie Jin, Kechen Wang, JHEP 2002 (2020) 101, arXiv:1904.12325.
[Gao:2019tio]
[23-264]
On the Minimal Mixing of Heavy Neutrinos, Marco Drewes, arXiv:1904.11959, 2019.
[Drewes:2019mhg]
[23-265]
FIMP dark matter candidate(s) in a $B-L$ model with inverse seesaw mechanism, Waleed Abdallah, Sandhya Choubey, Sarif Khan, JHEP 1906 (2019) 095, arXiv:1904.10015.
[Abdallah:2019svm]
[23-266]
Viable low-scale model with Universal and Inverse Seesaw Mechanisms, A. E. Carcamo Hernandez, Juan Marchant Gonzalez, U. J. Saldana-Salazar, Phys.Rev. D100 (2019) 035024, arXiv:1904.09993.
[CarcamoHernandez:2019pmy]
[23-267]
Phenomenology of Higgs bosons in inverse seesaw model with Type-X two Higgs doublet at the LHC, Priyotosh Bandyopadhyay, Eung Jin Chun, Rusa Mandal, JHEP 1908 (2019) 169, arXiv:1904.09494.
[Bandyopadhyay:2019xfb]
[23-268]
Probing heavy neutrino mixing and associated CP violation at future hadron colliders, P. S. Bhupal Dev, Rabindra N. Mohapatra, Yongchao Zhang, JHEP 1911 (2019) 137, arXiv:1904.04787.
[BhupalDev:2019ljp]
[23-269]
Fits to Non-Supersymmetric SO(10) Models with Type I and II Seesaw Mechanisms Using Renormalization Group Evolution, Tommy Ohlsson, Marcus Pernow, JHEP 1906 (2019) 085, arXiv:1903.08241.
[Ohlsson:2019sja]
[23-270]
Lepton Flavor Violation and Collider Searches in a Type I + II Seesaw Model, Manoel M. Ferreira, Tessio B. de Melo, Sergey Kovalenko, Paulo R. D. Pinheiro, Farinaldo S. Queiroz, Eur.Phys.J. C79 (2019) 955, arXiv:1903.07634.
[Ferreira:2019qpf]
[23-271]
Consistency of minimal dark matter completions of type-I seesaw, Sanjoy Mandal, Rahul Srivastava, Jose W. F. Valle, Phys.Rev. D101 (2020) 115030, arXiv:1903.03631.
[Mandal:2019ndp]
[23-272]
Scalar phenomenology in type-II seesaw model, R. Primulando, J. Julio, P. Uttayarat, JHEP 1908 (2019) 024, arXiv:1903.02493.
[Primulando:2019evb]
[23-273]
Doubly-charged Higgs Boson at Future Electron-Proton Collider, P. S. Bhupal Dev, Sarif Khan, Manimala Mitra, Santosh Kumar Rai, Phys.Rev. D99 (2019) 115015, arXiv:1903.01431.
[Dev:2019hev]
[23-274]
Impact of leptonic unitary and Xenon-1T experiment on sneutrino DM physics in the NMSSM with Inverse-Seesaw mechanism, Junjie Cao, Yangle He, Lei Meng, Yusi Pan, Yuanfang Yue, Pengxuan Zhu, JHEP 2012 (2020) 023, arXiv:1903.01124.
[Cao:2019aam]
[23-275]
Natural quark mixing and inverse seesaw in a left-right model with an axion, Alex G. Dias, Julio Leite, JHEP 1905 (2019) 078, arXiv:1902.08235.
[Dias:2019ezk]
[23-276]
Symmergent Gravity, Seesawic New Physics, and their Experimental Signatures, Durmus Demir, Adv.High Energy Phys. 2019 (2019) 4652048, arXiv:1901.07244.
[Demir:2019imw]
[23-277]
Probing the seesaw mechanism at the 250 GeV ILC, Arindam Das, Nobuchika Okada, Satomi Okada, Digesh Raut, Phys.Lett.B 797 (2019) 134849, arXiv:1812.11931.
[Das:2018tbd]
[23-278]
Representing seesaw neutrino models and their motion in lepton flavour space, Pasquale Di Bari, Michele Re Fiorentin, Rome Samanta, JHEP 1905 (2019) 011, arXiv:1812.07720.
[DiBari:2018fvo]
[23-279]
Theory and Phenomenology of Two Higgs Doublet Type-II Seesaw Model at the LHC Run-2, Brahim Ait Ouazghour, Abdesslam Arhrib, Rachid Benbrik, Mohamed Chabab, Larbi Rahili, Phys.Rev. D100 (2019) 035031, arXiv:1812.07719.
[Ouazghour:2018mld]
[23-280]
Disentangling Seesaw in the Minimal Left-Right Symmetric Model, Goran Senjanovic, Vladimir Tello, Phys.Rev. D100 (2019) 115031, arXiv:1812.03790.
[Senjanovic:2018xtu]
[23-281]
Effective approach to lepton observables: the seesaw case, Rupert Coy, Michele Frigerio, Phys.Rev. D99 (2019) 095040, arXiv:1812.03165.
[Coy:2018bxr]
[23-282]
Investigating two heavy neutral leptons neutrino seesaw mechanism at SHiP, Marco Chianese, Damiano F. G. Fiorillo, Gennaro Miele, Stefano Morisi, Int.J.Mod.Phys. A34 (2019) 1950047, arXiv:1812.01994.
[Chianese:2018agp]
[23-283]
Heavy Majorana Neutrino Production at Future $ep$ Colliders, Shi-Yuan Li, Zong-Guo Si, Xing-Hua Yang, Phys.Lett. B795 (2019) 49-55, arXiv:1811.10313.
[Li:2018wut]
[23-284]
A highly predictive and testable $A_{4}$ flavor model within type-I+II seesaw framework and associated phenomenology, Surender Verma, Monal Kashav, Shankita Bhardwaj, Nucl.Phys. B946 (2019) 114704, arXiv:1811.06249.
[Verma:2018lro]
[23-285]
Low scale type II seesaw: Present constraints and prospects for displaced vertex searches, Stefan Antusch, Oliver Fischer, A. Hammad, Christiane Scherb, JHEP 1902 (2019) 157, arXiv:1811.03476.
[Antusch:2018svb]
[23-286]
Combining texture zeros with a remnant CP symmetry in the minimal type-I seesaw, D. M. Barreiros, R. G. Felipe, F. R. Joaquim, JHEP 1901 (2019) 223, arXiv:1810.05454.
[Barreiros:2018bju]
[23-287]
Fermion Mass Hierarchy and Double Seesaw Mechanism in a 3-3-1 Model with an Axion, A. G. Dias, J. Leite, D. D. Lopes, C. C. Nishi, Phys.Rev. D98 (2018) 115017, arXiv:1810.01893.
[Dias:2018ddy]
[23-288]
Low Scale Left-Right Symmetry and Naturally Small Neutrino Mass, Vedran Brdar, Alexei Yu. Smirnov, JHEP 1902 (2019) 045, arXiv:1809.09115.
[Brdar:2018sbk]
[23-289]
High Scale Type-II Seesaw, Dominant $W_L-W_L$ Channel Double Beta Decay within Cosmological Bound and Verifiable LFV Decays in SU(5), M. K. Parida, Rajesh Satpathy, Adv.High Energy Phys. 2019 (2019) 3572862, arXiv:1809.06612.
[Parida:2018apw]
[23-290]
Pati-Salam explanations of the B-meson anomalies, Julian Heeck, Daniele Teresi, JHEP 1812 (2018) 103, arXiv:1808.07492.
[Heeck:2018ntp]
[23-291]
Cutoff of IceCube Neutrino Spectrum due to t-channel Resonant Absorption by C$\nu$B, Subhendra Mohanty, Ashish Narang, Soumya Sadhukhan, JCAP 1903 (2019) 041, arXiv:1808.01272.
[Mohanty:2018cmq]
[23-292]
Fitting high-energy Littlest Seesaw parameters using low-energy neutrino data and leptogenesis, Stephen F. King, Susana Molina Sedgwick, Samuel J. Rowley, JHEP 1810 (2018) 184, arXiv:1808.01005.
[King:2018fqh]
[23-293]
Displaced vertex signatures of doubly charged scalars in the type-II seesaw and its left-right extensions, P. S. Bhupal Dev, Yongchao Zhang, JHEP 1810 (2018) 199, arXiv:1808.00943.
[BhupalDev:2018tox]
[23-294]
Simplest Scoto-Seesaw Mechanism, Nicolas Rojas, Rahul Srivastava, Jose W. F. Valle, Phys.Lett. B789 (2019) 132-136, arXiv:1807.11447.
[Rojas:2018wym]
[23-295]
Tri-Direct CP in the Littlest Seesaw Playground, Gui-Jun Ding, Stephen F. King, Cai-Chang Li, JHEP 1812 (2018) 003, arXiv:1807.07538.
[Ding:2018fyz]
[23-296]
A Bayesian analysis of sneutrino DM in the NMSSM with Type-I seesaw mechanism, Junjie Cao, Xiaofei Guo, Yusi Pan, Liangliang Shang, Yuanfang Yue, Phys.Rev. D99 (2019) 115033, arXiv:1807.03762.
[Cao:2018iyk]
[23-297]
Neutrino masses, cosmological inflation and dark matter in a $U(1)_{B-L}$ model with type II seesaw mechanism, J. G. Rodrigues, A. C. O. Santos, J. G. Ferreira Jr, C. A. de S. Pires, Chin.Phys. C45 (2021) 025110, arXiv:1807.02204.
[Rodrigues:2018jpv]
[23-298]
Probing seesaw scale with gravitational waves, Nobuchika Okada, Osamu Seto, Phys.Rev. D98 (2018) 063532, arXiv:1807.00336.
[Okada:2018xdh]
[23-299]
Doubly-Charged Scalars in the Type-II Seesaw Mechanism: Fundamental Symmetry Tests and High-Energy Searches, P. S. Bhupal Dev, Michael J. Ramsey-Musolf, Yongchao Zhang, Phys.Rev. D98 (2018) 055013, arXiv:1806.08499.
[Dev:2018sel]
[23-300]
Study Standard Model and Majorana Neutrino Contributions to $B^{+} \to K^{(*)\pm}\mu^+\mu^{\mp}$, Hong-lei Li, Peng-cheng Lu, Cong-feng Qiao, Zong-guo Si, Ying Wang, Chin.Phys. C43 (2019) 023101, arXiv:1806.03786.
[Li:2018pag]
[23-301]
Dark side of the Seesaw, Subhaditya Bhattacharya, Ivo de Medeiros Varzielas, Biswajit Karmakar, Stephen F. King, Arunansu Sil, JHEP 1812 (2018) 007, arXiv:1806.00490.
[Bhattacharya:2018ljs]
[23-302]
Inverse seesaw and dark matter in a gauged ${\rm B-L}$ extension with flavour symmetry, Anirban Biswas, Sandhya Choubey, Sarif Khan, JHEP 1808 (2018) 062, arXiv:1805.00568.
[Biswas:2018yus]
[23-303]
Type II Seesaw with scalar dark matter in light of AMS-02, DAMPE and Fermi-LAT, Tong Li, Nobuchika Okada, Qaisar Shafi, Phys.Rev. D98 (2018) 055002, arXiv:1804.09835.
[Li:2018abw]
[23-304]
Natural and Dynamical Neutrino Mass Mechanism at the LHC, Julia Gehrlein, Dorival Goncalves, Pedro A. N. Machado, Yuber F. Perez-Gonzalez, Phys.Rev. D98 (2018) 035045, arXiv:1804.09184.
[Gehrlein:2018sdk]
[23-305]
Seesaw Scale, Unification, and Proton Decay, Pavel Fileviez Perez, Axel Gross, Clara Murgui, Phys.Rev. D98 (2018) 035032, arXiv:1804.07831.
[FileviezPerez:2018dyf]
[23-306]
Displaced vertex signature of type-I seesaw, Sudip Jana, Nobuchika Okada, Digesh Raut, Phys.Rev. D98 (2018) 035023, arXiv:1804.06828.
[Jana:2018rdf]
[23-307]
Probing the sterile neutrino portal to Dark Matter with $\gamma$ rays, Miguel G. Folgado, German A. Gomez-Vargas, Nuria Rius, Roberto Ruiz de Austri, JCAP 1808 (2018) 002, arXiv:1803.08934.
[Folgado:2018qlv]
[23-308]
Dark Matter and The Scale for Lepton Number Violation, Pavel Fileviez Perez, Clara Murgui, Phys.Rev. D98 (2018) 055008, arXiv:1803.07462.
[FileviezPerez:2018toq]
[23-309]
Probing the Type-II Seesaw Mechanism through the Production of Higgs Bosons at a Lepton Collider, Pankaj Agrawal, Manimala Mitra, Saurabh Niyogi, Sujay Shil, Michael Spannowsky, Phys.Rev. D98 (2018) 015024, arXiv:1803.00677.
[Agrawal:2018pci]
[23-310]
Numerical estimate of minimal active-sterile neutrino mixing for sterile neutrinos at GeV scale, Igor Krasnov, Timofey Grigorin-Ryabov, EPJ Web Conf. 191 (2018) 03003, arXiv:1802.04728.
[Krasnov:2018odt]
[23-311]
Type II Seesaw and tau lepton at the HL-LHC, HE-LHC and FCC-hh, Tong Li, JHEP 1809 (2018) 079, arXiv:1802.00945.
[Li:2018jns]
[23-312]
Decay of standard model-like Higgs boson $h\rightarrow \mu\tau$ in a 3-3-1 model with inverse seesaw neutrino masses, T. Phong Nguyen, T.Thuy Le, T.T. Hong, L.T. Hue, Phys.Rev. D97 (2018) 073003, arXiv:1802.00429.
[Nguyen:2018rlb]
[23-313]
Cosmologically Viable Low-energy Supersymmetry Breaking, Anson Hook, Robert McGehee, Hitoshi Murayama, Phys.Rev. D98 (2018) 115036, arXiv:1801.10160.
[Hook:2018sai]
[23-314]
NA62 sensitivity to heavy neutral leptons in the low scale seesaw model, Marco Drewes, Jan Hajer, Juraj Klaric, Gaia Lanfranchi, JHEP 1807 (2018) 105, arXiv:1801.04207.
[Drewes:2018gkc]
[23-315]
Challenging Sterile Neutrino Searches at the LHC Complemented by Jet Substructure Techniques, Akanksha Bhardwaj, Arindam Das, Partha Konar, Arun Thalapillil, J.Phys. G47 (2020) 075002, arXiv:1801.00797.
[Bhardwaj:2018lma]
[23-316]
Low-Scale Seesaw and the CP Violation in Neutrino Oscillations, J. T. Penedo, S. T. Petcov, T. Yanagida, Nucl.Phys. B929 (2018) 377-396, arXiv:1712.09922.
[Penedo:2017knr]
[23-317]
Radiative Seesaw Model and DAMPE Excess from Leptophilic Gauge Symmetry, Zhi-Long Han, Weijian Wang, Ran Ding, Eur.Phys.J. C78 (2018) 216, arXiv:1712.05722.
[Han:2017ars]
[23-318]
Non-universal Z' from SO(10) GUTs with vector-like family and the origin of neutrino masses, Stefan Antusch, Christian Hohl, Steve F. King, Vasja Susic, Nucl.Phys. B934 (2018) 578-605, arXiv:1712.05366.
[Antusch:2017tud]
[23-319]
SU(5)$\times$U(1)$_X$ grand unification with minimal seesaw and $Z^\prime$-portal dark matter, Nobuchika Okada, Satomi Okada, Digesh Raut, Phys.Lett. B780 (2018) 422-426, arXiv:1712.05290.
[Okada:2017dqs]
[23-320]
Fermion Masses and Mixings and Dark Matter Constraints in a Model with Radiative Seesaw Mechanism, Nicolas Bernal, A. E. Carcamo Hernandez, Ivo de Medeiros Varzielas, Sergey Kovalenko, JHEP 1805 (2018) 053, arXiv:1712.02792.
[Bernal:2017xat]
[23-321]
Radiative seesaw models linking to dark matter candidates inspired by the DAMPE excess, Takaaki Nomura, Hiroshi Okada, Phys.Dark Univ. 21 (2018) 90-95, arXiv:1712.00941.
[Nomura:2017ohi]
[23-322]
Scalar dark matter, Type II Seesaw and the DAMPE cosmic ray $e^+ + e^-$ excess, Tong Li, Nobuchika Okada, Qaisar Shafi, Phys.Lett. B779 (2018) 130-135, arXiv:1712.00869.
[Li:2017tmd]
[23-323]
Can One have Significant Deviations from Leptonic $3\times 3$ Unitarity in the Framework of Type I Seesaw Mechanism?, Nuno Rosa Agostinho, G. C. Branco, Pedro M. F. Pereira, M. N. Rebelo, J. I. Silva-Marcos, Eur.Phys.J. C78 (2018) 895, arXiv:1711.06229.
[Agostinho:2017wfs]
[23-324]
Revisiting the high-scale validity of Type-II seesaw model with novel LHC signature, Dilip Kumar Ghosh, Nivedita Ghosh, Ipsita Saha, Avirup Shaw, Phys.Rev. D97 (2018) 115022, arXiv:1711.06062.
[Ghosh:2017pxl]
[23-325]
Multicomponent Dark Matter in Radiative Seesaw Models, Mayumi Aoki, Daiki Kaneko, Jisuke Kubo, Front.in Phys. 5 (2017) 53, arXiv:1711.03765.
[Aoki:2017eqn]
[23-326]
Common Origin of Non-zero $\theta_{13}$ and Baryon Asymmetry of the Universe in a TeV scale Seesaw Model with $A_4$ Flavour Symmetry, Debasish Borah, Mrinal Kumar Das, Ananya Mukherjee, Phys.Rev. D97 (2018) 115009, arXiv:1711.02445.
[Borah:2017qdu]
[23-327]
Enhanced pair production of heavy Majorana neutrinos at LHC, Arindam Das, Nobuchika Okada, Digesh Raut, Phys.Rev. D97 (2018) 115023, arXiv:1710.03377.
[Das:2017flq]
[23-328]
Gauged $L_\mu$-$L_\tau$ Model with an Inverse Seesaw Mechanism for Neutrino Masses, Abhish Dev, arXiv:1710.02878, 2017.
[Dev:2017fdz]
[23-329]
Jet substructure shedding light on heavy Majorana neutrinos at the LHC, Arindam Das, Partha Konar, Arun Thalapillil, JHEP 1802 (2018) 083, arXiv:1709.09712.
[Das:2017gke]
[23-330]
Cold light dark matter in extended seesaw models, Sami Boulebnane, Julian Heeck, Anne Nguyen, Daniele Teresi, JCAP 1804 (2018) 006, arXiv:1709.07283.
[Boulebnane:2017fxw]
[23-331]
Same Sign vs Opposite Sign Dileptons as a Probe of Low Scale Seesaw Mechanisms, Arindam Das, P. S. Bhupal Dev, Rabindra N. Mohapatra, Phys.Rev. D97 (2018) 015018, arXiv:1709.06553.
[Das:2017hmg]
[23-332]
Exploring the supersymmetric U(1)$_{B-L} \times$ U(1)$_{R}$ model with dark matter, muon $g-2$ and $Z^\prime$ mass limits, Mariana Frank, Ozer Ozdal, Phys.Rev. D97 (2018) 015012, arXiv:1709.04012.
[Frank:2017ohg]
[23-333]
Towards the minimal seesaw model via CP violation of neutrinos, Yusuke Shimizu, Kenta Takagi, Morimitsu Tanimoto, JHEP 1711 (2017) 201, arXiv:1709.02136.
[Shimizu:2017fgu]
[23-334]
$A_4$ realization of Linear Seesaw and Neutrino Phenomenology, M. Sruthilaya, Rukmani Mohanta, Sudhanwa Patra, Eur.Phys.J. C78 (2018) 719, arXiv:1709.01737.
[Sruthilaya:2017mzt]
[23-335]
Explaining Dark Matter and Neutrino Mass in the light of TYPE-II SeeSaw Model, Anirban Biswas, Avirup Shaw, JCAP 1802 (2018) 029, arXiv:1709.01099.
[Biswas:2017dxt]
[23-336]
LHC Run I Bounds on Minimal Lepton Flavour Violation in Type-III See-saw: A Case Study, Nuno Rosa Agostinho, O.J.P. Eboli, M.C. Gonzalez-Garcia, JHEP 1711 (2017) 118, arXiv:1708.08456.
[Agostinho:2017biv]
[23-337]
Probing sterile neutrinos in the framework of inverse-seesaw through leptoquark productions, Debottam Das, Kirtiman Ghosh, Manimala Mitra, Subhadeep Mondal, Phys.Rev. D97 (2018) 015024, arXiv:1708.06206.
[Das:2017kkm]
[23-338]
Non-unitarity lepton mixing in an inverse seesaw and its impact on the physics potential of long-baseline experiments, Soumya C, Rukmani Mohanta, arXiv:1708.05372, 2017.
[C:2017scx]
[23-339]
Dark Matter and the elusive $\mathbf{Z'}$ in a dynamical Inverse Seesaw scenario, Valentina De Romeri, Enrique Fernandez-Martinez, Julia Gehrlein, Pedro A. N. Machado, Viviana Niro, JHEP 1710 (2017) 169, arXiv:1707.08606.
[DeRomeri:2017oxa]
[23-340]
Are the B-anomalies evidence for heavy neutrinos?, Xiao-Gang He, German Valencia, arXiv:1706.07570, 2017.
[He:2017osj]
[23-341]
Dominant light-heavy neutrino mixing contribution to $0\nu\beta\beta$ in minimal left-right symmetric model with universal seesaw, Debasish Borah, Arnab Dasgupta, Sudhanwa Patra, Int.J.Mod.Phys. A33 (2018) 1850198, arXiv:1706.02456.
[Borah:2017ldt]
[23-342]
The Effects of Majorana Phases in Estimating the Masses of Neutrinos, Ng. K. Francis, Int.J.Mod.Phys.Conf.Ser. 47 (2018) 1860100, arXiv:1705.08288.
[Francis:2017ibw]
[23-343]
Constraining sleptons at the LHC in a supersymmetric low-scale seesaw scenario, Nhell Cerna-Velazco, Thomas Faber, Joel Jones-Perez, Werner Porod, Eur.Phys.J. C77 (2017) 661, arXiv:1705.06583.
[Cerna-Velazco:2017cmn]
[23-344]
Golden Littlest Seesaw, Gui-Jun Ding, Stephen F. King, Cai-Chang Li, Nucl.Phys. B925 (2017) 470-499, arXiv:1705.05307.
[Ding:2017hdv]
[23-345]
A highly predictive $A_{4}$ flavour 3-3-1 model with radiative inverse seesaw mechanism, A. E. Carcamo Hernandez, H. N. Long, J.Phys. G45 (2018) 045001, arXiv:1705.05246.
[CarcamoHernandez:2017kra]
[23-346]
The seesaw portal in testable models of neutrino masses, A. Caputo, P. Hernandez, J. Lopez-Pavon, J. Salvado, JHEP 06 (2017) 112, arXiv:1704.08721.
[Caputo:2017pit]
[23-347]
Indirect Detection of Neutrino Portal Dark Matter, Brian Batell, Tao Han, Barmak Shams Es Haghi, Phys.Rev.D 97 (2018) 095020, arXiv:1704.08708.
[Batell:2017rol]
[23-348]
Loop induced type-II seesaw model and GeV dark matter with $U(1)_{B-L}$ gauge symmetry, Takaaki Nomura, Hiroshi Okada, Phys.Lett. B774 (2017) 575-581, arXiv:1704.08581.
[Nomura:2017emk]
[23-349]
Linking axion-like dark matter to neutrino masses, C. D. R. Carvajal, B. L. Sanchez-Vega, O. Zapata, Phys.Rev. D96 (2017) 115035, arXiv:1704.08340.
[Carvajal:2017gjj]
[23-350]
Scale of left-right symmetry, Ravi Kuchimanchi, arXiv:1704.07249, 2017.
[Kuchimanchi:2017bfm]
[23-351]
Generation of radiative neutrino mass in the linear seesaw framework, charged lepton flavor violation and dark matter, Arindam Das, Takaaki Nomura, Hiroshi Okada, Sourov Roy, Phys.Rev. D96 (2017) 075001, arXiv:1704.02078.
[Das:2017ski]
[23-352]
Heavy Neutrino Search via the Higgs boson at the LHC, Arindam Das, Yu Gao, Teruki Kamon, Eur.Phys.J. C79 (2019) 424, arXiv:1704.00881.
[Das:2017rsu]
[23-353]
Constraining Sterile Neutrinos from Precision Higgs Data, Arindam Das, P. S. Bhupal Dev, C. S. Kim, Phys.Rev. D95 (2017) 115013, arXiv:1704.00880.
[Das:2017zjc]
[23-354]
LHC Signals for Singlet Neutrinos from a Natural Warped Seesaw (II), Kaustubh Agashe, Peizhi Du, Sungwoo Hong, Phys.Rev. D97 (2018) 075033, arXiv:1703.07763.
[Agashe:2017ann]
[23-355]
Common Origin of Non-zero $\theta_{13}$ and Dark Matter in an $S_4$ Flavour Symmetric Model with Inverse Seesaw, Ananya Mukherjee, Debasish Borah, Mrinal Kumar Das, Phys.Rev. D96 (2017) 015014, arXiv:1703.06750.
[Mukherjee:2017pzq]
[23-356]
The $\nu$THDM with the Inverse Seesaw Mechanisms, Yi-Lei Tang, Shou-hua Zhu, Phys.Rev. D96 (2017) 055022, arXiv:1703.04439.
[Tang:2017owe]
[23-357]
Majoron dark matter from a spontaneous inverse seesaw model, N. Rojas, R. A. Lineros, F. Gonzalez-Canales, arXiv:1703.03416, 2017.
[Rojas:2017sih]
[23-358]
Long Lived Light Scalars as Probe of Low Scale Seesaw Models, P. S. Bhupal Dev, Rabindra N. Mohapatra, Yongchao Zhang, Nucl.Phys. B923 (2017) 179-221, arXiv:1703.02471.
[Dev:2017dui]
[23-359]
Lepton flavor violating Higgs boson decays in seesaw models: new discussions, N.H. Thao, L.T. Hue, H.T. Hung, N.T. Xuan, Nucl.Phys. B921 (2017) 159-180, arXiv:1703.00896.
[Thao:2017qtn]
[23-360]
Naturalness in testable type II seesaw scenarios, P. S. Bhupal Dev, Clara Miralles Vila, Werner Rodejohann, Nucl.Phys. B921 (2017) 436-453, arXiv:1703.00828.
[Dev:2017ouk]
[23-361]
Muon g-2 in an Alternative Quasi-Yukawa Unification with Low Fine-Tuned Inverse SeeSaw Mechanism, Zafer Altin, Ozer Ozdal, Cem Salih Un, Phys.Rev. D97 (2018) 055007, arXiv:1703.00229.
[Altin:2017sxx]
[23-362]
Direct searches of Type III seesaw triplet fermions at high energy $e^+e^-$ collider, Deepanjali Goswami, P. Poulose, Eur.Phys.J. C78 (2018) 42, arXiv:1702.07215.
[Goswami:2017jqs]
[23-363]
Unification with Vector-like fermions and signals at LHC, Biplob Bhattacherjee, Pritibhajan Byakti, Ashwani Kushwaha, Sudhir K Vempati, JHEP 1805 (2018) 090, arXiv:1702.06417.
[Bhattacherjee:2017cxh]
[23-364]
Bounds on heavy Majorana neutrinos in type-I seesaw and implications for collider searches, Arindam Das, Nobuchika Okada, Phys.Lett. B774 (2017) 32-40, arXiv:1702.04668.
[Das:2017nvm]
[23-365]
Universal Seesaw and $0\nu\beta\beta$ in new 3331 left-right symmetric model, Debasish Borah, Sudhanwa Patra, Phys.Lett. B771 (2017) 318-326, arXiv:1701.08675.
[Borah:2017inr]
[23-366]
A flavor dependent gauge symmetry, Predictive radiative seesaw and LHCb anomalies, P. Ko, Takaaki Nomura, Hiroshi Okada, Phys.Lett. B772 (2017) 547-552, arXiv:1701.05788.
[Ko:2017quv]
[23-367]
Pair production of heavy neutrinos in next-to-leading order QCD at the hadron colliders in the inverse seesaw framework, Arindam Das, Int.J.Mod.Phys. A36 (2021) 2150012, arXiv:1701.04946.
[Das:2017pvt]
[23-368]
Neutrinoless Double Beta Decay in Left-Right Symmetry with Universal Seesaw, Frank F. Deppisch, Chandan Hati, Sudhanwa Patra, Prativa Pritimita, Utpal Sarkar, Phys.Rev. D97 (2018) 035005, arXiv:1701.02107.
[Deppisch:2017vne]
[23-369]
Scalegenesis via dynamically induced multiple seesaws, Hiroyuki Ishida, Shinya Matsuzaki, Shohei Okawa, Yuji Omura, Phys.Rev. D95 (2017) 075033, arXiv:1701.00598.
[Ishida:2017ehu]
[23-370]
The triple Higgs coupling: A new probe of low-scale seesaw models, Julien Baglio, Cedric Weiland, JHEP 1704 (2017) 038, arXiv:1612.06403.
[Baglio:2016bop]
[23-371]
Probing Seesaw with Parity Restoration, Goran Senjanovic, Vladimir Tello, Phys.Rev.Lett. 119 (2017) 201803, arXiv:1612.05503.
[Senjanovic:2016vxw]
[23-372]
LHC signals for Singlet Neutrinos from a Natural Warped Seesaw (I), Kaustubh Agashe, Peizhi Du, Sungwoo Hong, Phys.Rev. D97 (2018) 075032, arXiv:1612.04810.
[Agashe:2016ttz]
[23-373]
Large $\nu$-$\bar\nu$ Oscillations from High-Dimensional Lepton Number Violating Operator, Chao-Qiang Geng, Da Huang, JHEP 1703 (2017) 103, arXiv:1612.03721.
[Geng:2016auy]
[23-374]
Precision neutrino experiments vs the Littlest Seesaw, Peter Ballett, Stephen F. King, Silvia Pascoli, Nick W. Prouse, TseChun Wang, JHEP 1703 (2017) 110, arXiv:1612.01999.
[Ballett:2016yod]
[23-375]
Embedding cosmological inflation, axion dark matter and seesaw mechanism in a 3-3-1 gauge model, J. G. Ferreira, C. A de S. Pires, J. G. Rodrigues, P. S. Rodrigues da Silva, Phys.Lett. B771 (2017) 199-205, arXiv:1612.01463.
[Ferreira:2016uao]
[23-376]
The seesaw path to leptonic CP violation, A. Caputo, P. Hernandez, M. Kekic, J. Lopez-Pavon, J. Salvado, Eur.Phys.J. C77 (2017) 258, arXiv:1611.05000.
[Caputo:2016ojx]
[23-377]
Three-family left-right symmetry with low-scale seesaw mechanism, Mario Reig, Jose W. F. Valle, C. A. Vaquera-Araujo, JHEP 1705 (2017) 100, arXiv:1611.04571.
[Reig:2016vtf]
[23-378]
Phenomenological study of extended seesaw model for light sterile neutrino, Newton Nath, Monojit Ghosh, Srubabati Goswami, Shivani Gupta, JHEP 1703 (2017) 075, arXiv:1610.09090.
[Nath:2016mts]
[23-379]
Atomki anomaly and dark matter in a radiative seesaw model with gauged $B-L$ symmetry, Osamu Seto, Takashi Shimomura, Phys.Rev. D95 (2017) 095032, arXiv:1610.08112.
[Seto:2016pks]
[23-380]
An $A_4$ realization of inverse seesaw: neutrino masses, $\theta_{13}$ and leptonic non-unitarity, Biswajit Karmakar, Arunansu Sil, Phys.Rev. D96 (2017) 015007, arXiv:1610.01909.
[Karmakar:2016cvb]
[23-381]
Standard Model-Axion-Seesaw-Higgs Portal Inflation. Five problems of particle physics and cosmology solved in one stroke, Guillermo Ballesteros, Javier Redondo, Andreas Ringwald, Carlos Tamarit, JCAP 1708 (2017) 001, arXiv:1610.01639.
[Ballesteros:2016xej]
[23-382]
Search for a light charged Higgs in a two-Higgs-doublet type II seesaw model at the LHC, Chuan-Hung Chen, Takaaki Nomura, Phys.Lett. B767 (2017) 443-449, arXiv:1609.01874.
[Chen:2016xju]
[23-383]
Testing Type II Radiative Seesaw Model: from Dark Matter Detection to LHC Signatures, Shu-Yuan Guo, Zhi-Long Han, Yi Liao, Phys. Rev. D94 (2016) 115014, arXiv:1609.01018.
[Guo:2016dzl]
[23-384]
Naturalness and lepton number/flavor violation in inverse seesaw models, Naoyuki Haba, Hiroyuki Ishida, Yuya Yamaguchi, JHEP 1611 (2016) 003, arXiv:1608.07447.
[Haba:2016lxc]
[23-385]
Neutrinoless Double Beta Decay in LRSM with Natural Type-II seesaw Dominance, Prativa Pritimita, Nitali Dash, Sudhanwa Patra, JHEP 1610 (2016) 147, arXiv:1607.07655.
[Pritimita:2016fgr]
[23-386]
A Consistent Theory of Decaying Dark Matter Connecting IceCube to the Sesame Street, Marco Chianese, Alexander Merle, JCAP 1704 (2017) 017, arXiv:1607.05283.
[Chianese:2016smc]
[23-387]
Lepton flavor violating Z decays: A promising window to low scale seesaw neutrinos, V. De Romeri, M.J. Herrero, X. Marcano, F. Scarcella, Phys.Rev. D95 (2017) 075028, arXiv:1607.05257.
[DeRomeri:2016gum]
[23-388]
Dark matter and observable Lepton Flavour Violation, Lucien Heurtier, Daniele Teresi, Phys. Rev. D94 (2016) 125022, arXiv:1607.01798.
[Heurtier:2016iac]
[23-389]
Rare meson decays with three pairs of quasi-degenerate heavy neutrinos, Jilberto Zamora-Saa, Gaston Moreno, Phys. Rev. D94 (2016) 093005, arXiv:1606.08820.
[Moreno:2016cfz]
[23-390]
The search for electroweak-scale right-handed neutrinos and mirror charged leptons through like-sign dilepton signals, Shreyashi Chakdar, K. Ghosh, V. Hoang, P. Q. Hung, S. Nandi, Phys. Rev. D95 (2017) 015014, arXiv:1606.08502.
[Chakdar:2016adj]
[23-391]
Testable Baryogenesis in Seesaw Models, P. Hernandez, M. Kekic, J. Lopez-Pavon, J. Racker, J. Salvado, JHEP 1608 (2016) 157, arXiv:1606.06719.
[Hernandez:2016kel]
[23-392]
Charged Lepton flavour Violation and Neutrinoless Double Beta Decay in Left-Right Symmetric Models with Type I+II Seesaw, Debasish Borah, Arnab Dasgupta, JHEP 1607 (2016) 022, arXiv:1606.00378.
[Borah:2016iqd]
[23-393]
Global constraints on heavy neutrino mixing, Enrique Fernandez-Martinez, Josu Hernandez-Garcia, Jacobo Lopez-Pavon, JHEP 1608 (2016) 033, arXiv:1605.08774.
[Fernandez-Martinez:2016lgt]
[23-394]
Probing the Heavy Neutrinos of Inverse Seesaw Model at the LHeC, Subhadeep Mondal, Santosh Kumar Rai, Phys. Rev. D94 (2016) 033008, arXiv:1605.04508.
[Mondal:2016kof]
[23-395]
Maximal CP Violation in Minimal Seesaw Model, Teruyuki Kitabayashi, Masaki Yasue, Phys. Rev. D94 (2016) 075020, arXiv:1605.04402.
[Kitabayashi:2016zec]
[23-396]
TeV-scale Pseudo-Dirac Seesaw Mechanisms in an E$_6$ Inspired Model, Yi Cai, Jackson D. Clarke, Raymond R. Volkas, Tsutomu T. Yanagida, Phys. Rev. D94 (2016) 033003, arXiv:1605.02743.
[Cai:2016ymq]
[23-397]
Radiative Type III Seesaw Model and its collider phenomenology, Federico von der Pahlen, Guillermo Palacio, Diego Restrepo, Oscar Zapata, Phys. Rev. D94 (2016) 033005, arXiv:1605.01129.
[vonderPahlen:2016cbw]
[23-398]
New ambiguity in probing CP violation in neutrino oscillations, O. G. Miranda, M. Tortola, J. W. F. Valle, Phys. Rev. Lett. 117 (2016) 061804, arXiv:1604.05690.
[Miranda:2016wdr]
[23-399]
See-Saw scale discrete dark matter and two-zero texture Majorana neutrino mass matrices, J. M. Lamprea, E. Peinado, Phys. Rev. D94 (2016) 055007, arXiv:1603.02190.
[Lamprea:2016egz]
[23-400]
Particle production with L-R neutrino oscillation, Seishi Enomoto, Tomohiro Matsuda, Phys. Rev. D93 (2016) 063504, arXiv:1602.07454. 6 pages, no figure, to appear in PRD.
[Enomoto:2016uhx]
[23-401]
A see-saw scenario of an $A_4$ flavour symmetric standard model, Dinh Nguyen Dinh, Nguyen Anh Ky, Phi Quang Van, Nguyen Thi Hong Van, arXiv:1602.07437, 2016.
[Dinh:2016tuk]
[23-402]
Confronting a New Three-loop Seesaw Model with the 750 GeV Diphoton Excess, P. Ko, Takaaki Nomura, Hiroshi Okada, Yuta Orikasa, Phys. Rev. D94 (2016) 013009, arXiv:1602.07214.
[Ko:2016sxg]
[23-403]
Vacuum stability and naturalness in type-II seesaw, Naoyuki Haba, Hiroyuki Ishida, Nobuchika Okada, Yuya Yamaguchi, Eur.Phys.J. C76 (2016) 333, arXiv:1601.05217.
[Haba:2016zbu]
[23-404]
Direct detection of fermion dark matter in the radiative seesaw model, Alejandro Ibarra, Carlos E. Yaguna, Oscar Zapata, Phys. Rev. D93 (2016) 035012, arXiv:1601.01163.
[Ibarra:2016dlb]
[23-405]
LHC 750 GeV Diphoton excess in a radiative seesaw model, Shinya Kanemura et al., PTEP 2016 (2016) 123B04, arXiv:1512.09048.
[Kanemura:2015bli]
[23-406]
Oscillating Asymmetric Sneutrino Dark Matter from the Maximally $U(1)_L$ Supersymmetric Inverse Seesaw, Shao-Long Chen, Zhaofeng Kang, Phys.Lett. B761 (2016) 296-302, arXiv:1512.08780.
[Chen:2015yuz]
[23-407]
Naturalness in Type II seesaw model and implications for physical scalars, Mohamed Chabab, Michel Capdequi-Peyranere, Larbi Rahili, Phys. Rev. D93 (2016) 115021, arXiv:1512.07280.
[Chabab:2015nel]
[23-408]
Warped Seesaw is Physically Inverted, Kaustubh Agashe, Sungwoo Hong, Luca Vecchi, Phys. Rev. D94 (2016) 013001, arXiv:1512.06742.
[Agashe:2015izu]
[23-409]
LHC diphoton excess explained as a heavy scalar in top-seesaw model, Archil Kobakhidze, Fei Wang, Lei Wu, Jin Min Yang, Mengchao Zhang, Phys.Lett. B757 (2016) 92-96, arXiv:1512.05585.
[Kobakhidze:2015ldh]
[23-410]
Neutrino phenomenology and scalar Dark Matter with $S_{4}$ flavor symmetry in Inverse and type II seesaw, Ananya Mukherjee, Mrinal Kumar Das, Nucl. Phys. B913 (2016) 643-663, arXiv:1512.02384.
[Mukherjee:2015axj]
[23-411]
Neutrinoless double beta decay in the left-right symmetric models for linear seesaw, Pei-Hong Gu, JHEP 1609 (2016) 152, arXiv:1512.01119.
[Gu:2015uek]
[23-412]
Electroweak breaking and neutrino mass: 'invisible' Higgs decays at the LHC (Type II seesaw), Cesar Bonilla, Jorge C. Romao, Jose W.F. Valle, New J. Phys. 18 (2016) 033033, arXiv:1511.07351.
[Bonilla:2015jdf]
[23-413]
Displaced lepton flavour violating signatures of right-handed sneutrinos in $U(1)'$ supersymmetric models, Priyotosh Bandyopadhyay, JHEP 1709 (2017) 052, arXiv:1511.03842.
[Bandyopadhyay:2015iij]
[23-414]
Improved bounds on the heavy neutrino productions at the LHC, Arindam Das, Nobuchika Okada, Phys. Rev. D93 (2016) 033003, arXiv:1510.04790.
[Das:2015toa]
[23-415]
Disambiguating Seesaw Models using Invariant Mass Variables at Hadron Colliders, P. S. Bhupal Dev, Doojin Kim, Rabindra N. Mohapatra, JHEP 01 (2016) 118, arXiv:1510.04328.
[Dev:2015kca]
[23-416]
Inflation due to a non-minimal coupling of singlet scalars in the radiative seesaw model, Romy H. S. Budhi, Shoichi Kashiwase, Daijiro Suematsu, Phys. Rev. D93 (2016) 013022, arXiv:1509.05841.
[Budhi:2015sha]
[23-417]
QCD Corrections to Pair Production of Type III Seesaw Leptons at Hadron Colliders, Richard Ruiz, JHEP 12 (2015) 165, arXiv:1509.05416.
[Ruiz:2015zca]
[23-418]
Muon Anomalous Magnetic Moment in SUSY B-L Model with Inverse Seesaw, Shaaban Khalil, Cem Salih Un, Phys.Lett. B763 (2016) 164-168, arXiv:1509.05391.
[Khalil:2015wua]
[23-419]
Fermion and scalar phenomenology of a 2-Higgs doublet model with $S_3$, A. E. Carcamo Hernandez, I. de Medeiros Varzielas, E. Schumacher, Phys. Rev. D93 (2016) 016003, arXiv:1509.02083.
[CarcamoHernandez:2015mkh]
[23-420]
Neutrinoless Double Beta Decay in Type I+II Seesaw Models, Debasish Borah, Arnab Dasgupta, JHEP 11 (2015) 208, arXiv:1509.01800.
[Borah:2015ufa]
[23-421]
The search for mirror quarks at the LHC, S. Chakdar, K. Ghosh, V. Hoang, P. Q. Hung, S. Nandi, Phys. Rev. D93 (2016) 035007, arXiv:1508.07318.
[Chakdar:2015sra]
[23-422]
Reconciling the 2 TeV Excesses at the LHC in a Linear Seesaw Left-Right Model, Frank F. Deppisch et al., Phys. Rev. D93 (2016) 013011, arXiv:1508.05940.
[Deppisch:2015cua]
[23-423]
Revisiting Allowed Two Zero Textures of Neutrino Mass Matrices through Linear and Inverse Seesaw, Roopam Sinha, Rome Samanta, Ambar Ghosal, Phys.Lett. B759 (2016) 206-213, arXiv:1508.05227.
[Sinha:2015ooa]
[23-424]
Exotic $\mu\tau j j$ events from heavy ISS neutrinos at the LHC, E. Arganda, M.J. Herrero, X. Marcano, C. Weiland, Phys. Lett. B752 (2016) 46-50, arXiv:1508.05074.
[Arganda:2015ija]
[23-425]
Seesaw mechanism at electron-electron colliders, Takehiko Asaka, Takanao Tsuyuki, Phys. Rev. D92 (2015) 094012, arXiv:1508.04937.
[Asaka:2015oia]
[23-426]
Enhancement of the LFV Higgs decay rates from SUSY loops in the Inverse Seesaw Model, E. Arganda, M.J. Herrero, X. Marcano, C. Weiland, Phys. Rev. D93 (2016) 055010, arXiv:1508.04623.
[Arganda:2015naa]
[23-427]
Lepton number asymmetry via inflaton decay in a modified radiative seesaw model, Shoichi Kashiwase, Daijiro Suematsu, Phys. Lett. B749 (2015) 603-612, arXiv:1507.06782.
[Kashiwase:2015yla]
[23-428]
Type-III Seesaw fermionic triplets at the International Linear Collider, Deepanjali Goswami, P. Poulose, arXiv:1507.04186, 2015.
[Goswami:2015ava]
[23-429]
Decay of $B^\pm \to \tau^\pm +$ 'missing momentum' and direct measurement of the mixing parameter $U_{\tau N}$, Gorazd Cvetic, C. S. Kim, Y.-J. Kwon, Y.-M. Yook, Phys. Rev. D93 (2016) 013003, arXiv:1507.03822.
[Cvetic:2015roa]
[23-430]
Neutrino Sector and Proton Lifetime in a Realistic SO(10) Model, Matthew Severson, Phys. Rev. D92 (2015) 095026, arXiv:1506.08468.
[Severson:2015dta]
[23-431]
Distinguishing Neutrino Mass Hierarchies using Dark Matter Annihilation Signals at IceCube, Rouzbeh Allahverdi, Bhaskar Dutta, Dilip Kumar Ghosh, Bradley Knockel, Ipsita Saha, JCAP 1512 (2015) 003, arXiv:1506.08285.
[Allahverdi:2015ssa]
[23-432]
Radiative Corrections to Light Neutrino Masses in Low Scale Type I Seesaw Scenarios and Neutrinoless Double Beta Decay, J. Lopez-Pavon, E. Molinaro, S. T. Petcov, JHEP 11 (2015) 030, arXiv:1506.05296.
[Lopez-Pavon:2015cga]
[23-433]
Lepton Number Violation within the Conformal Inverse Seesaw, Pascal Humbert, Manfred Lindner, Sudhanwa Patra, Juri Smirnov, JHEP 09 (2015) 064, arXiv:1505.07453.
[Humbert:2015yva]
[23-434]
Search for Heavy Right-Handed Neutrinos at the LHC and Beyond in the Same-Sign Leptons Final State, John N. Ng, Alejandro de la Puente, Bob Wei-Ping Pan, JHEP 12 (2015) 172, arXiv:1505.01934.
[Ng:2015hba]
[23-435]
CP violation in neutrino mixing with $\delta= -\pi/2$ in $A_4$ Type-II seesaw model, Xiao-Gang He, Guan-Nan Li, Phys. Lett. B750 (2015) 620-626, arXiv:1505.01932.
[Li:2015rtz]
[23-436]
On the description of non-unitary neutrino mixing, F. J. Escrihuela, D. V. Forero, O. G. Miranda, M. Tortola, J. W. F. Valle, Phys. Rev. D92 (2015) 053009, arXiv:1503.08879.
[Escrihuela:2015wra]
[23-437]
The $B-L$ Supersymmetric Standard Model with Inverse Seesaw at the Large Hadron Collider, S. Khalil, S. Moretti, Rept.Prog.Phys. 80 (2017) 036201, arXiv:1503.08162.
[Khalil:2015naa]
[23-438]
Prospects of Heavy Neutrino Searches at Future Lepton Colliders, Shankha Banerjee, P. S. Bhupal Dev, Alejandro Ibarra, Tanumoy Mandal, Manimala Mitra, Phys. Rev. D92 (2015) 075002, arXiv:1503.05491.
[Banerjee:2015gca]
[23-439]
Two Loop Radiative Seesaw and X-ray line Dark Matter with Global U(1) Symmetry, Hiroshi Okada, arXiv:1503.04557, 2015.
[Okada:2015nga]
[23-440]
Axion Like Particles and the Inverse Seesaw Mechanism, C. D. R. Carvajal, A. G. Dias, C. C. Nishi, B. L. Sanchez-Vega, JHEP 1505 (2015) 069, arXiv:1503.03502.
[Carvajal:2015dxa]
[23-441]
The Inverse Seesaw in Conformal Electro-Weak Symmetry Breaking and Phenomenological Consequences, Pascal Humbert, Manfred Lindner, Juri Smirnov, JHEP 1506 (2015) 035, arXiv:1503.03066.
[Humbert:2015epa]
[23-442]
Neutrino Mixing and CP Phase Correlations, Ernest Ma, Alexander Natale, Oleg Popov, Phys.Lett. B746 (2015) 114-116, arXiv:1502.08023.
[Ma:2015gka]
[23-443]
Dark Matter and Gauge Coupling Unification in Non-supersymmetric SO(10) Grand Unified Models, Yann Mambrini, Natsumi Nagata, Keith A. Olive, Jeremie Quevillon, Jiaming Zheng, Phys. Rev. D91 (2015) 095010, arXiv:1502.06929.
[Mambrini:2015vna]
[23-444]
LHC Phenomenology of Type II Seesaw: Nondegenerate Case, Zhi-Long Han, Ran Ding, Yi Liao, Phys. Rev. D91 (2015) 093006, arXiv:1502.05242.
[Han:2015hba]
[23-445]
Dark matter candidate in an extended type III seesaw scenario, Avinanda Chaudhuri, Najimuddin Khan, Biswarup Mukhopadhyaya, Subhendu Rakshit, Phys. Rev. D91 (2015) 055024, arXiv:1501.05885.
[Chaudhuri:2015pna]
[23-446]
Higgs Inflation, Seesaw Physics and Fermion Dark Matter, Nobuchika Okada, Qaisar Shafi, Phys.Lett. B747 (2015) 223-228, arXiv:1501.05375.
[Okada:2015zfa]
[23-447]
A Simple Motivated Completion of the Standard Model below the Planck Scale: Axions and Right-Handed Neutrinos, Alberto Salvio, Phys.Lett. B743 (2015) 428-434, arXiv:1501.03781.
[Salvio:2015cja]
[23-448]
Effects of Sfermion Mixing induced by RGE Running in the Minimal Flavor Violating CMSSM, M.E. Gomez, S. Heinemeyer, M. Rehman, Eur. Phys. J. C75 (2015) 434, arXiv:1501.02258.
[Gomez:2015ila]
[23-449]
Probing texture zeros with scaling ansatz in inverse seesaw, Ambar Ghosal, Rome Samanta, JHEP 1505 (2015) 077, arXiv:1501.00916.
[Ghosal:2015lwa]
[23-450]
Testing $\nu$MSM with indirect searches, Dmitry Gorbunov, Inar Timiryasov, Phys.Lett. B745 (2015) 29-34, arXiv:1412.7751.
[Gorbunov:2014ypa]
[23-451]
Warm Dark Matter in Two Higgs Doublet Models, K.S. Babu, Shreyashi Chakdar, Rabindra N. Mohapatra, Phys. Rev. D91 (2015) 075020, arXiv:1412.7745.
[Babu:2014uoa]
[23-452]
Lepton flavour violating signature in supersymmetric $U(1)^\prime$ seesaw models at the LHC, Priyotosh Bandyopadhyay, Eung Jin Chun, JHEP 1505 (2015) 045, arXiv:1412.7312.
[Bandyopadhyay:2014sma]
[23-453]
From global fits of neutrino data to constrained sequential dominance, Fredrik Bjorkeroth, Stephen F. King, J. Phys. G42 (2015) 125002, arXiv:1412.6996.
[Bjorkeroth:2014vha]
[23-454]
Monochromatic neutrinos generated by dark matter and the see-saw mechanism, Emilian Dudas, Yann Mambrini, Keith Olive, Phys. Rev. D91 (2015) 075001, arXiv:1412.3459.
[Dudas:2014bca]
[23-455]
Lepton flavor violation in the supersymmetric seesaw model after the LHC 8 TeV run, Toru Goto, Yasuhiro Okada, Tetsuo Shindou, Minoru Tanaka, Ryoutaro Watanabe, Phys. Rev. D91 (2015) 033007, arXiv:1412.2530.
[Goto:2014vga]
[23-456]
A Dark Side of Neutrino Mass, Wei-Chih Huang, Frank F. Deppisch, Phys. Rev. D91 (2015) 093011, arXiv:1412.2027.
[Huang:2014bva]
[23-457]
Constraints on a seesaw model leading to Quasi-Degenerate neutrinos and signatures at the LHC, Gulab Bambhaniya, Subrata Khan, Partha Konar, Tanmoy Mondal, Phys. Rev. D91 (2015) 095007, arXiv:1411.6866.
[Bambhaniya:2014hla]
[23-458]
Seesaw Models with Minimal Flavor Violation, Xiao-Gang He, Chao-Jung Lee, Jusak Tandean, Ya-Juan Zheng, Phys. Rev. D91 (2015) 076008, arXiv:1411.6612.
[He:2014efa]
[23-459]
Type II Seesaw Higgsology and LEP/LHC constraints, Abdesslam Arhrib, Rachid Benbrik, Gilbert Moultaka, Larbi Rahili, arXiv:1411.5645, 2014.
[Arhrib:2014nya]
[23-460]
Relating quarks and leptons with the T7 flavour group, Cesar Bonilla, Stefano Morisi, Eduardo Peinado, Jose W.F. Valle, Phys.Lett. B742 (2015) 99-106, arXiv:1411.4883.
[Bonilla:2014xla]
[23-461]
Are the small neutrino oscillation parameters all related?, Soumita Pramanick, Amitava Raychaudhuri, Phys.Lett. B746 (2015) 237-241, arXiv:1411.0320.
[Pramanick:2014bga]
[23-462]
Connecting Leptonic CP Violation, Lightest Neutrino Mass and Baryon Asymmetry Through Type II Seesaw, Rupam Kalita, Debasish Borah, Int.J.Mod.Phys. A30 (2015) 1550045, arXiv:1410.8437.
[Kalita:2014mga]
[23-463]
Lepton-Flavored Scalar Dark Matter with Minimal Flavor Violation, Chao-Jung Lee, Jusak Tandean, JHEP 1504 (2015) 174, arXiv:1410.6803.
[Lee:2014rba]
[23-464]
An invisible axion model with controlled FCNCs at tree level, Alejandro Celis, Javier Fuentes-Martin, Hugo Serodio, Phys.Lett. B741 (2015) 117-123, arXiv:1410.6217.
[Celis:2014iua]
[23-465]
Looking for hints of a reconstructible seesaw model at the Large Hadron Collider, Gulab Bambhaniya, Srubabati Goswami, Subrata Khan, Partha Konar, Tanmoy Mondal, Phys. Rev. D91 (2015) 075007, arXiv:1410.5687.
[Bambhaniya:2014kga]
[23-466]
Lepton parameters in the see-saw model extended by one extra Higgs doublet, Alejandro Ibarra, Ana Solaguren-Beascoa, JHEP 1411 (2014) 089, arXiv:1409.5011.
[Ibarra:2014pfa]
[23-467]
7 keV sterile neutrino Dark Matter in extended seesaw framework, Sudhanwa Patra, Prativa Pritimita, arXiv:1409.3656, 2014.
[Patra:2014pga]
[23-468]
The Higgs Seesaw Induced Neutrino Masses and Dark Matter, Yi Cai, Wei Chao, Phys. Lett. B749 (2015) 458-463, arXiv:1408.6064.
[Cai:2014hka]
[23-469]
Inverse Type II Seesaw Mechanism for Neutrino Masses, F. F. Freitas, C. A. de S. Pires, P. S. Rodrigues da Silva, Phys.Lett. B769 (2017) 48-56, arXiv:1408.5878.
[Freitas:2014fda]
[23-470]
On the impact of the Higgs boson on the production of exotic particles at the LHC, A. G. Hessler, A. Ibarra, E. Molinaro, S. Vogl, Phys. Rev. D91 (2015) 115004, arXiv:1408.0983.
[Hessler:2014ssa]
[23-471]
Lepton flavor violation in low-scale seesaw models: SUSY and non-SUSY contributions, A. Abada et al., JHEP 1411 (2014) 048, arXiv:1408.0138.
[Abada:2014kba]
[23-472]
Non-unitarity of the leptonic mixing matrix: Present bounds and future sensitivities, Stefan Antusch, Oliver Fischer, JHEP 1410 (2014) 94, arXiv:1407.6607.
[Antusch:2014woa]
[23-473]
Dark Matter in the minimal Inverse Seesaw mechanism, Asmaa Abada, Giorgio Arcadi, Michele Lucente, JCAP 1410 (2014) 001, arXiv:1406.6556.
[Abada:2014zra]
[23-474]
$N_{\rm eff}$ in low-scale seesaw models versus the lightest neutrino mass, P. Hernandez, M. Kekic, J. Lopez-Pavon, Phys. Rev. D90 (2014) 065033, arXiv:1406.2961.
[Hernandez:2014fha]
[23-475]
Imprints of Massive ISS Neutrinos in LFV Higgs Decays, E. Arganda, M.J. Herrero, X. Marcano, C. Weiland, Phys. Rev. D91 (2015) 015001, arXiv:1405.4300.
[Arganda:2014dta]
[23-476]
See Saw Inflation / Dark Energy, George F. Smoot, arXiv:1405.2776, 2014.
[Smoot:2014era]
[23-477]
TeV Scale Left-Right Symmetry and Large Mixing Effects in Neutrinoless Double Beta Decay, P. S. Bhupal Dev, Srubabati Goswami, Manimala Mitra, Phys. Rev. D91 (2015) 113004, arXiv:1405.1399.
[BhupalDev:2014qbx]
[23-478]
Direct Bounds on Electroweak Scale Pseudo-Dirac Neutrinos from $\sqrt s=8$ TeV LHC Data, Arindam Das, P. S. Bhupal Dev, Nobuchika Okada, Phys.Lett. B735 (2014) 364, arXiv:1405.0177.
[Das:2014jxa]
[23-479]
Inflation and majoron dark matter in the seesaw mechanism, Sofiane M. Boucenna, Stefano Morisi, Qaisar Shafi, Jose W.F. Valle, Phys. Rev. D90 (2014) 055023, arXiv:1404.3198.
[Boucenna:2014uma]
[23-480]
Inert Dark Matter in Type-II Seesaw, Chuan-Hung Chen, Takaaki Nomura, JHEP 1409 (2014) 120, arXiv:1404.2996.
[Chen:2014lla]
[23-481]
The Poker Face of the Majoron Dark Matter Model: LUX to keV Line, Farinaldo S. Queiroz, Kuver Shinha, Phys.Lett. B735 (2014) 69-74, arXiv:1404.1400.
[Queiroz:2014yna]
[23-482]
Phenomenology in Minimal Cascade Seesaw for Neutrino Mass, Ran Ding, Zhi-Long Han, Yi Liao, Hong-Jun Liu, Ji-Yuan Liu, Phys. Rev. D89 (2014) 115024, arXiv:1403.2040.
[Ding:2014nga]
[23-483]
Effects of Neutrino Inverse Seesaw Mechanism on the Sparticle Spectrum in CMSSM and NUHM2, I. Gogoladze, B. He, A. Mustafayev, S. Raza, Q. Shafi, JHEP 1405 (2014) 078, arXiv:1401.8251.
[Gogoladze:2014vea]
[23-484]
Looking for the minimal realisation of the inverse seesaw, Asmaa Abada, Michele Lucente, Nucl. Phys. B885 (2014) 651, arXiv:1401.1507.
[Abada:2014vea]
[23-485]
LHC Accessible Second Higgs Boson in the Left-Right Model, Rabindra N. Mohapatra, Yongchao Zhang, Phys. Rev. D89 (2014) 055001, arXiv:1401.0018.
[Mohapatra:2013cia]
[23-486]
LHC Signatures for Cascade Seesaw Mechanism, Chian-Shu Chen, Ya-Juan Zheng, PTEP 2015 (2015) 103B02, arXiv:1312.7207.
[Chen:2013xpa]
[23-487]
Sub-dominant Type II Seesaw as an Origin of Non-zero $\theta_{13}$ in SO(10) model with TeV scale $Z^\prime$ Gauge Boson, Debasish Borah, Sudhanwa Patra, Prativa Pritimita, Nucl. Phys. B881 (2014) 444, arXiv:1312.5885.
[Borah:2013lva]
[23-488]
Type-II seesaw dominance in SO(10), low-mass Z', Lepton flavor violations, and new contributions to neutrino-less double beta decay, Bidyut Prava Nayak, M. K. Parida, Eur.Phys.J. C75 (2015) 183, arXiv:1312.3185.
[Nayak:2013dza]
[23-489]
On the minimal active-sterile neutrino mixing in seesaw type I mechanism with sterile neutrinos at GeV scale, Dmitry Gorbunov, Alexander Panin, Phys. Rev. D89 (2014) 017302, arXiv:1312.2887.
[Gorbunov:2013dta]
[23-490]
Lepton flavour violation from right thresholds, Jae-hyeon Park, Phys. Rev. D89 (2014) 095005, arXiv:1312.2586.
[Park:2013msa]
[23-491]
Lepton flavor violation in inverse seesaw model, Ke-Sheng Sun, Tai-Fu Feng, Guo-Hui Luo, Xiu-Yi Yang, Jian-Bin Chen, Mod.Phys.Lett. A28 (2013) 135015, arXiv:1312.2073.
[Sun:2013kga]
[23-492]
Generalised Geometrical CP Violation in a $T^{\prime}$ Lepton Flavour Model, Ivan Girardi, Aurora Meroni, S. T. Petcov, Martin Spinrath, JHEP 1402 (2014) 050, arXiv:1312.1966.
[Girardi:2013sza]
[23-493]
Chaotic Inflation with Right-handed Sneutrinos after Planck, Kazunori Nakayama, Fuminobu Takahashi, Tsutomu T. Yanagida, Phys.Lett. B730 (2014) 24-29, arXiv:1311.4253.
[Nakayama:2013nya]
[23-494]
Precision tests of unitarity in leptonic mixing, Lorenzo Basso, Oliver Fischer, Jochum J. van der Bij, Europhys.Lett. 105 (2014) 11001, arXiv:1310.2057.
[Basso:2013jka]
[23-495]
Probing Exotic Fermions from a Seesaw/Radiative Model at the LHC, Kristian L. McDonald, JHEP 1311 (2013) 131, arXiv:1310.0609.
[McDonald:2013hsa]
[23-496]
A UV complete model for radiative seesaw and electroweak baryogenesis based on the SUSY gauge theory, Shinya Kanemura, Naoki Machida, Tetsuo Shindou, Toshifumi Yamada, Phys. Rev. D89 (2014) 013005, arXiv:1309.3207.
[Kanemura:2013uva]
[23-497]
Natural TeV-Scale Left-Right Seesaw for Neutrinos and Experimental Tests, P. S. Bhupal Dev, Chang-Hun Lee, R. N. Mohapatra, Phys. Rev. D88 (2013) 093010, arXiv:1309.0774.
[Lee:2013htl]
[23-498]
Lepton Dipole Moments in Supersymmetric Low-Scale Seesaw Models, Amon Ilakovac, Apostolos Pilaftsis, Luka Popov, Phys. Rev. D89 (2014) 015001, arXiv:1308.3633.
[Ilakovac:2013wfa]
[23-499]
Direct Search for Right-handed Neutrinos and Neutrinoless Double Beta Decay, Takehiko Asaka, Shintaro Eijima, PTEP 2013 (2013) 113B02, arXiv:1308.3550.
[Asaka:2013jfa]
[23-500]
Extended SUSY SU(5) predicting type-III seesaw testable at LHC, Ram Lal Awasthi, Sandhya Choubey, arXiv:1308.2472, 2013.
[Awasthi:2013wja]
[23-501]
New Production Mechanism for Heavy Neutrinos at the LHC, P. S. Bhupal Dev, Apostolos Pilaftsis, Un-ki Yang, Phys. Rev. Lett. 112 (2014) 081801, arXiv:1308.2209.
[Dev:2013wba]
[23-502]
Warm Dark Matter in B-L Inverse Seesaw, Amr El-Zant, Shaaban Khalil, Arunansu Sil, Phys. Rev. D91 (2015) 035030, arXiv:1308.0836.
[El-Zant:2013nta]
[23-503]
WIMP dark matter as radiative neutrino mass messenger, M. Hirsch et al., JHEP 1310 (2013) 149, arXiv:1307.8134.
[Hirsch:2013ola]
[23-504]
Lepton masses and mixings in a $A_{4}$ multi-Higgs model with radiative seesaw, A. E. Carcamo Hernandez, Ivo de Medeiros Varzielas, S.G. Kovalenko, H. Pas, Ivan Schmidt, Phys. Rev. D88 (2014) 076014, arXiv:1307.6499.
[Campos:2014lla]
[23-505]
Neutrino mixing in the $\mu\nu$SSM, Hai-Bin Zhang, Tai-Fu Feng, Li-Na Kou, Shu-Min Zhao, Int. J. Mod. Phys. A28 (2013) 1350117, arXiv:1307.6284.
[Zhang:2013ssa]
[23-506]
Neutrino Mass and Dark Matter in light of recent AMS-02 results, P. S. Bhupal Dev, Dilip Kumar Ghosh, Nobuchika Okada, Ipsita Saha, Phys. Rev. D89 (2014) 095001, arXiv:1307.6204.
[Dev:2013hka]
[23-507]
$T_7$ Flavor Model in Three Loop Seesaw and Higgs Phenomenology, Yuji Kajiyama, Hiroshi Okada, Kei Yagyu, JHEP 1310 (2013) 196, arXiv:1307.0480.
[Kajiyama:2013lja]
[23-508]
Fits to SO(10) Grand Unified Models, Alexander Dueck, Werner Rodejohann, JHEP 1309 (2013) 024, arXiv:1306.4468.
[Dueck:2013gca]
[23-509]
Invisible Higgs Decay in a Supersymmetric Inverse Seesaw Model with Light Sneutrino Dark Matter, Shankha Banerjee, P. S. Bhupal Dev, Subhadeep Mondal, Biswarup Mukhopadhyaya, Sourov Roy, JHEP 1310 (2013) 221, arXiv:1306.2143.
[Banerjee:2013fga]
[23-510]
Doubly charged scalar decays in a type II seesaw scenario with two Higgs triplets, Avinanda Chaudhuri, Walter Grimus, Biswarup Mukhopadhyaya, JHEP 1402 (2014) 060, arXiv:1305.5761.
[Chaudhuri:2013xoa]
[23-511]
Generation of Neutrino mass from new physics at TeV scale and Multi-lepton Signatures at the LHC, Gulab Bambhaniya, Joydeep Chakrabortty, Srubabati Goswami, Partha Konar, Phys. Rev. D88 (2013) 075006, arXiv:1305.2795.
[Bambhaniya:2013yca]
[23-512]
Constraining Neutrino Mass from Neutrinoless Double Beta Decay, P. S. Bhupal Dev, Srubabati Goswami, Manimala Mitra, Werner Rodejohann, Phys. Rev. D88 (2013) 091301, arXiv:1305.0056.
[BhupalDev:2013ntw]
[23-513]
Revisiting lepton flavor violation in supersymmetric type II seesaw, Debtosh Chowdhury, Ketan M. Patel, Phys. Rev. D87 (2013) 095018, arXiv:1304.7888.
[Chowdhury:2013jta]
[23-514]
Two radiative inverse seesaw models, dark matter, and baryogenesis, Iason Baldes, Nicole F. Bell, Kalliopi Petraki, Raymond R. Volkas, JCAP 1307 (2013) 029, arXiv:1304.6162.
[Baldes:2013eva]
[23-515]
Low-scale seesaw and dark matter, M. Fabbrichesi, S. Petcov, Eur.Phys.J. C74 (2014) 2774, arXiv:1304.4001.
[Fabbrichesi:2013bax]
[23-516]
Lepton number and lepton flavour violation in left-right symmetric theories, James Barry, Werner Rodejohann, JHEP 1309 (2013) 153, arXiv:1303.6324.
[Barry:2013xxa]
[23-517]
Singlet Portal Extensions of the Standard Seesaw Models to a Dark Sector with Local Dark Symmetry, Seungwon Baek, P. Ko, Wan-Il Park, JHEP 1307 (2013) 013, arXiv:1303.4280.
[Baek:2013qwa]
[23-518]
Separate seesaw and its applications to dark matter and baryogenesis, Ryo Takahashi, PTEP 2013 (2013) 063B04, arXiv:1303.0108.
[Takahashi:2013eva]
[23-519]
Scalar dark matter and fermion coannihilations in the radiative seesaw model, Micha Klasen, Carlos E. Yaguna, Jose D. Ruiz-Alvarez, Diego Restrepo, Oscar Zapata, JCAP 1304 (2013) 044, arXiv:1302.5298.
[Klasen:2013jpa]
[23-520]
Proton decay and $\mu \to e + \gamma$ Connection in a Renormalizable SO(10) GUT for Neutrinos, Bhaskar Dutta, Yukihiro Mimura, Rabindra N. Mohapatra, Phys. Rev. D87 (2013) 075008, arXiv:1302.2574.
[Dutta:2013bvf]
[23-521]
Seesaw mechanism with four texture zeros in the neutrino Yukawa matrix, Jiajun Liao, D. Marfatia, K. Whisnant, Phys. Rev. D87 (2013) 073013, arXiv:1302.2372.
[Liao:2013kix]
[23-522]
Improving Electro-Weak Fits with TeV-scale Sterile Neutrinos, Evgeny Akhmedov, Alexander Kartavtsev, Manfred Lindner, Lisa Michaels, Juri Smirnov, JHEP 1305 (2013) 081, arXiv:1302.1872.
[Akhmedov:2013hec]
[23-523]
$h \to Z \gamma$ in Type-II seesaw neutrino model, Chian-Shu Chen, Chao-Qiang Geng, Da Huang, Lu-Hsing Tsai, Phys.Lett. B723 (2013) 156-160, arXiv:1302.0502.
[Chen:2013dh]
[23-524]
Neutrinoless double beta decay and pseudo-Dirac neutrino mass predictions through inverse seesaw mechanism, Ram Lal Awasthi, M. K. Parida, Sudhanwa Patra, arXiv:1301.4784, 2013.
[Awasthi:2013we]
[23-525]
Higgs-lepton inflation in the supersymmetric minimal seesaw model, Masato Arai, Shinsuke Kawai, Nobuchika Okada, Phys. Rev. D87 (2013) 065009, arXiv:1212.6828.
[Arai:2012em]
[23-526]
Charged Lepton Flavour Violation in Supersymmetric Low-Scale Seesaw Models, Amon Ilakovac, Apostolos Pilaftsis, Luka Popov, Phys. Rev. D87 (2013) 053014, arXiv:1212.5939.
[Ilakovac:2012sh]
[23-527]
Lepton number violation and $h\to \gamma\gamma$ in a radiative inverse seesaw dark matter model, Guan-nan Li, Gang Guo, Bo Ren, Ya-Juan Zheng, Xiao-Gang He, JHEP 1304 (2013) 026, arXiv:1212.5528.
[Li:2012mu]
[23-528]
Light and Superlight Sterile Neutrinos in the Minimal Radiative Inverse Seesaw Model, P. S. Bhupal Dev, Apostolos Pilaftsis, Phys. Rev. D87 (2013) 053007, arXiv:1212.3808.
[BhupalDev:2012jvh]
[23-529]
Vacuum Stability constraints on the minimal singlet TeV Seesaw Model, Subrata Khan, Srubabati Goswami, Sourov Roy, Phys. Rev. D89 (2014) 073021, arXiv:1212.3694.
[Khan:2012zw]
[23-530]
Higgs inflation in a radiative seesaw model, Shinya Kanemura, Toshinori Matsui, Takehiro Nabeshima, Phys.Lett. B723 (2013) 126-131, arXiv:1211.4448.
[Kanemura:2012ha]
[23-531]
Left-Right Symmetry: from Majorana to Dirac, Miha Nemevsek, Goran Senjanovic, Vladimir Tello, Phys. Rev. Lett. 110 (2013) 151802, arXiv:1211.2837.
[Nemevsek:2012iq]
[23-532]
Co-genesis of Matter and Dark Matter with Vector-like Fourth Generation Leptons, Chiara Arina, Rabindra N. Mohapatra, Narendra Sahu, Phys.Lett. B720 (2013) 130-136, arXiv:1211.0435.
[Arina:2012aj]
[23-533]
Supersymmetric type-III seesaw: lepton flavour violation and LHC phenomenology, Martin Hirsch, Werner Porod, Florian Staub, Christof Weis, Phys. Rev. D87 (2013) 013010, arXiv:1211.0289.
[Hirsch:2012yv]
[23-534]
Generalized Scaling Ansatz and Minimal Seesaw Mechanism, Masaki Yasue, Phys. Rev. D86 (2012) 116011, arXiv:1210.7448.
[Yasue:2012zv]
[23-535]
Compatibility of $\theta_{13}$ and the Type I Seesaw Model with A4 Symmetry, Mu-Chun Chen, Jinrui Huang, Jon-Michael O'Bryan, Alexander M. Wijangco, Felix Yu, JHEP 1302 (2013) 021, arXiv:1210.6982.
[Chen:2012st]
[23-536]
$\theta_{13}$, $\mu\tau$ symmetry breaking and neutrino Yukawa textures, Biswajit Adhikary, Ambar Ghosal, Probir Roy, Int.J.Mod.Phys. A28 (2013) 1350118, arXiv:1210.5328.
[Adhikary:2012mt]
[23-537]
Quasi-Degenerate Neutrinos with non-zero $\theta_{13}$ in Type I+II Seesaw Models, Debasish Borah, Mrinal Kumar Das, Phys. Rev. D90 (2014) 015006, arXiv:1210.5074.
[Borah:2013bza]
[23-538]
Light Dark Matter Candidate in B-L Gauged Radiative Inverse Seesaw, Yuji Kajiyama, Hiroshi Okada, Takashi Toma, Eur.Phys.J. C73 (2013) 2381, arXiv:1210.2305.
[Kajiyama:2012xg]
[23-539]
Higgs Vacuum Stability, Neutrino Mass, and Dark Matter, Wei Chao, Matthew Gonderinger, Michael J. Ramsey-Musolf, Phys. Rev. D86 (2012) 113017, arXiv:1210.0491.
[Chao:2012mx]
[23-540]
Higgs Signatures in Inverse Seesaw Model at the LHC, Priyotosh Bandyopadhyay, Eung Jin Chun, Hiroshi Okada, Jong-Chul Park, JHEP 01 (2013) 079, arXiv:1209.4803.
[Bandyopadhyay:2012px]
[23-541]
Sneutrino Dark Matter in Low-scale Seesaw Scenarios, Valentina De Romeri, Martin Hirsch, JHEP 12 (2012) 106, arXiv:1209.3891.
[DeRomeri:2012qd]
[23-542]
Muon conversion to electron in nuclei in type-I seesaw models, Rodrigo Alonso, Mikael Dhen, M. B. Gavela, Thomas Hambye, JHEP 01 (2013) 118, arXiv:1209.2679.
[Alonso:2012ji]
[23-543]
Higgs Decays in the Low Scale Type I See-Saw Model, C. Garcia Cely, A. Ibarra, E. Molinaro, S.T. Petcov, Phys.Lett. B718 (2013) 957-964, arXiv:1208.3654.
[Cely:2012bz]
[23-544]
Status of Supersymmetric Seesaw in SO(10) models, L. Calibbi, D. Chowdhury, A. Masiero, K. M. Patel, S. K. Vempati, JHEP 11 (2012) 040, arXiv:1207.7227.
[Calibbi:2012gr]
[23-545]
Radiative type-I seesaw model with dark matter via $U(1)_{B-L}$ gauge symmetry breaking at future linear colliders, Shinya Kanemura, Takehiro Nabeshima, Hiroaki Sugiyama, Phys. Rev. D87 (2013) 015009, arXiv:1207.7061.
[Kanemura:2012zh]
[23-546]
Constrained SUSY seesaws with a 125 GeV Higgs, M. Hirsch, F. R. Joaquim, A. Vicente, JHEP 11 (2012) 105, arXiv:1207.6635.
[Hirsch:2012ti]
[23-547]
Phenomenology of Light Sneutrino Dark Matter in cMSSM/mSUGRA with Inverse Seesaw, P. S. Bhupal Dev, Subhadeep Mondal, Biswarup Mukhopadhyaya, Sourov Roy, JHEP 09 (2012) 110, arXiv:1207.6542.
[BhupalDev:2012ru]
[23-548]
Measuring heavy neutrino couplings at the LHC, J. A. Aguilar-Saavedra, F. R. Joaquim, Phys. Rev. D86 (2012) 073005, arXiv:1207.4193.
[Aguilar-Saavedra:2012grq]
[23-549]
Inverse Seesaw Neutrino Signatures at LHC and ILC, Arindam Das, Nobuchika Okada, Phys. Rev. D88 (2013) 113001, arXiv:1207.3734.
[Das:2012ze]
[23-550]
Bounds on TeV Seesaw Models from LHC Higgs Data, P. S. Bhupal Dev, Roberto Franceschini, R. N. Mohapatra, Phys. Rev. D86 (2012) 093010, arXiv:1207.2756.
[BhupalDev:2012zg]
[23-551]
Fermionic Dark Matter in Radiative Inverse Seesaw Model with $U(1)_{B-L}$, Hiroshi Okada, Takashi Toma, Phys. Rev. D86 (2012) 033011, arXiv:1207.0864.
[Okada:2012np]
[23-552]
Enhancing lepton flavour violation in the supersymmetric inverse seesaw beyond the dipole contribution, Asmaa Abada, Debottam Das, Avelino Vicente, Cedric Weiland, JHEP 09 (2012) 015, arXiv:1206.6497.
[Abada:2012cq]
[23-553]
Same-Sign Tetra-Leptons from Type II Seesaw, Eung Jin Chun, Pankaj Sharma, JHEP 08 (2012) 162, arXiv:1206.6278.
[Chun:2012zu]
[23-554]
Momentum asymmetries as CP violating observables, Joshua Berger, Monika Blanke, Yuval Grossman, Shamayita Ray, JHEP 10 (2012) 181, arXiv:1206.1651.
[Berger:2012gh]
[23-555]
The mu - e Conversion in Nuclei, mu - > e gamma, mu - > 3e Decays and TeV Scale See-Saw Scenarios of Neutrino Mass Generation, D. N. Dinh, A. Ibarra, E. Molinaro, S. T. Petcov, JHEP 08 (2012) 125, arXiv:1205.4671.
[Dinh:2012bp]
[23-556]
125 GeV Higgs, Type III Seesaw and Gauge-Higgs Unification, Bin He, Nobuchika Okada, Qaisar Shafi, Phys. Lett. B716 (2012) 197-202, arXiv:1205.4038.
[He:2012ub]
[23-557]
Bubble Baryogenesis, Clifford Cheung, Alex Dahlen, Gilly Elor, JHEP 09 (2012) 073, arXiv:1205.3501.
[Cheung:2012im]
[23-558]
Lepton Flavor Mixing Pattern and Neutrino Mass Matrix after the Daya Bay Experiment, Shun Zhou, arXiv:1205.0761, 2012.
[Zhou:2012zj]
[23-559]
TeV Scale Phenomenology of $e^+e^- \tomu^+ mu^-$ Scattering in the Noncommutative Standard Model with Hybrid Gauge Transformation, Weijian Wang, Jia-Hui Huang, Zheng-Mao Sheng, Phys. Rev. D86 (2012) 025003, arXiv:1205.0666.
[Wang:2012ye]
[23-560]
Astrophysical Constraints on the scale of Left-Right Symmetry in Inverse Seesaw Models, Debasish Borah, J. Mod. Phys. 3 (2012) 1097-1102, arXiv:1204.6587.
[Borah:2012bb]
[23-561]
Inverse seesaw and dark matter in models with exotic lepton triplets, Sandy S. C. Law, Kristian L. McDonald, Phys. Lett. B713 (2012) 490-494, arXiv:1204.2529.
[Law:2012mj]
[23-562]
An expansion for Neutrino Phenomenology, Benjamin Grinstein, Michael Trott, JHEP 09 (2012) 005, arXiv:1203.4410.
[Grinstein:2012yu]
[23-563]
Dark Matter, LFV and Neutrino Magnetic Moment in the Radiative Seesaw Model with Triplet Fermion, Wei Chao, Int.J.Mod.Phys. A30 (2015) 1550007, arXiv:1202.6394.
[Chao:2012sz]
[23-564]
Non-zero $\theta_{13}$ linking to Dark Matter from Non-Abelian Discrete Flavor Model in Radiative Seesaw, Y. H. Ahn, Hiroshi Okada, Phys. Rev. D85 (2012) 073010, arXiv:1201.4436.
[Ahn:2012cga]
[23-565]
Enhanced electromagnetic dipole moments and radiative decays of massive neutrinos due to the seesaw-induced non-unitary effects, Zhi-zhong Xing, Ye-Ling Zhou, Phys. Lett. B715 (2012) 178-182, arXiv:1201.2543.
[Luo:2012fm]
[23-566]
Exploring novel correlations in trilepton channels at the LHC for the minimal supersymmetric inverse seesaw model, Subhadeep Mondal, Sanjoy Biswas, Pradipta Ghosh, Sourov Roy, JHEP 05 (2012) 134, arXiv:1201.1556.
[Mondal:2012jv]
[23-567]
Supersymmetric Seesaw Inflation, Charanjit S. Aulakh, Ila Garg, Phys. Rev. D86 (2012) 065001, arXiv:1201.0519.
[Aulakh:2012st]
[23-568]
Higgs boson decay into 2 photons in the type II Seesaw Model, A. Arhrib, R. Benbrik, M. Chabab, G. Moultaka, L. Rahili, JHEP 04 (2012) 136, arXiv:1112.5453.
[Arhrib:2011vc]
[23-569]
Supersymmetric mass spectra and the seesaw type-I scale, Carolina Arbelaez, Martin Hirsch, Laslo Reichert, JHEP 02 (2012) 112, arXiv:1112.4771.
[Arbelaez:2011bb]
[23-570]
Experimental bounds on sterile neutrino mixing angles, Oleg Ruchayskiy, Artem Ivashko, JHEP 06 (2012) 100, arXiv:1112.3319.
[Ruchayskiy:2011aa]
[23-571]
Probing Higgs in Type III Seesaw at the LHC, Priyotosh Bandyopadhyay, Suyong Choi, Eung Jin Chun, Kyungnam Min, Phys. Rev. D85 (2012) 073013, arXiv:1112.3080.
[Bandyopadhyay:2011aa]
[23-572]
Neutrinoless Double Beta Decay: Low Left-Right Symmetry Scale?, Miha Nemevsek, Fabrizio Nesti, Goran Senjanovic, Vladimir Tello, Phys. Rev. D87 (2013) 015002, arXiv:1112.3061.
[Patra:2012ur]
[23-573]
Hierarchically Acting Sterile Neutrinos, Chian-Shu Chen, Ryo Takahashi, Eur. Phys. J. C72 (2012) 2089, arXiv:1112.2102.
[Chen:2011ai]
[23-574]
Inverse Seesaw in Nonsupersymmetric SO(10), Proton Lifetime, Nonunitarity Effects, and a Low-mass Z' Boson, Ram Lal Awasthi, Mina K. Parida, Phys. Rev. D86 (2012) 093004, arXiv:1112.1826.
[LalAwasthi:2011aa]
[23-575]
Enhanced Higgs Mediated Lepton Flavour Violating Processes in the Supersymmetric Inverse Seesaw Model, Asmaa Abada, Debottam Das, Cedric Weiland, JHEP 03 (2012) 100, arXiv:1111.5836.
[Abada:2011hm]
[23-576]
Probing the Seesaw and Gauge Mediation Scales with $\text{BR}(\mu\rightarrow e\gamma)$ and $|U_{e3}|$, Daniel Grossman, Yosef Nir, Phys. Rev. D85 (2012) 055004, arXiv:1111.5751.
[Grossman:2011fz]
[23-577]
Anthropic solution to the magnetic muon anomaly: the charged see-saw, Kristjan Kannike, Martti Raidal, David M. Straub, Alessandro Strumia, JHEP 02 (2012) 106, arXiv:1111.2551.
[Kannike:2011ng]
[23-578]
Constraining the (Low-Energy) Type-I Seesaw, Andre de Gouvea, Wei-Chih Huang, Phys. Rev. D85 (2012) 053006, arXiv:1110.6122.
[deGouvea:2011zz]
[23-579]
SUSEFLAV: program for supersymmetric mass spectra with seesaw mechanism and rare lepton flavor violating decays, Debtosh Chowdhury, Raghuveer Garani, Sudhir K Vempati, Comput. Phys. Commun. 184 (2013) 899-918, arXiv:1109.3551.
[Chowdhury:2011zr]
[23-580]
Type II Seesaw Dominance in Non-supersymmetric and Split Susy SO(10) and Proton Life Time, R. N. Mohapatra, Mina K. Parida, Phys. Rev. D84 (2011) 095021, arXiv:1109.2188.
[Mohapatra:2011yn]
[23-581]
Type II Seesaw at LHC: the Roadmap, Alejandra Melfo, Miha Nemevsek, Fabrizio Nesti, Goran Senjanovic, Yue Zhang, Phys. Rev. D85 (2012) 055018, arXiv:1108.4416.
[Melfo:2011nx]
[23-582]
R$\nu$MDM and Lepton Flavor Violation, Yi Cai, Xiao-Gang He, Michael Ramsey-Musolf, Lu-Hsing Tsai, JHEP 12 (2011) 054, arXiv:1108.0969.
[Cai:2011qr]
[23-583]
Reconstructing Seesaws, Sacha Davidson, Martin Elmer, Eur. Phys. J. C71 (2011) 1804, arXiv:1108.0548.
[Davidson:2011cb]
[23-584]
Lepton flavor violation and non-unitary lepton mixing in low-scale type-I seesaw, D. V. Forero, S. Morisi, M. Tortola, J. W. F. Valle, JHEP 09 (2011) 142, arXiv:1107.6009.
[Forero:2011pc]
[23-585]
A Higgs Quadruplet for Type III Seesaw and Implications for $\mu \to e\gamma$ and $\mu - e$ Conversion, Bo Ren, Koji Tsumura, Xiao-Gang He, Phys. Rev. D84 (2011) 073004, arXiv:1107.5879.
[Ren:2011mh]
[23-586]
A4 Flavor Models in Split Seesaw Mechanism, Adisorn Adulpravitchai, Ryo Takahashi, JHEP 09 (2011) 127, arXiv:1107.3829.
[Adulpravitchai:2011rq]
[23-587]
Implementation of the type III seesaw model in FeynRules/MadGraph and prospects for discovery with early LHC data, Carla Biggio, Florian Bonnet, Eur. Phys. J. C72 (2012) 1899, arXiv:1107.3463.
[Biggio:2011ja]
[23-588]
Relations among neutrino observables in the light of a large $\vartheta_{13}$ angle, Xiaoyong Chu, Mikael Dhen, Thomas Hambye, JHEP 11 (2011) 106, arXiv:1107.1589.
[Chu:2011jg]
[23-589]
How the Inverse See-Saw Mechanism Can Reveal Itself Natural, Canonical and Independent of the Right-Handed Neutrino Mass, A. G. Dias, C. A. de S. Pires, P. S. Rodrigues da Silva, Phys. Rev. D84 (2011) 053011, arXiv:1107.0739.
[Dias:2011sq]
[23-590]
Radiative Seesaw in SO(10) with Dark Matter, Mina K. Parida, Phys. Lett. B704 (2011) 206-210, arXiv:1106.4137.
[Parida:2011wh]
[23-591]
Higgs Mass Corrections in the SUSY B-L Model with Inverse Seesaw, A. Elsayed, S. Khalil, S. Moretti, Phys. Lett. B715 (2012) 208-213, arXiv:1106.2130.
[Elsayed:2011de]
[23-592]
Exotic Seesaw-Motivated Heavy Leptons at the LHC, Kresimir Kumericki, Ivica Picek, Branimir Radovcic, Phys. Rev. D84 (2011) 093002, arXiv:1106.1069.
[Kumericki:2011hf]
[23-593]
Testing New TeV-scale Seesaw Mediators at the LHC, Ivica Picek, Branimir Radovcic, PoS ICHEP2010 (2010) 329, arXiv:1105.5561.
[Picek:2010zz]
[23-594]
Right-handed sneutrino dark matter in $\mathbf{U(1)'}$ seesaw models and its signatures at the LHC, Priyotosh Bandyopadhyay, Eung Jin Chun, Jong-Chul Park, JHEP 06 (2011) 129, arXiv:1105.1652.
[Bandyopadhyay:2011qm]
[23-595]
Muon Anomalous Magnetic Moment and mu - > e gamma in B-L Model with Inverse Seesaw, W. Abdallah, A. Awad, S. Khalil, H. Okada, Eur. Phys. J. C72 (2012) 2108, arXiv:1105.1047.
[Abdallah:2011ew]
[23-596]
Neutrino Mass and $\mu \rightarrow e + \gamma $ from a Mini-Seesaw, Michael Duerr, Damien P. George, Kristian L. McDonald, JHEP 07 (2011) 103, arXiv:1105.0593.
[Duerr:2011ks]
[23-597]
Heavy Neutrinos and Lepton Number Violation in lp Colliders, Carl Blaksley, Mattias Blennow, Florian Bonnet, Pilar Coloma, Enrique Fernandez-Martinez, Nucl. Phys. B852 (2011) 353-365, arXiv:1105.0308.
[Blaksley:2011ey]
[23-598]
Common Origin of mu-tau and CP Breaking in Neutrino Seesaw, Baryon Asymmetry, and Hidden Flavor Symmetry, Hong-Jian He, Fu-Rong Yin, Phys. Rev. D84 (2011) 033009, arXiv:1104.2654.
[He:2011kn]
[23-599]
Neutrinoless double-beta decay and seesaw, S.M. Bilenky, Amand Faessler, W. Potzel, F. Simkovic, Eur. Phys. J. C71 (2011) 1754, arXiv:1104.1952.
[Bilenky:2011tr]
[23-600]
Cosmon as the Modulon: Non-Gaussianity from Dark Energy, Chian-Shu Chen, Chia-Min Lin, Phys. Lett. B705 (2011) 161-164, arXiv:1104.0982.
[Chen:2011sja]
[23-601]
Low Energy Signatures of the TeV Scale See-Saw Mechanism, A. Ibarra, E. Molinaro, S. T. Petcov, Phys. Rev. D84 (2011) 013005, arXiv:1103.6217.
[Ibarra:2011xn]
[23-602]
Seesaw Spectroscopy at Colliders, Clifford Cheung, Lawrence J. Hall, David Pinner, arXiv:1103.3520, 2011.
[Cheung:2011ph]
[23-603]
Physics of Type III Seesaw Model with $A_{4}$ Flavor Symmetry, Y. H. Ahn, C. S. Kim, Sechul Oh, Phys. Rev. D86 (2012) 013007, arXiv:1103.0657.
[Ahn:2011pq]
[23-604]
Correlation between flavour violating decay of long-lived slepton and tau in the coannihilation scenario with Seesaw mechanism, Satoru Kaneko et al., Phys. Rev. D83 (2011) 115005, arXiv:1102.1794.
[Kaneko:2011qi]
[23-605]
Dark matter in the supersymmetric radiative seesaw model with an anomalous U(1) symmetry, Daijiro Suematsu, Takashi Toma, Nucl. Phys. B847 (2011) 567-589, arXiv:1011.2839.
[Suematsu:2010nd]
[23-606]
Supersymmetric type-III seesaw: lepton flavour violating decays and dark matter, J. N. Esteves, M. Hirsch, W. Porod, J. C. Romao, F. Staub, Phys. Rev. D83 (2011) 013003, arXiv:1010.6000.
[Esteves:2010ff]
[23-607]
Seesaw Mechanism Confronting PAMELA in S_4 Flavor Symmetric Extra U(1) Model, Yasuhiro Daikoku, Hiroshi Okada, Takashi Toma, arXiv:1010.4963, 2010.
[Daikoku:2010ew]
[23-608]
mu- > e gamma decay versus mu- > eee bound and lepton flavor violating processes in supernova, Oleg Lychkovskiy, Mikhail Vysotsky, J. Exp. Theor. Phys. 114 (2012) 382-391, arXiv:1010.1694.
[Lychkovskiy:2010rz]
[23-609]
Gravity triggered neutrino condensates, Gabriela Barenboim, Phys. Rev. D82 (2010) 093014, arXiv:1009.2504.
[Barenboim:2010db]
[23-610]
Probing Seesaw in an Adjoint SUSY SU(5) Model at LHC, Ram Lal Awasthi, Sandhya Choubey, Manimala Mitra, arXiv:1009.0509, 2010.
[Awasthi:2010xc]
[23-611]
Extra dimensions and Seesaw Neutrinos at the International Linear Collider, Tomoyuki Saito et al., Phys. Rev. D82 (2010) 093004, arXiv:1008.2257.
[Saito:2010xj]
[23-612]
Decaying Dark Matter in the Supersymmetric Standard Model with Freeze-in and Seesaw mechanims, Zhaofeng Kang, Tianjun Li, JHEP 02 (2011) 035, arXiv:1008.1621.
[Kang:2010ha]
[23-613]
Flavor Violating Transitions of Charged Leptons from a Seesaw Mechanism of Dimension Seven, Yi Liao, Guo-Zhu Ning, Lu Ren, Phys. Rev. D82 (2010) 113003, arXiv:1008.0117.
[Liao:2010rx]
[23-614]
Interplay of LFV and slepton mass splittings at the LHC as a probe of the SUSY seesaw, A. Abada, A. J. R. Figueiredo, J. C. Romao, A. M. Teixeira, JHEP 10 (2013) 104, arXiv:1007.4833.
[Figueiredo:2013mua]
[23-615]
Phenomenology of SUSY SU(5) with type I+III seesaw, Carla Biggio, Lorenzo Calibbi, JHEP 10 (2010) 037, arXiv:1007.3750.
[Biggio:2010me]
[23-616]
TeV Scale See-Saw Mechanisms of Neutrino Mass Generation, the Majorana Nature of the Heavy Singlet Neutrinos and $\beta\beta$-Decay, A. Ibarra, E. Molinaro, S. T. Petcov, JHEP 09 (2010) 108, arXiv:1007.2378.
[Ibarra:2010xw]
[23-617]
Displaced Higgs production in type III seesaw, Priyotosh Bandyopadhyay, Eung Jin Chu, JHEP 11 (2010) 006, arXiv:1007.2281.
[Bandyopadhyay:2010wp]
[23-618]
Connections between the Seesaw and Dark Matter Searches, Adisorn Adulpravitchai, Pei-Hong Gu, Manfred Lindner, Phys. Rev. D82 (2010) 073013, arXiv:1007.1115.
[Adulpravitchai:2010wd]
[23-619]
Seesaw Type I and III at the LHeC, Liang Han, Xiao-Gang He, Ma Wen-Gan, Wang Shao-Ming, Zhang Ren-You, JHEP 09 (2010) 023, arXiv:1006.5534.
[Liang:2010gm]
[23-620]
Dark Matter from Split Seesaw, Alexander Kusenko, Fuminobu Takahashi, Tsutomu T. Yanagida, Phys. Lett. B693 (2010) 144-148, arXiv:1006.1731.
[Kusenko:2010ik]
[23-621]
Left-Right Symmetry at LHC, Alessio Maiezza, Miha Nemevsek, Fabrizio Nesti, Goran Senjanovic, Phys. Rev. D82 (2010) 055022, arXiv:1005.5160.
[Maiezza:2010ic]
[23-622]
Neutrinoless double beta decay in seesaw models, Mattias Blennow, Enrique Fernandez-Martinez, Jacobo Lopez-Pavon, Javier Menendez, JHEP 1007 (2010) 096, arXiv:1005.3240.
[Blennow:2010th]
[23-623]
Seesaw Neutrino Signals at the Large Hadron Collider, Shigeki Matsumoto, Takehiro Nabeshima, Koichi Yoshioka, JHEP 06 (2010) 058, arXiv:1004.3852.
[Matsumoto:2010zg]
[23-624]
An Updated Numerical Analysis of eV Seesaw with Four Generations, Wei-Shu Hou, Fei-Fan Lee, Int. J. Mod. Phys. A25 (2010) 5913-5922, arXiv:1004.2359.
[Hou:2010qx]
[23-625]
Dilepton Signal of a Type-II Seesaw at CERN LHC: Reveals a TeV Scale B-L Symmetry, Swarup Kumar Majee, Narendra Sahu, Phys. Rev. D82 (2010) 053007, arXiv:1004.0841.
[Majee:2010ar]
[23-626]
Neutrino Masses, Dark Matter and B-L Symmetry at the LHC, Tong Li, Wei Chao, Nucl. Phys. B843 (2011) 396-412, arXiv:1004.0296.
[Li:2010rb]
[23-627]
TeV Scale Gauged B-L With Inverse Seesaw Mechanism, Shaaban Khalil, Phys. Rev. D82 (2010) 077702, arXiv:1004.0013.
[Khalil:2010iu]
[23-628]
TeV scale double seesaw in left-right symmetric theories, Joydeep Chakrabortty, arXiv:1003.3154, 2010.
[Chakrabortty:2010rq]
[23-629]
The electron and neutron EDM from supersymmetric see-saw thresholds, Gian F. Giudice, Paride Paradisi, Alessandro Strumia, Phys. Lett. B694 (2010) 26-32, arXiv:1003.2388.
[Giudice:2010zn]
[23-630]
Signatures from an extra-dimensional seesaw model, Mattias Blennow, Henrik Melbeus, Tommy Ohlsson, He Zhang, Phys. Rev. D82 (2010) 045023, arXiv:1003.0669.
[Blennow:2010zu]
[23-631]
Enhancement of the annihilation of dark matter in a radiative seesaw model, Daijiro Suematsu, Takashi Toma, Tetsuro Yoshida, Phys. Rev. D82 (2010) 013012, arXiv:1002.3225.
[Suematsu:2010gv]
[23-632]
Naturalness and stability of the generalized Chaplygin gas in the seesaw cosmon scenario, Alex E. Bernardini, O. Bertolami, Phys. Rev. D81 (2010) 123013, arXiv:1002.0830.
[Bernardini:2010ai]
[23-633]
Effect on Higgs Boson Decays from Large Light-Heavy Neutrino Mixing in Seesaw Models, Jyong-Hao Chen, Xiao-Gang He, Jusak Tandean, Lu-Hsing Tsai, Phys. Rev. D81 (2010) 113004, arXiv:1001.5215.
[Chen:2010wn]
[23-634]
Lepton electric dipole moments in supersymmetric type II seesaw model, Toru Goto, Takayuki Kubo, Yasuhiro Okada, Phys. Lett. B687 (2010) 349-354, arXiv:1001.1417.
[Goto:2010ce]
[23-635]
Common Origin of Soft mu-tau and CP Breaking in Neutrino Seesaw and the Origin of Matter, Shao-Feng Ge, Hong-Jian He, Fu-Rong Yin, JCAP 1005 (2010) 017, arXiv:1001.0940.
[Ge:2010js]
[23-636]
Probing the Majorana nature of TeV-scale radiative seesaw models at collider experiments, Mayumi Aoki, Shinya Kanemura, Phys. Lett. B689 (2010) 28-35, arXiv:1001.0092.
[Aoki:2010tf]
[23-637]
On Non-Unitary Lepton Mixing and Neutrino Mass Observables, Werner Rodejohann, Phys. Lett. B684 (2010) 40-47, arXiv:0912.3388.
[Rodejohann:2009ve]
[23-638]
The Minimal Seesaw Model at the TeV Scale, He Zhang, Shun Zhou, Phys. Lett. B685 (2010) 297-301, arXiv:0912.2661.
[Zhang:2009ac]
[23-639]
TeV-scale bileptons, see-saw type II and lepton flavor violation in core-collapse supernova, Oleg Lychkovskiy, Sergei Blinnikov, Mikhail Vysotsky, Eur. Phys. J. C67 (2010) 213, arXiv:0912.1395.
[Lychkovskiy:2010ue]
[23-640]
Running Standard Model Inflation And Type I Seesaw, Nobuchika Okada, Mansoor Ur Rehman, Qaisar Shafi, arXiv:0911.5073, 2009.
[Okada:2009wz]
[23-641]
Charged Lepton Flavour Violating Radiative Decays $\ell_i \to \ell_j + \gamma$ in See-Saw Models with $A_4$ Symmetry, C.Hagedorn, E. Molinaro, S.T. Petcov, JHEP 02 (2010) 047, arXiv:0911.3605.
[Hagedorn:2009df]
[23-642]
Coupling active and sterile neutrinos in the cosmon plus seesaw framework, Alex E. Bernardini, Phys. Lett. B684 (2010) 162-166, arXiv:0911.0446.
[Bernardini:2009ij]
[23-643]
Enhanced Tau Lepton Signatures at LHC in Constrained Supersymmetric Seesaw, Kenji Kadota, Jing Shao, Phys. Rev. D80 (2009) 115004, arXiv:0910.5517.
[Kadota:2009sf]
[23-644]
TeV Scale Seesaw and a flavorful Z' at the LHC, Mu-Chun Chen, Jinrui Huang, Phys. Rev. D81 (2010) 055007, arXiv:0910.5029.
[Chen:2009fx]
[23-645]
TeV Scale Inverse Seesaw in SO(10) and Leptonic Non-Unitarity Effects, P. S. Bhupal Dev, R. N. Mohapatra, Phys. Rev. D81 (2010) 013001, arXiv:0910.3924.
[Dev:2009aw]
[23-646]
Minimal Supersymmetric Inverse Seesaw: Neutrino masses, lepton flavour violation and LHC phenomenology, M. Hirsch, T. Kernreiter, J. C. Romao, Albert Villanova del Moral, JHEP 01 (2010) 103, arXiv:0910.2435.
[Hirsch:2009ra]
[23-647]
Flavour violation in supersymmetric SO(10) unification with a type II seesaw mechanism, Lorenzo Calibbi, Michele Frigerio, Stephane Lavignac, Andrea Romanino, JHEP 12 (2009) 057, arXiv:0910.0377.
[Calibbi:2009wk]
[23-648]
Type III Seesaw and Dark Matter in a Supersymmetric Left-Right Model, Debasish Borah, Sudhanwa Patra, arXiv:0910.0146, 2009.
[Borah:2009ra]
[23-649]
Minimal dark matter in type III seesaw, E. J. Chun, JHEP 12 (2009) 055, arXiv:0909.3408.
[Chun:2009mh]
[23-650]
Threshold corrections to the radiative breaking of electroweak symmetry and neutralino dark matter in supersymmetric seesaw model, Sin Kyu Kang, Akina Kato, Takuya Morozumi, Norimi Yokozaki, Phys. Rev. D81 (2010) 016011, arXiv:0909.2484.
[Kang:2009pj]
[23-651]
Cosmic ray anomalies and DAMA experiment in an Extended Seesaw Model, H.S. Cheon, Sin Kyu Kang, C.S. Kim, Phys. Lett. B695 (2011) 242-246, arXiv:0909.2130.
[Cheon:2009ht]
[23-652]
Lepton flavor violation in type I + III seesaw, Jernej F. Kamenik, Miha Nemevsek, JHEP 11 (2009) 023, arXiv:0908.3451.
[Kamenik:2009cb]
[23-653]
SUSY dark matter and lepton flavor violation, Vernon Barger, Danny Marfatia, Azar Mustafayev, Ali Soleimani, Phys. Rev. D80 (2009) 076004, arXiv:0908.0941.
[Barger:2009gc]
[23-654]
Dark matter in minimal supergravity with type-II seesaw, J. N. Esteves, M. Hirsch, S. Kaneko, W. Porod, J. C. Romao, Phys. Rev. D80 (2009) 095003, arXiv:0907.5090.
[Esteves:2009qr]
[23-655]
Neutrino Masses and Heavy Triplet Leptons at the LHC: Testability of Type III Seesaw, Tong Li, Xiao-Gang He, Phys. Rev. D80 (2009) 093003, arXiv:0907.4193.
[Li:2009mw]
[23-656]
Testability of Type I Seesaw at the CERN LHC: Revealing the Existence of the B-L Symmetry, Pavel Fileviez Perez, Tao Han, Tong Li, Phys. Rev. D80 (2009) 073015, arXiv:0907.4186.
[FileviezPerez:2009hdc]
[23-657]
Low-energy limits on heavy Majorana neutrino masses from the neutrinoless double-beta decay and non-unitary neutrino mixing, Zhi-zhong Xing, Phys. Lett. B679 (2009) 255-259, arXiv:0907.3014.
[Xing:2009ce]
[23-658]
Natural Suppression of Proton Decay in Supersymmetric Type III Seesaw Models, Rabindra N. Mohapatra, Phys. Lett. B679 (2009) 382-385, arXiv:0907.2070.
[Mohapatra:2009fj]
[23-659]
Large Mixing of Light and Heavy Neutrinos in Seesaw Models and the LHC, Xiao-Gang He, Sechul Oh, Jusak Tandean, Chung-Cheng Wen, Phys. Rev. D80 (2009) 073012, arXiv:0907.1607.
[He:2009ua]
[23-660]
Lepton flavor violation in supersymmetric B-L extension of the standard model, Shaaban Khalil, Phys. Rev. D81 (2010) 035002, arXiv:0907.1560.
[Khalil:2009tm]
[23-661]
Testing the Realistic Seesaw Model with Two Heavy Majorana Neutrinos at the CERN Large Hadron Collider, Wei Chao, Zong-guo Si, Ya-juan Zheng, Shun Zhou, Phys. Lett. B683 (2010) 26-32, arXiv:0907.0935.
[Chao:2009ef]
[23-662]
Two Higgs Doublet Type III Seesaw with mu-tau symmetry at LHC, Priyotosh Bandyopadhyay, Sandhya Choubey, Manimala Mitra, JHEP 10 (2009) 012, arXiv:0906.5330.
[Bandyopadhyay:2009xa]
[23-663]
Visible and Dark Matter Genesis and Cosmic Positron/Electron Excesses, Pei-Hong Gu, Utpal Sarkar, Xinmin Zhang, Phys. Rev. D80 (2009) 076003, arXiv:0906.3103.
[Gu:2009yy]
[23-664]
Double Type-II Seesaw, Baryon Asymmetry and Dark Matter for Cosmic e^\pm Excesses, Pei-Hong Gu, Hong-Jian He, Utpal Sarkar, Xinmin Zhang, Phys. Rev. D80 (2009) 053004, arXiv:0906.0442.
[Gu:2009hu]
[23-665]
Minimal Textures in Seesaw Mass Matrices and their low and high Energy Phenomenology, Srubabati Goswami, Subrata Khan, Werner Rodejohann, Phys. Lett. B680 (2009) 255-262, arXiv:0905.2739.
[Goswami:2009bd]
[23-666]
Collider Signatures for Heavy Lepton Triplet in Type I+III Seesaw, Abdesslam Arhrib et al., Phys. Rev. D82 (2010) 053004, arXiv:0904.2390.
[Arhrib:2009mz]
[23-667]
Supersymmetric Lepton Flavour Violation in Low-Scale Seesaw Models, Amon Ilakovac, Apostolos Pilaftsis, Phys. Rev. D80 (2009) 091902, arXiv:0904.2381.
[Ilakovac:2009jf]
[23-668]
Type II Seesaw and the PAMELA/ATIC Signals, Ilia Gogoladze, Nobuchika Okada, Qaisar Shafi, Phys. Lett. B679 (2009) 237-241, arXiv:0904.2201.
[Gogoladze:2009gi]
[23-669]
Deciphering the Seesaw Nature of Neutrino Mass from Unitarity Violation, Ernest Ma, Mod. Phys. Lett. A24 (2009) 2161-2165, arXiv:0904.1580.
[Ma:2009du]
[23-670]
Sensitivity to the Higgs Sector of SUSY-Seesaw Models in the Lepton Flavour Violating tau- > mu f0(980) decay, M. J. Herrero, J. Portoles, A. M. Rodriguez-Sanchez, Phys. Rev. D80 (2009) 015023, arXiv:0903.5151.
[Herrero:2009tm]
[23-671]
Minimal supersymmetric SU(5) model with nonrenormalizable operators: Seesaw mechanism and violation of flavour and CP, Francesca Borzumati, Toshifumi Yamashita, Prog. Theor. Phys. 124 (2010) 761-868, arXiv:0903.2793.
[Borzumati:2009hu]
[23-672]
R-Parity Breaking via Type II Seesaw, Decaying Gravitino Dark Matter and PAMELA Positron Excess, Shao-Long Chen, Rabindra N. Mohapatra, Shmuel Nussinov, Yue Zhang, Phys. Lett. B677 (2009) 311-317, arXiv:0903.2562.
[Chen:2009ew]
[23-673]
Non-unitarity effects in a realistic low-scale seesaw model, Michal Malinsky, Tommy Ohlsson, He Zhang, Phys. Rev. D79 (2009) 073009, arXiv:0903.1961.
[Malinsky:2009gw]
[23-674]
tau lepton flavor violation in type-III seesaw model, Abdesslam Arhrib, Rachid Benbrik, Chuan-Hung Chen, Phys. Rev. D81 (2010) 113003, arXiv:0903.1553.
[Arhrib:2009xf]
[23-675]
Flavour violation at the LHC: type-I versus type-II seesaw in minimal supergravity, J. N. Esteves et al., JHEP 05 (2009) 003, arXiv:0903.1408.
[Esteves:2009vg]
[23-676]
Sterile neutrinos produced near the EW scale I: mixing angles, MSW resonances and production rates, Jun Wu, Chiu-Man Ho, Daniel Boyanovsky, Phys. Rev. D80 (2009) 103511, arXiv:0902.4278.
[Wu:2009yr]
[23-677]
Lepton FCNC in Type III Seesaw Model, Xiao-Gang He, Sechul Oh, JHEP 09 (2009) 027, arXiv:0902.4082.
[He:2009tf]
[23-678]
Probing Quasi-Unitary Parameterization of Neutrino Mixing, Lei Lu, Wenyu Wang, Zhaohua Xiong, Chin.Phys. C34 (2010) 1791-1796, arXiv:0902.2031.
[Lu:2010hso]
[23-679]
Observable Seesaw and its Collider Signatures, Naoyuki Haba, Shigeki Matsumoto, Koichi Yoshioka, Phys. Lett. B677 (2009) 291-295, arXiv:0901.4596.
[Haba:2009sd]
[23-680]
Unparticle-Higgs Mixing: MSW Resonances, See-saw Mechanism and Spinodal Instabilities, D. Boyanovsky, R. Holman, Jimmy A. Hutasoit, Phys. Rev. D79 (2009) 085018, arXiv:0812.4723.
[Boyanovsky:2008bf]
[23-681]
Neutrino Mass Seesaw at the Weak Scale, the Baryon Asymmetry, and the LHC, Steve Blanchet, Z. Chacko, Rabindra N. Mohapatra, Phys. Rev. D80 (2009) 085002, arXiv:0812.3837.
[Blanchet:2008zg]
[23-682]
Neutrino Dark Energy in Grand Unified Theories, Jitesh R. Bhatt, Pei-Hong Gu, Utpal Sarkar, Santosh K. Singh, Phys. Rev. D80 (2009) 073013, arXiv:0812.1895.
[Bhatt:2008dg]
[23-683]
Lepton-number-violating decays of singly-charged Higgs bosons in the minimal type-(I+II) seesaw model at the TeV scale, Ping Ren, Zhi-zhong Xing, Chin. Phys. C34 (2010) 433-443, arXiv:0812.0520.
[Ren:2008sz]
[23-684]
Inflation might be caused by the right, Gabriela Barenboim, JHEP 03 (2009) 102, arXiv:0811.2998.
[Barenboim:2008ds]
[23-685]
Lepton Flavour Violating Heavy Higgs Decays Within the nuMSSM and Their Detection at the LHC, J.L. Diaz-Cruz, Dilip Kumar Ghosh, S. Moretti, Phys. Lett. B679 (2009) 376-381, arXiv:0809.5158.
[Diaz-Cruz:2008agf]
[23-686]
Electroweak scale seesaw and heavy Dirac neutrino signals at LHC, F. del Aguila, J. A. Aguilar-Saavedra, Phys. Lett. B672 (2009) 158-165, arXiv:0809.2096.
[delAguila:2008hw]
[23-687]
NMSSM and Seesaw Physics at LHC, Ilia Gogoladze, Nobuchika Okada, Qaisar Shafi, Phys. Lett. B672 (2009) 235-239, arXiv:0809.0703.
[Gogoladze:2008wz]
[23-688]
Radiative seesaw: Warm dark matter, collider and lepton flavour violating signals, D. Aristizabal Sierra, Jisuke Kubo, D. Restrepo, Daijiro Suematsu, Oscar Zapata, Phys. Rev. D79 (2009) 013011, arXiv:0808.3340.
[AristizabalSierra:2008cnr]
[23-689]
Distinguishing seesaw models at LHC with multi-lepton signals, F. del Aguila, J. A. Aguilar-Saavedra, Nucl. Phys. B813 (2009) 22-90, arXiv:0808.2468.
[delAguila:2008cj]
[23-690]
Supersymmetric seesaw type II: LHC and lepton flavour violating phenomenology, M. Hirsch, S. Kaneko, W. Porod, Phys. Rev. D78 (2008) 093004, arXiv:0806.3361.
[Hirsch:2008gh]
[23-691]
Interference bands in decays of doubly-charged Higgs bosons to dileptons in the minimal type-II seesaw model at the TeV scale, Ping Ren, Zhi-zhong Xing, Phys. Lett. B666 (2008) 48-56, arXiv:0805.4292.
[Ren:2008yi]
[23-692]
Higgs Boson Mass Bounds in the Standard Model with Type III and Type I Seesaw, Ilia Gogoladze, Nobuchika Okada, Qaisar Shafi, Phys. Lett. B668 (2008) 121-125, arXiv:0805.2129.
[Gogoladze:2008ak]
[23-693]
Type-III see-saw at LHC, Roberto Franceschini, Thomas Hambye, Alessandro Strumia, Phys. Rev. D78 (2008) 033002, arXiv:0805.1613.
[Franceschini:2008pz]
[23-694]
Light Higgs Mass Bound in SUSY Left-Right Models, Yue Zhang, Haipeng An, Xiangdong Ji, Rabindra N. Mohapatra, Phys. Rev. D78 (2008) 011302, arXiv:0804.0268.
[Zhang:2008jm]
[23-695]
Testing a Neutrino Mass Generation Mechanism at the LHC, Pavel Fileviez Perez, Tao Han, Gui-Yu Huang, Tong Li, Kai Wang, Phys. Rev. D78 (2008) 071301, arXiv:0803.3450.
[FileviezPerez:2008wbg]
[23-696]
Lepton flavour violating semileptonic tau decays in constrained MSSM-seesaw scenarios, E. Arganda, M.J. Herrero, J. Portoles, JHEP 06 (2008) 079, arXiv:0803.2039.
[Arganda:2008jj]
[23-697]
$\mu \to e \gamma$ and $\tau \to l \gamma$ decays in the fermion triplet seesaw model, A. Abada, C. Biggio, F. Bonnet, M.B. Gavela, T. Hambye, Phys. Rev. D78 (2008) 033007, arXiv:0803.0481.
[Abada:2008ea]
[23-698]
Higgs Mass Bounds, Type II SeeSaw and LHC, Ilia Gogoladze, Nobuchika Okada, Qaisar Shafi, Phys. Rev. D78 (2008) 085005, arXiv:0802.3257.
[Gogoladze:2008gf]
[23-699]
TeV-scale Type-II Seesaw Models and Possible Collider Signatures, Wei Chao, Shu Luo, Zhi-zhong Xing, Shun Zhou, Int. J. Mod. Phys. A23 (2008) 3420-3424, arXiv:0712.2612.
[Chao:2007ms]
[23-700]
Seesaw at Collider, Lepton Asymmetry and Singlet Scalar Dark Matter, John McDonald, Narendra Sahu, Utpal Sarkar, JCAP 0804 (2008) 037, arXiv:0711.4820.
[McDonald:2007ka]
[23-701]
Correlation between the Charged Current Interactions of Light and Heavy Majorana Neutrinos, Zhi-zhong Xing, Phys. Lett. B660 (2008) 515-521, arXiv:0709.2220.
[Xing:2007zj]
[23-702]
Sterile Neutrinos as the Warm Dark Matter in the Type II Seesaw Model, Wan-lei Guo, Phys. Rev. D77 (2008) 033005, arXiv:0709.1632.
[Guo:2007cs]
[23-703]
Low energy effects of neutrino masses, A. Abada, C.Biggio, F. Bonnet, M.B. Gavela, T. Hambye, JHEP 12 (2007) 061, arXiv:0707.4058.
[Abada:2007ux]
[23-704]
Testing the seesaw mechanism at collider energies in the Randall-Sundrum model, Hiroto Nakajima, arXiv:0705.3527, 2007.
[Nakajima:2007hu]
[23-705]
Decaying warm dark matter and neutrino masses, M. Lattanzi, J.W.F. Valle, Phys. Rev. Lett. 99 (2007) 121301, arXiv:0705.2406.
[Lattanzi:2007ux]
[23-706]
Probing seesaw at LHC, Borut Bajc, Miha Nemevsek, Goran Senjanovic, Phys. Rev. D76 (2007) 055011, arXiv:hep-ph/0703080.
[Bajc:2007zf]
[23-707]
Seesaw at LHC, Borut Bajc, Goran Senjanovic, JHEP 08 (2007) 014, arXiv:hep-ph/0612029.
[Bajc:2006ia]
[23-708]
Majorana Dark Matter, Alexey Anisimov, arXiv:hep-ph/0612024, 2006.
[Anisimov:2006hv]
[23-709]
Interplay of type I and type II seesaw contributions to neutrino mass, Evgeny Kh. Akhmedov, Michele Frigerio, JHEP 01 (2007) 043, arXiv:hep-ph/0609046.
[Akhmedov:2006de]
[23-710]
Neutrino phenomenology of very low-energy seesaws, Andre de Gouvea, James Jenkins, Nirmala Vasudevan, Phys. Rev. D75 (2007) 013003, arXiv:hep-ph/0608147.
[deGouvea:2006gz]
[23-711]
Phenomenology of the triplet seesaw mechanism with Gauge and Yukawa mediation of SUSY breaking, Filipe R. Joaquim, Anna Rossi, Nucl. Phys. B765 (2007) 71-117, arXiv:hep-ph/0607298.
[Joaquim:2006mn]
[23-712]
Impact of $\theta_{13}$ on Lepton Flavour Violating processes within SUSY Seesaw, S. Antusch, E. Arganda, M.J. Herrero, A. Teixeira, JHEP 11 (2006) 090, arXiv:hep-ph/0607263.
[Antusch:2006vw]
[23-713]
How can we test seesaw experimentally?, M. R. Buckley, H. Murayama, Phys. Rev. Lett. 97 (2006) 231801, arXiv:hep-ph/0606088.
[Buckley:2006nv]
[23-714]
The See-Saw Mechanism, Neutrino Yukawa Couplings, LFV Decays l_i to l_j + gamma and Leptogenesis, S. T. Petcov, W. Rodejohann, T. Shindou, Y. Takanishi, Nucl. Phys. B739 (2006) 208, arXiv:hep-ph/0510404.
[Petcov:2005jh]
[23-715]
Observable Neutron Antineutron Oscillation in High Scale Seesaw Models, Bhaskar Dutta, Yukihiro Mimura, R. N. Mohapatra, Phys. Rev. Lett. 96 (2006) 061801, arXiv:hep-ph/0510291.
[Dutta:2005af]
[23-716]
Constraint on the heavy sterile neutrino mixing angles in the SO(10) model with double see-saw mechanism, Takeshi Fukuyama, Tatsuru Kikuchi, Koichi Matsuda, Eur. Phys. J. C55 (2008) 623-628, arXiv:hep-ph/0510054.
[Fukuyama:2005ph]
[23-717]
R-parity violation assisted thermal leptogenesis in the seesaw mechanism, Y. Farzan, J. W. F. Valle, Phys. Rev. Lett. 96 (2006) 011601, arXiv:hep-ph/0509280.
[Farzan:2005ez]
[23-718]
Majorana CP-Violating Phases, RG Running of Neutrino Mixing Parameters and Charged Lepton Flavour Violating Decays, S. T. Petcov, T. Shindou, Y. Takanishi, Nucl. Phys. B738 (2006) 219, arXiv:hep-ph/0508243.
[Petcov:2005yh]
[23-719]
Can Measurements of Electric Dipole Moments Determine the Seesaw Parameters?, D. Demir, Y. Farzan, JHEP 0510 (2005) 068, arXiv:hep-ph/0508236.
[Demir:2005ya]
[23-720]
TeV leptogenesis in Z-prime models and its collider probe, Eung Jin Chun, Phys. Rev. D72 (2005) 095010, arXiv:hep-ph/0508050.
[Chun:2005tg]
[23-721]
Leptogenesis in Unified Theories with Type II See-Saw, Stefan Antusch, Steve F. King, JHEP 0601 (2006) 117, arXiv:hep-ph/0507333.
[Antusch:2005tu]
[23-722]
Tera-Leptons Shadows over Sinister Universe, D. Fargion, M. Khlopov, Grav.Cosmol. 19 (2013) 219-231, arXiv:hep-ph/0507087.
[Fargion:2005xz]
[23-723]
Bi-large neutrino mixing see-saw mass matrix with texture zeros and leptogenesis, Wei Chao, Xiao-Gang He, Xue-Qian Li, Commun. Theor. Phys. 45 (2006) 1073-1084, arXiv:hep-ph/0503285.
[Chao:2005td]
[23-724]
Neutrino Oscillations in a Supersymmetric SO(10) Model with Type-III See-Saw Mechanism, Takeshi Fukuyama, Amon Ilakovac, Tatsuru Kikuchi, Koichi Matsuda, JHEP 0506 (2005) 016, arXiv:hep-ph/0503114.
[Fukuyama:2005gg]
[23-725]
Seesaw geometry and leptogenesis, Pasquale Di Bari, Nucl. Phys. B727 (2005) 318, arXiv:hep-ph/0502082.
[DiBari:2005st]
[23-726]
Leptogenesis, $\mu-\tau$ Symmetry and $\theta_{13}$, R.N. Mohapatra, S. Nasri, Haibo Yu, Phys. Lett. B615 (2005) 231, arXiv:hep-ph/0502026.
[Mohapatra:2005ra]
[23-727]
A Predictive Seesaw Scenario for EDMs, Eung Jin Chun, Antonio Masiero, Anna Rossi, Sudhir K. Vempati, Phys. Lett. B622 (2005) 112, arXiv:hep-ph/0502022.
[Chun:2005qw]
[23-728]
On Power and Complementarity of the Experimental Constraints on Seesaw Models, I. Masina, C.A. Savoy, Phys. Rev. D71 (2005) 093003, arXiv:hep-ph/0501166.
[Masina:2005am]
[23-729]
See-Saw Energy Scale and the LSND Anomaly, Andre de Gouvea, Phys. Rev. D72 (2005) 033005, arXiv:hep-ph/0501039.
[deGouvea:2005er]
[23-730]
Absolute values of neutrino masses implied by the seesaw mechanism, H. Tsujimoto, arXiv:hep-ph/0501023, 2005.
[Tsujimoto:2005sn]
[23-731]
Lightest Higgs Boson Mass in Supersymmetric See-saw Model, Junjie Cao, Jin Min Yang, Phys. Rev. D71 (2005) 111701, arXiv:hep-ph/0412315.
[Cao:2004hs]
[23-732]
Testing the see-saw mechanism at collider energies, S. F. King, T. Yanagida, Prog. Theor. Phys. 114 (2006) 1035, arXiv:hep-ph/0411030.
[King:2004cx]
[23-733]
Neutrino Physics in the Seesaw Model, A. Broncano, M. B. Gavela, E. Jenkins, Nucl. Phys. B672 (2003) 163, arXiv:hep-ph/0307058.
[Broncano:2003fq]
[23-734]
Lepton number and lepton flavor violations in seesaw models, D. Falcone, Mod. Phys. Lett. A17 (2002) 2467, arXiv:hep-ph/0207308.
[Falcone:2002pt]
[23-735]
Seesaw mechanism, baryon asymmetry and neutrinoless double beta decay, D. Falcone, Phys. Rev. D66 (2002) 053001, arXiv:hep-ph/0204335.
[Falcone:2002is]
[23-736]
Phenomenology of the neutrino-mass-giving Higgs triplet and the low-energy seesaw violation of lepton number, E. Ma, M. Raidal, U. Sarkar, Nucl. Phys. B615 (2001) 313-330, arXiv:hep-ph/0012101.
[Ma:2000xh]
[23-737]
Seesaw type mixing and $\nu_{\mu}\to\nu_{\tau}$ oscillations, Samoil M. Bilenky, C. Giunti, Phys. Lett. B300 (1993) 137-140, arXiv:hep-ph/9211269.
[Bilenky:1992wv]
[23-738]
Solutions of the solar neutrino problem, S. A. Bludman, D. C. Kennedy, P. G. Langacker, Nucl. Phys. B374 (1992) 373-391.
[Bludman:1991iq]
[23-739]
Seesaw model predictions for the tau-neutrino mass, Sidney A. Bludman, D. C. Kennedy, P. G. Langacker, Phys. Rev. D45 (1992) 1810-1813.
[Bludman:1992za]
[23-740]
Lepton number violation and massless nonorthogonal neutrinos, Paul Langacker, David London, Phys. Rev. D38 (1988) 907.
[Langacker:1988up]
[23-741]
Mixing between ordinary and exotic fermions, Paul Langacker, David London, Phys. Rev. D38 (1988) 886.
[Langacker:1988ur]

24 - Phenomenology - See-Saw - Talks

[24-1]
Domain Walls in the $A_4$ Flavored NMSSM, Mohamed Amin Loualidi, Salah Nasri, arXiv:2401.07277, 2024. BSM-2023, Hurghada, Egypt.
[Loualidi:2024hgd]
[24-2]
Dark matter from sterile-sterile neutrino mixing, Pasquale Di Bari, PoS CORFU2022 (2023) 065, arXiv:2305.03032. CORFU2022: 22th Hellenic School and Workshops on Elementary Particle Physics and Gravity.
[DiBari:2023nrd]
[24-3]
Resolving a challenging supersymmetric low-scale seesaw scenario at the ILC, Joaquin Masias, arXiv:2105.14340, 2021. International Workshop on Future Linear Colliders (LCWS2021), 15-18 March 2021.
[Masias:2021yee]
[24-4]
Trimaximal mixing with one texture zero from type II seesaw and $\Delta(54)$ family symmetry, M. A. Loualidi, arXiv:2104.13734, 2021. BSM-2021.
[Loualidi:2021qoq]
[24-5]
A radiative seesaw model with GeV singlet-doublet fermion and TeV triplet scalar dark matter, J. Fiaschi, M. Klasen, S. May, PoS EPS-HEP2019 (2020) 088, arXiv:1909.06117. EPS Conference on High-Energy Physics (EPS-HEP 2019), Ghent, Belgium.
[Fiaschi:2019mxt]
[24-6]
Pati-Salam and lepton universality in B decays, Julian Heeck, Daniele Teresi, arXiv:1905.05211, 2019. 2019 EW session of the 54th Rencontres de Moriond.
[Heeck:2019nmh]
[24-7]
Searching for heavy neutrinos with WWH production, J. Baglio, C. Weiland, arXiv:1902.05548, 2019. International Workshop on Future Linear Colliders (LCWS2018), Arlington, Texas, 22-26 October 2018.
[Baglio:2019sqq]
[24-8]
Perspectives to find heavy neutrinos with NA62, Marco Drewes, Jan Hajer, Juraj Klaric, Gaia Lanfranchi, arXiv:1806.00100, 2018. 53rd Rencontres de Moriond on Electroweak Interactions and Unified Theories (2018).
[Drewes:2018irr]
[24-9]
Towards the minimal seesaw model for the prediction of neutrino CP violation, Yusuke Shimizu, Kenta Takagi, Morimitsu Tanimoto, arXiv:1805.02925, 2018. PPAP 2018.
[Shimizu:2018pck]
[24-10]
Probing the Seesaw Mechanism and Leptogenesis with the International Linear Collider, Stefan Antusch et al., arXiv:1801.06534, 2018. International Workshop on Future Linear Colliders (LCWS2017), Strasbourg, France, 23-27 October 2017.
[Antusch:2018ahh]
[24-11]
Higgs effective $Hl_il_j$ vertex from heavy $\nu_R$ and applications to LFV phenomenology, Maria J. Herrero, Ernesto Arganda, Xabier Marcano, Roberto Morales, Alejandro Szynkman, PoS EPS-HEP2017 (2017) 114, arXiv:1710.02510. EPS-HEP-2017, 05-12 Jul 2017, Venice, Italy.
[Herrero:2017myd]
[24-12]
Charged lepton flavour violation from low scale seesaw neutrinos, V. De Romeri, M.J. Herrero, X. Marcano, F. Scarcella, PoS CORFU2016 (2017) 055, arXiv:1705.00485. Corfu Summer Institute 2016 'School and Workshops on Elementary Particle Physics and Gravity', 31 August - 23 September 2016, Corfu, Greece.
[DeRomeri:2017ucv]
[24-13]
On Naturalness in type II seesaw models and the heavy Higgs masses, Mohamed Chabab, Michel Capdequi Peyranere, Larbi Rahili, PoS ICHEP2016 (2016) 794, arXiv:1612.08770. ICHEP Conference, Aug 3-10, 2016, Chicago, USA.
[Chabab:2016vqn]
[24-14]
Lepton Number Violation in Low Scale Seesaw Mechanism and its Collider Complementarity, Prativa Pritimita, Nitali Dash, Sudhanwa Patra, PoS ICHEP2016 (2016) 978, arXiv:1612.07951. ICHEP.
[Pritimita:2016rop]
[24-15]
Testable Baryogenesis in Seesaw Models, J. Salvado, P. Hernandez, M. Kekic, J. Lopez-Pavon, J. Racker, arXiv:1611.05715, 2016. NuFact 2016.
[Salvado:2016dsf]
[24-16]
Lepton Flavour Violating Higgs Decays in the (SUSY) Inverse Seesaw, E. Arganda, M.J. Herrero, X. Marcano, C. Weiland, arXiv:1605.05660, 2016. NuPhys2015 (London, 16-18 December 2015).
[Arganda:2016snv]
[24-17]
Heavy Neutrinos at Future Colliders, P. S. Bhupal Dev, Alejandro Ibarra, Frascati Phys.Ser. 61 (2016) 40, arXiv:1601.01658. LFC15 Workshop, Trento, Italy (September 7-11, 2015).
[Dev:2016vif]
[24-18]
Hints of a PeV Scale Supersymmetric Neutrino Sector: Neutrino Masses, Dark Matter, keV and PeV Anomalies, Bibhushan Shakya, Samuel B. Roland, James D. Wells, arXiv:1510.08540, 2015. DPF 2015 Meeting of the American Physical Society Division of Particles and Fields, Ann Arbor, Michigan, August 4-8, 2015.
[Shakya:2015tza]
[24-19]
Light Leptonic New Physics at the Precision Frontier, Matthias Le Dall, AIP Conf.Proc. 1743 (2016) 060002, arXiv:1509.07894. PPC2015.
[Dall:2015hua]
[24-20]
Neutrino Mass and Dark Matter from Gauged B$-$L Breaking, Toshinori Matsui, arXiv:1505.08025, 2015. 2nd Toyama International Workshop on 'Higgs as a Probe of New Physics 2015' (HPNP2015), Toyama, Japan, 11-15 Feb. 2015.
[Matsui:2015uea]
[24-21]
Flavour violating lepton decays in low-scale seesaws, C. Weiland, Nucl.Part.Phys.Proc. 273-275 (2016) 1699-1704, arXiv:1410.6180. ICHEP 2014.
[Weiland:2014fua]
[24-22]
Radiatively-induced LFV Higgs Decays from Massive ISS Neutrinos, E. Arganda, M.J. Herrero, X. Marcano, C. Weiland, Nucl.Part.Phys.Proc. 273-275 (2016) 1685-1691, arXiv:1410.5779. 37th International Conference on High Energy Physics (ICHEP 2014).
[Arganda:2014oga]
[24-23]
Lepton flavour violating Higgs decays, E. Arganda, M.J. Herrero, X. Marcano, C. Weiland, arXiv:1406.0384, 2014. Moriond 2014 EW session.
[Arganda:2014via]
[24-24]
Higgs inflation scenario in a radiative seesaw model and its testability at the ILC, Toshinori Matsui, arXiv:1405.5700, 2014. International Workshop on Future Linear Colliders (LCWS13), Tokyo, Japan, 11-15 November 2013.
[Matsui:2014xja]
[24-25]
Progress in the parametrisation of the Neutrino sector, Thomas Gajdosik, Andrius Juodagalvis, Darius Jurciukonis, Tomas Sabonis, Acta Phys.Polon. B44 (2013) 2347-2352, arXiv:1310.2476.
[Gajdosik:2013gpa]
[24-26]
The high-scale SUSY seesaw: LHC vs low energy, A. J. R. Figueiredo, arXiv:1306.4279, 2013. 48th Rencontres de Moriond, Electroweak Session, La Thuile, Italy, 2-9 March 2013.
[Figueiredo:2013mua]
[24-27]
Testability of the Higgs inflation scenario in a radiative seesaw model, Toshinori Matsui, arXiv:1305.0170, 2013. Toyama International Workshop on 'Higgs as a Probe of New Physics 2013' (HPNP2013), Toyama, Japan, 13-16 Feb. 2013.
[Matsui:2013mya]
[24-28]
Direct Probe of Majorana and Extended Higgs Particles in Radiative Seesaw Models at the ILC, Hiroshi Yokoya, arXiv:1304.8023, 2013. Toyama International Workshop on 'Higgs as a Probe of New Physics 2013' (HPNP2013), Toyama, Japan, 13-16 Feb. 2013.
[Yokoya:2013pta]
[24-29]
Same-sign tetra-leptons in type II seesaw at the LHC, Eung Jin Chun, Pankaj Sharma, arXiv:1304.5059, 2013. International Workshop on 'Higgs as a Probe of New Physics 2013 ', Toyama, Japan.
[Chun:2013fya]
[24-30]
Potential of a Linear Collider for Lepton Flavour Violation studies in the SUSY seesaw, A. J. R. Figueiredo, A. Abada, J. C. Romao, A. M. Teixeira, J. Phys. Conf. Ser. 447 (2013) 012035, arXiv:1303.2625. DISCRETE 2012 - 3rd Symposium on Prospects in the Physics of Discrete Symmetries, Lisbon, Portugal, 3-7 December 2012.
[Figueiredo:2013mra]
[24-31]
Parametrizing the Neutrino sector of the seesaw extension in tau decays, D. Jurciukonis, T. Gajdosik, A. Juodagalvis, T. Sabonis, Acta Phys.Polon.Supp. 6 (2013) 675-680, arXiv:1212.5370. 36th International Conference on High Energy Physics, 4-11 July 2012, Melbourne, Australia.
[Jurciukonis:2012ft]
[24-32]
Right Handed Sneutrino Dark Matter in Inverse and Linear seesaw scenarios, Valentina De Romeri, arXiv:1209.1465, 2012. PASCOS2012.
[DeRomeri:2012pu]
[24-33]
Triplet seesaw model: from inflation to asymmetric dark matter and leptogenesis, Chiara Arina, J. Phys. Conf. Ser. 485 (2014) 012039, arXiv:1209.1288. PASCOS2012.
[Arina:2012jp]
[24-34]
Enhanced Higgs-Mediated Lepton-Flavour-Violating Processes in the Supersymmetric Inverse Seesaw Model, Cedric Weiland, Proc.Int.Sch.Phys.Fermi 182 (2012) 343-347, arXiv:1205.6400. International School of Physics 'E. Fermi', Course CLXXXII, Neutrino Physics and Astrophysics, Varenna 2011.
[Weiland:2012pu]
[24-35]
Heavy Sterile Neutrinos and Neutrinoless Double Beta Decay, Manimala Mitra, Goran Senjanovic, Francesco Vissani, arXiv:1205.3867, 2012. Moriond EW 2012.
[Mitra:2012qz]
[24-36]
Lepton flavor violation in minimal flavor violation extensions of the seesaw, Enrico Nardi, Nucl. Phys. Proc. Suppl. 225-227 (2012) 236-240, arXiv:1112.4418. PHIPSI08.
[Nardi:2011sx]
[24-37]
Indirect Signatures of Type I See-Saw Scenarios, Emiliano Molinaro, J. Phys. Conf. Ser. 375 (2012) 042002, arXiv:1112.0682. 12th International Conference on Topics in Astroparticle and Underground Physics (TAUP 2011), Munich, Germany, 5-9 September 2011.
[Molinaro:2011fp]
[24-38]
Phenomenology of TeV Scale See-Saw Mechanism, Emiliano Molinaro, PoS EPS-HEP2011 (2011) 101, arXiv:1111.3005. 2011 Europhysics Conference on High Energy Physics: HEP 2011 (EPS-HEP 2011), Grenoble, France, 21-27 July 2011.
[Molinaro:2011wd]
[24-39]
Parametrizing the Neutrino sector, Thomas Gajdosik, Andrius Juodagalvis, Darius Jurciukonis, Tomas Sabonis, Acta Phys. Polon. B42 (2011) 2407, arXiv:1111.1588. Matter to the Deepest: Recent Development in Physics of Fundamental Interactions, Ustron, Poland, 12-18 Sep 2011.
[Gajdosik:2011kq]
[24-40]
Neutrino Masses at LHC: Minimal Lepton Flavour Violation in Type-III See-saw, O.J.P. Eboli, J. Gonzalez-Fraile, M.C. Gonzalez-Garcia, JHEP 12 (2011) 009, arXiv:1108.0661.
[Eboli:2011ia]
[24-41]
LHC and Lepton Flavour Violation Phenomenology in Seesaw Models, Jorge C. Romao, arXiv:1105.5608, 2011. Moriond 2011 EW Session.
[Romao:2011kz]
[24-42]
Lepton Number Violation in TeV Scale See-Saw Extensions of the Standard Model, A. Ibarra, E. Molinaro, S.T. Petcov, J. Phys. Conf. Ser. 335 (2011) 012048, arXiv:1101.5778. DISCRETE 2010- Symposium on Prospects in the Physics of Discrete Symmetries.
[Ibarra:2011wi]
[24-43]
Seesaw at LHC through Left - Right Symmetry, Goran Senjanovic, Int. J. Mod. Phys. A26 (2011) 1469-1491, arXiv:1012.4104. Conference in Honour of Murray Gell-Mann's 80th Birthday, NTU, Singapore, February 2010.
[Senjanovic:2010nq]
[24-44]
Phenomenology of LFV at low-energies and at the LHC: strategies to probe the SUSY seesaw, A. M. Teixeira, A. Abada, A. J. R. Figueiredo, J. C. Romao, Nucl. Phys. Proc. Suppl. 218 (2011) 50-55, arXiv:1012.2982. 11th International Workshop on Tau Lepton Physics (TAU2010), Manchester, UK, 13-17 September 2010.
[Teixeira:2010kw]
[24-45]
Charged LFV in a low-scale seesaw mSUGRA model, Amon Ilakovac, Apostolos Pilaftsis, Nucl. Phys. Proc. Suppl. 218 (2011) 26-31, arXiv:1012.2823. 11th International Workshop on Tau Lepton Physics, Manchester, UK, September 13-17, 2010.
[Ilakovac:2010ct]
[24-46]
Lepton flavor violation in SUSY left-right symmetric theories, Avelino Vicente, J. Phys. Conf. Ser. 259 (2010) 012065, arXiv:1010.0799. PASCOS 2010, the 16th International Symposium on Particles, Strings and Cosmology, Valencia, Spain.
[Vicente:2010wa]
[24-47]
ILC phenomenology in a TeV scale radiative seesaw model for neutrino mass, dark matter and baryon asymmetry, Mayumi Aoki, Shinya Kanemura, Osamu Seto, arXiv:1008.2407, 2010. ILC physics working group meetings, KEK.
[Aoki:2010aq]
[24-48]
Probing the Majorana nature of TeV-scale radiative seesaw models at the ILC, Mayumi Aoki, Shinya Kanemura, arXiv:1007.0706, 2010. LCWS/ILC2010.
[Aoki:2010mu]
[24-49]
Unsterile-Active Neutrino Mixing, Jimmy A. Hutasoit, J. Phys. Conf. Ser. 462 (2013) 012021, arXiv:1004.2705. 6th International Symposium on Quantum Theory and Symmetries.
[Hutasoit:2010yv]
[24-50]
LHC and the origin of neutrino mass, Goran Senjanovic, J. Phys. Conf. Ser. 136 (2008) 022039, arXiv:0911.0029. Neutrino 08, Christchurch, New Zealand and Physics at LHC - 2008, Split, Croatia.
[Senjanovic:2008zz]
[24-51]
Trilepton signals: the golden channel for seesaw searches at LHC, F. del Aguila, J.A. Aguilar-Saavedra, J. de Blas, Acta Phys. Polon. B40 (2009) 2901-2911, arXiv:0910.2720. XXXIII International School of Theoretical Physics 'Matter To The Deepest', Ustron, Poland, September 11-16, 2009.
[delAguila:2009bb]
[24-52]
Lepton flavour violating slepton decays to test type-I and II seesaw at the LHC, Albert Villanova del Moral, AIP Conf. Proc. 1200 (2010) 892-895, arXiv:0909.5627. 17th International Conference on Supersymmetry and the Unification of Fundamental Interactions (SUSY09), Boston (MA), USA, 5-10 Jun 2009.
[VillanovadelMoral:2009kj]
[24-53]
Non-unitarity effects in the minimal inverse seesaw model, Michal Malinsky, PoS EPS-HEP2009 (2009) 288, arXiv:0909.1953. 2009 Europhysics Conference on High Energy Physics, July 16 - 22, 2009, Krakow, Poland.
[Malinsky:2009dh]
[24-54]
Sensitivity to the Higgs sector of SUSY-seesaw models via LFV tau decays, M.Herrero, J.Portoles, A.Rodriguez-Sanchez, AIP Conf. Proc. 1200 (2010) 908-911, arXiv:0909.0724. SUSY09.
[Herrero:2009ad]
[24-55]
Revisiting CP-violation in Minimal Flavour Violation, Lorenzo Mercolli, PoS EFT09 (2009) 035, arXiv:0903.4633. International Workshop on Effective Field Theories: from the pion to the upsilon, February 2-6 2009, Valencia, Spain.
[Mercolli:2009dd]
[24-56]
Lepton flavour violating stau decays versus seesaw parameters: correlations and expected number of events for both seesaw type-I and II, A. Villanova del Moral, J. Phys. Conf. Ser. 171 (2009) 012074, arXiv:0902.3820. DISCRETE'08 Symposium on Prospects in the Physics of Discrete Symmetries, 11-16 December 2008, Valencia, Spain.
[VillanovadelMoral:2009ma]
[24-57]
Tev Neutrino Physics at the Large Hadron Collider, Zhi-zhong Xing, Int. J. Mod. Phys. A24 (2009) 3286-3296, arXiv:0901.0209. International Conference on Particle Physics, Astrophysics and Quantum Field Theory: 75 Years since Solvay, 27-29 November 2008, Singapore.
[Xing:2009mm]
[24-58]
Doubly charged Higgs in 3-3-1 model at the CERN LHC, J. E. Cieza Montalvo, Nelson V. Cortez, M. D. Tonasse, arXiv:0812.4000, 2008. Prospects for Charged Higgs Discovery at Colliders (Charged Higgs 2008) Uppsala - Sweeden, 16-19 September 2008.
[CiezaMontalvo:2008xgr]
[24-59]
Lepton Flavour Violation in charged leptons within SUSY- seesaw, E. Arganda, M. Herrero, J. Portoles, A. Rodriguez-Sanchez, A. Teixeira, Nucl. Phys. Proc. Suppl. 189 (2009) 134, arXiv:0812.2692. Tau08 Conference, Novosibirsk, Russia, 22-25 September 2008.
[Arganda:2008yc]
[24-60]
Determining the heavy seesaw neutrino mass matrix from low-energy parameters, Xiao-Gang He, Sandy S. C. Law, Raymond R. Volkas, Phys. Rev. D78 (2008) 113001, arXiv:0810.1104.
[He:2008cd]
[24-61]
LFV in semileptonic $\tau$ decays and $\mu-e$ conversion in nuclei in SUSY-seesaw, E. Arganda, M. J. Herrero, J. Portoles, A. Rodriguez-Sanchez, A. M. Teixeira, AIP Conf. Proc. 1078 (2009) 335-337, arXiv:0810.0163. SUSY08, Seoul.
[Arganda:2008nc]
[24-62]
Lepton flavour violation in constrained MSSM-seesaw models, E. Arganda, M.J. Herrero, arXiv:0810.0160, 2008. Moriond, La Thuile, 1-8 March 2008.
[Arganda:2008mz]
[24-63]
Low energy processes to distinguish among seesaw models, C. Biggio, Nuovo Cim. 123B (2008) 880-882, arXiv:0809.3922. IFAE08, Bologna, Italy.
[Biggio:2008dz]
[24-64]
Lepton flavour violation in the supersymmetric type-II seesaw mechanism, F. R. Joaquim, Anna Rossi, AIP Conf. Proc. 1078 (2009) 372-374, arXiv:0809.2859. 16th International Conference on Supersymmetry and the Unification of Fundamental Interactions (SUSY08), Seoul, Korea, 16-21 Jun 2008.
[Joaquim:2008bm]
[24-65]
Cosmological Constraints for the Cold Dark Matter and Model Building based on the Flavor Symmetric Radiative Seesaw Model, Hiroshi Okada, Prog. Theor. Phys. Suppl. 172 (2008) 220-223, arXiv:0801.3029. ICGA8-For The 100th Anniversary of Hideki Yukawa and Promotion of Women Scientists-, Nara Women's University, Japan (August 29-September 1, 2007).
[Okada:2008qi]
[24-66]
Lepton Flavour Violation in SUSY-seesaw: an update, E. Arganda, M.J. Herrero, arXiv:0710.4091, 2007. To appear in the proceedings of 15th International Conference on Supersymmetry and the Unification of Fundamental Interactions (SUSY07), Karlsruhe, Germany, 26 Jul - 1 Aug 2007. 4 pages, 8 figures.
[Arganda:2007kz]
[24-67]
Looking for signals beyond the neutrino Standard Model, F. del Aguila, J.A. Aguilar Saavedra, J. de Blas, M. Zralek, Acta Phys. Polon. B38 (2007) 3339-3348, arXiv:0710.2923. XXXI International School of Theoretical Physics 'Matter To The Deepest' Ustron, Poland, September 5-11, 2007.
[delAguila:2007ap]
[24-68]
Lepton Flavor Violation at the LHC, Frank Deppisch, arXiv:0710.2525, 2007. SUSY07.
[Deppisch:2007rm]
[24-69]
Can LHC Test the See-Saw Mechanism?, Joern Kersten, arXiv:0710.2482, 2007. SUSY07.
[Kersten:2007qn]
[24-70]
Decay of Charged Higgs boson in TeV scale supersymmetric seesaw model, Satoru Kaneko, arXiv:0710.2214, 2007. SUSY07.
[Kaneko:2007it]
[24-71]
Sensitivity to SUSY Seesaw Parameters and Lepton Flavour Violation, A.M. Teixeira, S. Antusch, E. Arganda, M.J. Herrero, eConf C070512 (2007) 029, arXiv:0708.2617. 5th Flavor Physics and CP Violation Conference (FPCP 2007), Bled, Slovenia, 12-16 May 2007.
[Teixeira:2007gq]
[24-72]
LFV in tau and muon decays within SUSY seesaw, S. Antusch, E. Arganda, M.J. Herrero, A.M. Teixeira, Nucl. Phys. Proc. Suppl. 169 (2007) 155-165, arXiv:hep-ph/0610439. 9th International Workshop on Tau-Lepton Physics, Tau06, 19-22 September 2006, Pisa, Italy.
[Antusch:2006bw]
[24-73]
From Unified Theories to Precision Neutrino Experiments, Stefan Antusch, Conf.Proc. C060726 (2006) 308-311, arXiv:hep-ph/0608338. XXXIII International Conference on High Energy Physics (ICHEP06), Moscow, Russia, 26.07 - 02.08, 2006.
[Antusch:2006qb]
[24-74]
Sneutrino Hybrid Inflation, Stefan Antusch, AIP Conf. Proc. 878 (2006) 284-290, arXiv:hep-ph/0608261. International Workshop on The Dark Side of the Universe (DSU2006), Madrid, Spain, June 20-24, 2006.
[Antusch:2006gh]
[24-75]
Observable Neutron-Anti-Neutron Oscillation, Baryogenesis and High Scale Seesaw, R. N. Mohapatra, Pramana 67 (2006) 783-792, arXiv:hep-ph/0605289. WHEPP9 symposium in Bhubaneswar, India; January, 2006.
[Mohapatra:2006ei]
[24-76]
Can a measurement of theta-13 tell us about quark-lepton unification ?, R. N. Mohapatra, arXiv:hep-ph/0504138, 2005. Neutrino 2005 (Neutrino Telescope Workshop) in Venice, March, 2005.
[Mohapatra:2005md]
[24-77]
Leptonic CP Violation and Baryon Asymmetry, M. N. Rebelo, arXiv:hep-ph/0502099, 2005. Fifth International Heidelberg Conference on Dark Matter In Astro And Particle Physics (DARK2004) at Texas A&M University, College Station, TX, USA October 3 - 9, 2004.
[Rebelo:2005wg]
[24-78]
Radiative leptogenesis in minimal seesaw models, F.R. Joaquim, Nucl. Phys. Proc. Suppl. 145 (2005) 276, arXiv:hep-ph/0501221. NOW 2004: Neutrino Oscillation Workshop, Conca Specchiulla, Otranto, Italy, 11-17 Sep 2004.
[Joaquim:2005zv]

25 - Phenomenology - Pseudo-Dirac and Quasi-Dirac

[25-1]
JUNO as a Probe of the Pseudo-Dirac Nature using Solar Neutrinos, Jack Franklin, Yuber F. Perez-Gonzalez, Jessica Turner, Phys.Rev.D 108 (2023) 035010, arXiv:2304.05418.
[Franklin:2023diy]
[25-2]
Probing Pseudo-Dirac Neutrinos with Astrophysical Sources at IceCube, Kiara Carloni, Ivan Martinez-Soler, Carlos A. Arguelles, K. S. Babu, P. S. Bhupal Dev, PoS ICRC2023 (2023) 1040, arXiv:2212.00737.
[Carloni:2022cqz]
[25-3]
Constraints on pseudo-Dirac neutrinos using high-energy neutrinos from NGC 1068, Thomas Rink, Manibrata Sen, Phys.Lett.B 851 (2024) 138558, arXiv:2211.16520.
[Rink:2022nvw]
[25-4]
Revisiting pseudo-Dirac neutrino scenario after recent solar neutrino data, S. Ansarifard, Y. Farzan, Phys.Rev.D 107 (2023) 075029, arXiv:2211.09105.
[Ansarifard:2022kvy]
[25-5]
Simulating lepton number violation induced by heavy neutrino-antineutrino oscillations at colliders, Stefan Antusch, Jan Hajer, Johannes Rosskopp, JHEP 03 (2023) 110, arXiv:2210.10738.
[Antusch:2022ceb]
[25-6]
Naturally Light Dirac and Pseudo-Dirac Neutrinos from Left-Right Symmetry, K.S. Babu, Xiao-Gang He, Mingxian Su, Anil Thapa, JHEP 08 (2022) 140, arXiv:2205.09127.
[Babu:2022ikf]
[25-7]
Constraining Feeble Neutrino Interactions with Ultralight Dark Matter, Abhish Dev, Gordan Krnjaic, Pedro Machado, Harikrishnan Ramani, Phys.Rev.D 107 (2023) 035006, arXiv:2205.06821.
[Dev:2022bae]
[25-8]
SN1987A still shining: A Quest for Pseudo-Dirac Neutrinos, Ivan Martinez-Soler, Yuber F. Perez-Gonzalez, Manibrata Sen, Phys.Rev.D 105 (2022) 095019, arXiv:2105.12736.
[Martinez-Soler:2021unz]
[25-9]
Quasi-Dirac neutrinos in the linear seesaw model, Carolina Arbelaez, Claudio Dib, Kevin Monsalvez-Pozo, Ivan Schmidt, JHEP 07 (2021) 154, arXiv:2104.08023.
[Arbelaez:2021chf]
[25-10]
Quasi-Dirac neutrino oscillations at DUNE and JUNO, G. Anamiati, V. De Romeri, M. Hirsch, C. A. Ternes, M. Tortola, Phys.Rev. D100 (2019) 035032, arXiv:1907.00980.
[Anamiati:2019maf]
[25-11]
Majorana vs Pseudo-Dirac Neutrinos at the ILC, P. Hernandez, J. Jones-Perez, O. Suarez-Navarro, Eur.Phys.J. C79 (2019) 220, arXiv:1810.07210.
[Hernandez:2018cgc]
[25-12]
The Standard Model with Diracian neutrino sector, T. M. Nieuwenhuizen, Symmetry 11 (2019) 994, arXiv:1810.04613.
[Nieuwenhuizen:2018vzf]
[25-13]
Pseudo-Dirac neutrinos from flavour dependent CP symmetry, Anjan S. Joshipura, Ketan M. Patel, JHEP 1807 (2018) 137, arXiv:1805.02002.
[Joshipura:2018cpb]
[25-14]
Quasi Dirac neutrino oscillations, G. Anamiati, R. M. Fonseca, M. Hirsch, Phys.Rev. D97 (2018) 095008, arXiv:1710.06249.
[Anamiati:2017rxw]
[25-15]
Quasi-Dirac neutrinos at the LHC, G. Anamiati, M. Hirsch, E. Nardi, JHEP 1610 (2016) 010, arXiv:1607.05641.
[Anamiati:2016uxp]
[25-16]
Quasi-Dirac neutrinos and solar neutrino data, F. Rossi-Torres, A.C.B. Machado, V. Pleitez, Eur.Phys.J. C73 (2013) 2596, arXiv:1302.5590.
[Rossi-Torres:2013dya]
[25-17]
Implications of the Pseudo-Dirac Scenario for Ultra High Energy Neutrinos from GRBs, Arman Esmaili, Yasaman Farzan, JCAP 1212 (2012) 014, arXiv:1208.6012.
[Esmaili:2012ac]
[25-18]
Neutrinoless double beta decay with pseudo Dirac neutrinos, Pei-Hong Gu, Phys. Rev. D85 (2012) 093016, arXiv:1101.5106.
[Gu:2011ak]
[25-19]
Pseudo-Dirac Neutrino Scenario: Cosmic Neutrinos at Neutrino Telescopes, Arman Esmaili, Phys. Rev. D81 (2010) 013006, arXiv:0909.5410.
[Esmaili:2009fk]
[25-20]
Pseudo-Dirac Neutrinos in the New Standard Model, Andre de Gouvea, Wei-Chih Huang, James Jenkins, Phys. Rev. D80 (2009) 073007, arXiv:0906.1611.
[deGouvea:2009fp]
[25-21]
Probing Pseudo-Dirac Neutrino through Detection of Neutrino Induced Muons from GRB Neutrinos, Debasish Majumdar, Pramana 70 (2008) 51-60, arXiv:hep-ph/0607344.
[Majumdar:2006bu]
[25-22]
Pseudo-Dirac Neutrinos, a Challenge for Neutrino Telescopes, J. F. Beacom et al., Phys. Rev. Lett. 92 (2004) 011101, arXiv:hep-ph/0307151.
[Beacom:2003eu]
[25-23]
Pseudo-Dirac scenario for neutrino oscillations, Makoto Kobayashi, C. S. Lim, Phys. Rev. D64 (2001) 013003, arXiv:hep-ph/0012266.
[Kobayashi:2000md]
[25-24]
Phenomenology of pseudo Dirac neutrinos, Anjan S. Joshipura, Saurabh D. Rindani, Phys. Lett. B494 (2000) 114-123, arXiv:hep-ph/0007334.
[Joshipura:2000ts]
[25-25]
Pseudo-Dirac solar neutrinos, Yosef Nir, JHEP 06 (2000) 039, arXiv:hep-ph/0002168.
[Nir:2000xn]
[25-26]
Pseudo-Dirac neutrinos as a potential complete solution to the neutrino oscillation puzzle, A. Geiser, Phys. Lett. B444 (1999) 358, arXiv:hep-ph/9901433.
[Geiser:1998mr]
[25-27]
Oscillations of pseudo-Dirac neutrinos and the solar neutrino problem, C. Giunti, C. W. Kim, U. W. Lee, Phys. Rev. D46 (1992) 3034-3039, arXiv:hep-ph/9205214.
[Giunti:1992hk]
[25-28]
Pseudo-Dirac neutrinos and the solar neutrino problem, Hisakazu Minakata, Hiroshi Nunokawa, Phys. Rev. D45 (1992) 3316-3320.
[Minakata:1991wp]
[25-29]
Cosmological and astrophysical constraints on a pseudo-Dirac tau-neutrino, Lance J. Dixon, Yosef Nir, Phys. Lett. B266 (1991) 425-430.
[Dixon:1991ss]
[25-30]
Pseudo-Dirac solar neutrinos?, Utpal Sarkar, Phys. Rev. D35 (1987) 1528.
[Sarkar:1986rf]
[25-31]
The solar neutrino puzzle, the Mikheev-Smirnov-Wolfenstein mechanism and the pseudo-Dirac neutrino, S. Toshev, Phys. Lett. B180 (1986) 285-289.
[Toshev:1986yp]
[25-32]
Dirac and pseudo-Dirac neutrinos and neutrinoless double beta decay, Jose F. Nieves, Phys. Lett. B147 (1984) 375.
[Nieves:1984sn]
[25-33]
Pseudo-Dirac neutrino, Masaru Doi, Masakatsu Kenmoku, Tsuneyuki Kotani, Hiroyuki Nishiura, Eiichi Takasugi, Prog.Theor.Phys. 70 (1983) 1331.
[Doi:1983wu]
[25-34]
On pseudo-Dirac neutrinos, neutrino oscillations and neutrinoless double beta decay, S. T. Petcov, Phys. Lett. B110 (1982) 245-249.
[Petcov:1982ya]
[25-35]
Different Varieties of Massive Dirac Neutrinos, Lincoln Wolfenstein, Nucl. Phys. B186 (1981) 147.
[Wolfenstein:1981kw]

26 - Phenomenology - Pseudo-Dirac and Quasi-Dirac - Talks

[26-1]
Pseudo-Dirac neutrino, Masaru Doi, Masakatsu Kenmoku, Tsuneyuki Kotani, Hiroyuki Nishiura, Eiichi Takasugi, Prog. Theor. Phys. 70 (1983) 1331. Lepton-Photon Conference, Ithaca, N.Y., Aug. 4-9, l983.
[Doi:1983wu]

27 - Phenomenology - Majorons

[27-1]
Constraining MeV to 10 GeV majoron by Big Bang Nucleosynthesis, Sanghyeon Chang, Sougata Ganguly, Tae Hyun Jung, Tae-Sun Park, Chang Sub Shin, arXiv:2401.00687, 2024.
[Chang:2024mvg]
[27-2]
Limits on heavy neutral leptons, $Z'$ bosons and majorons from high-energy supernova neutrinos, Kensuke Akita, Sang Hui Im, Mehedi Masud, Seokhoon Yun, arXiv:2312.13627, 2023.
[Akita:2023iwq]
[27-3]
Leptogenesis driven by majoron, Eung Jin Chun, Tae Hyun Jung, arXiv:2311.09005, 2023.
[Chun:2023eqc]
[27-4]
Majorana Majoron and the Baryon Asymmetry of the Universe, Wei Chao, Ying-Quan Peng, arXiv:2311.06469, 2023.
[Chao:2023ojl]
[27-5]
Contribution of Majoron to Hubble tension in gauged U(1)$_{L_\mu-L_\tau}$ Model, Kento Asai, Tomoya Asano, Joe Sato, Masaki J. S. Yang, arXiv:2309.01162, 2023.
[Asai:2023ajh]
[27-6]
Type-II Majoron Dark Matter, Carla Biggio, Lorenzo Calibbi, Toshihiko Ota, Samuele Zanchini, Phys.Rev.D 108 (2023) 115003, arXiv:2304.12527.
[Biggio:2023gtm]
[27-7]
Updated Constraints and Future Prospects on Majoron Dark Matter, Kensuke Akita, Michiru Niibo, JHEP 07 (2023) 132, arXiv:2304.04430.
[Akita:2023qiz]
[27-8]
Gravitational echoes of lepton number symmetry breaking with light and ultralight Majorons, Andrea Addazi, Antonino Marciano, Antonio P. Morais, Roman Pasechnik, Joao Viana, Hao Yang, JCAP 09 (2023) 026, arXiv:2304.02399.
[Addazi:2023ftv]
[27-9]
Majorons Revisited: light dark matter as FIMP, Soumen Kumar Manna, Arunansu Sil, Phys.Rev.D 108 (2023) 075026, arXiv:2212.08404.
[Manna:2022gwn]
[27-10]
Search for Majoron at the COMET Experiment, Tianyu Xing, Chen Wu, Han Miao, Hai-Bo Li, Weiguo Li, Ye Yuan, Yao Zhang, Chin.Phys.C 47 (2023) 013108, arXiv:2209.12802.
[Xing:2022rob]
[27-11]
Cosmology of an Axion-Like Majoron, Antonio J. Cuesta, Mario E. Gomez, Jose I. Illana, Manuel Masip, JCAP 04 (2022) 009, arXiv:2109.07336.
[Cuesta:2021kca]
[27-12]
Observable flavor violation from spontaneous lepton number breaking, Pablo Escribano, Martin Hirsch, Jacopo Nava, Avelino Vicente, JHEP 01 (2022) 098, arXiv:2108.01101.
[Escribano:2021uhf]
[27-13]
Gravitational waves from first-order phase transitions in Majoron models of neutrino mass, Pasquale Di Bari, Danny Marfatia, Ye-Ling Zhou, arXiv:2106.00025, 2021.
[DiBari:2021fey]
[27-14]
Resolving the Hubble tension in a U(1)$_{L_\mu-L_\tau}$ model with Majoron, Takeshi Araki, Kento Asai, Kei Honda, Ryuta Kasuya, Joe Sato, Takashi Shimomura, Masaki J.S. Yang, PTEP 2021 () 103, arXiv:2103.07167.
[Araki:2021xdk]
[27-15]
Flavor-changing Majoron interactions with leptons, Yu Cheng, Cheng-Wei Chiang, Xiao-Gang He, Jin Sun, Phys.Rev.D 104 (2021) 013001, arXiv:2012.15287.
[Cheng:2020rla]
[27-16]
Neutrino Masses and Hubble Tension via a Majoron in MFV, Fernando Arias-Aragon, Enrique Fernandez-Martinez, Manuel Gonzalez-Lopez, Luca Merlo, Eur.Phys.J. C81 (2021) 28, arXiv:2009.01848.
[Arias-Aragon:2020qip]
[27-17]
Modified majoron model for cosmological anomalies, Gabriela Barenboim, Ulrich Nierste, Phys.Rev.D 104 (2021) 023013, arXiv:2005.13280.
[Barenboim:2020dmg]
[27-18]
TeV-scale Majorogenesis, Yoshihiko Abe, Yu Hamada, Takahiro Ohata, Kenta Suzuki, Koichi Yoshioka, JHEP 2007 (2020) 105, arXiv:2004.00599.
[Abe:2020dut]
[27-19]
A CMB Search for the Neutrino Mass Mechanism and its Relation to the $H_0$ Tension, Miguel Escudero, Samuel J. Witte, Eur.Phys.J. C80 (2020) 294, arXiv:1909.04044.
[Escudero:2019gvw]
[27-20]
Detecting a Secondary Cosmic Neutrino Background from Majoron Decays in Neutrino Capture Experiments, Zackaria Chacko, Peizhi Du, Michael Geller, Phys.Rev. D100 (2019) 015050, arXiv:1812.11154.
[Chacko:2018uke]
[27-21]
Majoron Dark Matter and Constraints on the Majoron-Neutrino Coupling, Tim Brune, Heinrich Pas, Phys.Rev. D99 (2019) 096005, arXiv:1808.08158.
[Brune:2018sab]
[27-22]
Cosmological phase transitions and gravitational waves in the singlet Majoron model, Youping Wan, Batool Imtiaz, Yi-Fu Cai, Eur.Phys.J. C79 (2019) 25, arXiv:1804.05835.
[Imtiaz:2018dfn]
[27-23]
Neutrinoless double-beta decay with massive scalar emission, Kfir Blum, Yosef Nir, Michal Shavit, Phys.Lett. B785 (2018) 354-361, arXiv:1802.08019.
[Blum:2018ljv]
[27-24]
Visible neutrino decay in the light of appearance and disappearance long baseline experiments, Alberto M. Gago, Ricardo A. Gomes, Abner L. G. Gomes, Joel Jones-Perez, Orlando L. G. Peres, JHEP 1711 (2017) 022, arXiv:1705.03074.
[Gago:2017zzy]
[27-25]
Pseudo-Majoron as Light Mediator of Singlet Scalar Dark Matter, Ernest Ma, Markos Maniatis, JHEP 1707 (2017) 140, arXiv:1704.06675.
[Ma:2017xxj]
[27-26]
Neutrino Lines from Majoron Dark Matter, Camilo Garcia-Cely, Julian Heeck, JHEP 1705 (2017) 102, arXiv:1701.07209.
[Garcia-Cely:2017oco]
[27-27]
Some consequences of the Majoron being the dark radiation, We-Fu Chang, John N. Ng, Jackson M. S. Wu, Phys.Lett. B730 (2014) 347-352, arXiv:1310.6513.
[Chang:2013yva]
[27-28]
Invisible decays of ultra-high energy neutrinos, L. Dorame, O.G. Miranda, J.W.F. Valle, Front. Phys. 1 (2013) 25, arXiv:1303.4891.
[Dorame:2013lka]
[27-29]
Updated CMB, X- and gamma-ray constraints on majoron dark matter, Massimiliano Lattanzi, Signe Riemer-Sorensen, Mariam Tortola, Jose W. F. Valle, Phys. Rev. D 88, 063528 (2013) 063528, arXiv:1303.4685.
[Lattanzi:2013uza]
[27-30]
Bounds on majoron emission from muon to electron conversion experiments, Xavier Garcia i Tormo, Douglas Bryman, Andrzej Czarnecki, Matthew Dowling, Phys. Rev. D84 (2011) 113010, arXiv:1110.2874.
[GarciaTormo:2011jit]
[27-31]
$A_4$-based neutrino masses with Majoron decaying dark matter, J. N. Esteves et al., Phys. Rev. D82 (2010) 073008, arXiv:1007.0898.
[Esteves:2010sh]
[27-32]
Pseudo-Majoron as Dark Matter, Pei-Hong Gu, Ernest Ma, Utpal Sarkar, Phys. Lett. B690 (2010) 145-148, arXiv:1004.1919.
[Gu:2010ys]
[27-33]
Neutrino-Majoron gas: The long way to isotropy, Anders Basboll, Ole Eggers Bjaelde, Phys. Rev. D81 (2010) 123503, arXiv:0911.1771.
[Basboll:2009qz]
[27-34]
Electroweak Phase Transition and LHC Signatures in the Singlet Majoron Model, James M. Cline, Sabine Kraml, Guillaume Laporte, Hiroki Yamashita, JHEP 07 (2009) 040, arXiv:0905.2559.
[Cline:2009sn]
[27-35]
Majoron emission in muon and tau decays revisited, M. Hirsch, J. Meyer, W. Porod, A. Vicente, Phys. Rev. D79 (2009) 055023, arXiv:0902.0525.
[Hirsch:2009ee]
[27-36]
New Limits on Neutrino-Majoron couplings, A. P. Lessa, O. L. G. Peres, Phys. Rev. D75 (2007) 094001, arXiv:hep-ph/0701068.
[Lessa:2007up]
[27-37]
Pulsar kicks from Majoron emission, Yasaman Farzan, Graciela Gelmini, Alexander Kusenko, Phys. Lett. B621 (2005) 22, arXiv:hep-ph/0502150.
[Farzan:2005yp]
[27-38]
Bounds on the coupling of the Majoron to light neutrinos from supernova cooling, Yasaman Farzan, Phys. Rev. D67 (2003) 073015, arXiv:hep-ph/0211375.
[Farzan:2002wx]
[27-39]
Generalized bounds on Majoron neutrino couplings, R. Tomas, H. Paes, J. W. F. Valle, Phys. Rev. D64 (2001) 095005, arXiv:hep-ph/0103017.
[Tomas:2001dh]
[27-40]
A New class of Majoron emitting double beta decays, C. P. Burgess, J. M. Cline, Phys. Rev. D49 (1994) 5925-5944, arXiv:hep-ph/9307316.
[Burgess:1993xh]
[27-41]
Constraints on majoron models, neutrino masses and baryogenesis, James M. Cline, Kimmo Kainulainen, Keith A. Olive, Astropart. Phys. 1 (1993) 387-398, arXiv:hep-ph/9304229.
[Cline:1993ht]
[27-42]
Constraints from nucleosynthesis and SN1987A on majoron emitting double beta decay, Sanghyeon Chang, Kiwoon Choi, Phys. Rev. D49 (1994) 12-15, arXiv:hep-ph/9303243.
[Chang:1993yp]
[27-43]
17-KeV neutrino in a singlet - triplet majoron model, Kiwoon Choi, A. Santamaria, Phys. Lett. B267 (1991) 504-508.
[Choi:1991aa]
[27-44]
Neutronization neutrino pulses from supernovae and the triplet majoron model, Y. Aharonov, F. T. Avignone, S. Nussinov, Phys. Lett. B200 (1988) 122-124.
[Aharonov:1988ju]
[27-45]
The neutrinoless double beta decay with majoron emission, M. Doi, T. Kotani, E. Takasugi, Phys. Rev. D37 (1988) 2575.
[Doi:1987rx]
[27-46]
Fast neutrino decay in horizontal majoron models, J. W. F. Valle, Phys. Lett. B131 (1983) 87.
[Valle:1983ua]
[27-47]
Majoron emission by neutrinos, Vernon D. Barger, W. Y. Keung, S. Pakvasa, Phys. Rev. D25 (1982) 907.
[Barger:1981vd]

28 - Phenomenology - Majorons - Talks

[28-1]
Could the Hubble Tension be Pointing Towards the Neutrino Mass Mechanism?, Miguel Escudero, Samuel J. Witte, arXiv:2004.01470, 2020. NuPhys2019.
[EscuderoAbenza:2020egd]
[28-2]
Majorons as cold light dark matter, Julian Heeck, PoS NOW2018 (2018) 093, arXiv:1809.09413. Neutrino Oscillation Workshop (NOW2018), 9-16 September 2018, Rosa Marina (Ostuni, Brindisi, Italy).
[Heeck:2018lkj]
[28-3]
Phenomenology of Majorons, Julian Heeck, arXiv:1709.07670, 2017. 13th Patras Workshop on Axions, WIMPs and WISPs, Thessaloniki, May 15 to 19, 2017.
[Heeck:2017wgr]

29 - Phenomenology - Mirror World

[29-1]
Neutron-Mirror-Neutron Oscillation and Neutron Star Cooling, Itzhak Goldman, Rabindra N. Mohapatra, Shmuel Nussinov, Yongchao Zhang, Phys. Rev. Lett. 129 (2022) 061103, arXiv:2208.03771.
[Goldman:2022rth]
[29-2]
Clockwork mirror neutron, Mathew Thomas Arun, Phys.Rev.D 107 (2023) 055021, arXiv:2204.06484.
[Arun:2022eqs]
[29-3]
Neutron-Mirror Neutron conversion in Vacuum, Trap, Material and Neutron Star, B.O. Kerbikov, Phys.Rev.D 106 (2022) 015015, arXiv:2112.14157.
[Kerbikov:2021gvz]
[29-4]
Dark photon portal into mirror world, Abdaljalel Alizzi, Z.K. Silagadze, Mod.Phys.Lett.A 36 (2021) 2150215, arXiv:2105.11814.
[Alizzi:2021vyc]
[29-5]
Smoke and mirrors: Neutron star internal heating constraints on mirror matter, David McKeen, Maxim Pospelov, Nirmal Raj, Phys.Rev.Lett. 127 (2021) 061805, arXiv:2105.09951.
[McKeen:2021jbh]
[29-6]
A Left-Right Mirror Symmetric Model: Common Origin of Neutrino Mass, Baryon Asymmetry and Dark Matter, Wei-Min Yang, JHEP 2001 (2020) 148, arXiv:1910.03414.
[Yang:2019hav]
[29-7]
Dark Matter, Dark Radiation and Gravitational Waves from Mirror Higgs Parity, David Dunsky, Lawrence J. Hall, Keisuke Harigaya, JHEP 2002 (2020) 078, arXiv:1908.02756.
[Dunsky:2019upk]
[29-8]
Neutron oscillations for solving neutron lifetime and dark matter puzzles, Wanpeng Tan, Phys.Lett. B797 (2019) 134921, arXiv:1902.01837.
[Tan:2019mrj]
[29-9]
Bounds on Neutron- Mirror Neutron Mixing from Pulsar Timings and Gravitational Wave Detections, Itzhak Goldman, Rabindra N. Mohapatra, Shmuel Nussinov, Phys.Rev. D100 (2019) 123021, arXiv:1901.07077.
[Goldman:2019dbq]
[29-10]
The EDGES signal: An imprint from the mirror world?, D. Aristizabal Sierra, Chee Sheng Fong, Phys.Lett. B784 (2018) 130-136, arXiv:1805.02685.
[AristizabalSierra:2018emu]
[29-11]
Neutron Disappearance and Regeneration from Mirror State, Zurab Berezhiani, Matthew Frost, Yuri Kamyshkov, Ben Rybolt, Louis Varriano, Phys.Rev. D96 (2017) 035039, arXiv:1703.06735.
[Berezhiani:2017azg]
[29-12]
Electron Electric Dipole Moment in Mirror Fermion Model with Electroweak Scale Non-sterile Right-handed Neutrino, Chia-Feng Chang, P. Q. Hung, Chrisna Setyo Nugroho, Van Que Tran, Tzu-Chiang Yuan, Nucl.Phys. B928 (2018) 21-37, arXiv:1702.04516.
[Chang:2017vzi]
[29-13]
Dark Matter Candidates in a Visible Heavy QCD Axion Model, Hajime Fukuda, Masahiro Ibe, Tsutomu T. Yanagida, Phys.Rev. D95 (2017) 095017, arXiv:1702.00227.
[Fukuda:2017ywn]
[29-14]
Phenomenology of Standard Model in spontaneously broken mirror symmetry, Igor T. Dyatlov, Phys.Atom.Nucl. 80 (2017) 275-284, arXiv:1611.05635.
[Dyatlov:2016jaw]
[29-15]
Mirror dark matter will be confirmed or excluded by XENON1T, J. D. Clarke, R. Foot, Phys.Lett. B766 (2017) 29-34, arXiv:1606.09063.
[Clarke:2016eac]
[29-16]
The Origin of Matter-antimatter Asymmetry and Cold Dark Matter from The Mirror Extension of The Standard Model, Wei-Min Yang, Nucl. Phys. B885 (2014) 505-523, arXiv:1309.1955.
[Yang:2014jca]
[29-17]
A Naturally Light Sterile neutrino in an Asymmetric Dark Matter Model, Yongchao Zhang, Xiangdong Ji, Rabindra N. Mohapatra, JHEP 1310 (2013) 104, arXiv:1307.6178.
[Zhang:2013ama]
[29-18]
Pseudo-Dirac neutrinos via mirror-world and depletion of UHE neutrinos, Anjan S. Joshipura, Subhendra Mohanty, Sandip Pakvasa, Phys. Rev. D89 (2014) 033003, arXiv:1307.5712.
[Joshipura:2013yba]
[29-19]
Collider signatures of mirror fermions in the framework of Left Right Mirror Model, Shreyashi Chakdar, Kirtiman Ghosh, S. Nandi, Santosh Kumar Rai, Phys. Rev. D 88,095005 (2013) 095005, arXiv:1305.2641.
[Chakdar:2013tca]
[29-20]
Mirror symmetry: from active and sterile neutrino masses to baryonic and dark matter asymmetries, Pei-Hong Gu, Nucl. Phys. B874 (2013) 158-176, arXiv:1303.6545.
[Gu:2013nya]
[29-21]
A Parallel World in the Dark, Tetsutaro Higaki, Kwang Sik Jeong, Fuminobu Takahashi, JCAP 1308 (2013) 031, arXiv:1302.2516.
[Higaki:2013vuv]
[29-22]
Hidden sector dark matter explains the DAMA, CoGeNT and CRESST-II experiments, R. Foot, Phys. Rev. D88 (2013) 025032, arXiv:1209.5602.
[Foot:2012cs]
[29-23]
Mirror matter, inverse seesaw neutrino masses and the Higgs mass spectrum, M. M. Candido, Y. A. Coutinho, P. C. Malta, J. A. Martins Simoes, A. J. Ramalho, arXiv:1112.2152, 2011.
[Candido:2011aa]
[29-24]
Positronium oscillations to Mirror World revisited, S.V.Demidov, D.S.Gorbunov, A.A.Tokareva, Phys. Rev. D85 (2012) 015022, arXiv:1111.1072.
[Demidov:2011cs]
[29-25]
Spontaneous Mirror Parity Violation, Common Origin of Matter and Dark Matter, and the LHC Signatures, Jian-Wei Cui, Hong-Jian He, Lan-Chun Lv, Fu-Rong Yin, Phys. Rev. D85 (2012) 096003, arXiv:1110.6893.
[Cui:2011wk]
[29-26]
Neutron Oscillations to Parallel World: Earlier End to the Cosmic Ray Spectrum?, Zurab Berezhiani, Askhat Gaziziov, Eur. Phys. J. C72 (2012) 2111, arXiv:1109.3725.
[Berezhiani:2011da]
[29-27]
Comment on 'Three Extra Mirror or Sequential Families: Case for a Heavy Higgs Boson and Inert Doublet', M. Sahin, S. Sultansoy, G. Unel, arXiv:1108.3093, 2011.
[Sahin:2011pu]
[29-28]
Mirror and hidden sector dark matter in the light of new CoGeNT data, R. Foot, Phys. Lett. B703 (2011) 7-13, arXiv:1106.2688.
[Foot:2011pi]
[29-29]
Inert Doublet Dark Matter and Mirror/Extra Families after Xenon100, Alejandra Melfo, Miha Nemevsek, Fabrizio Nesti, Goran Senjanovic, Yue Zhang, Phys. Rev. D84 (2011) 034009, arXiv:1105.4611.
[Melfo:2011ie]
[29-30]
Mirror World and Superstring-Inspired Hidden Sector of the Universe, Dark Matter and Dark Energy, C. R. Das, L. V. Laperashvili, H. B. Nielsen, A. Tureanu, Phys. Rev. D84 (2011) 063510, arXiv:1101.4558.
[Das:2011gj]
[29-31]
Three Extra Mirror or Sequential Families: a Case for Heavy Higgs and Inert Doublet, Homero Martinez, Alejandra Melfo, Fabrizio Nesti, Goran Senjanovic, Phys. Rev. Lett. 106 (2011) 191802, arXiv:1101.3796.
[Martinez:2011ua]
[29-32]
Do magnetic fields prevent mirror particles from entering the galactic disk?, R. Foot, Phys. Lett. B699 (2011) 230-232, arXiv:1011.5078.
[Foot:2010yz]
[29-33]
A comprehensive analysis of the dark matter direct detection experiments in the mirror dark matter framework, R. Foot, Phys. Rev. D82 (2010) 095001, arXiv:1008.0685.
[Foot:2010hu]
[29-34]
Positronium Portal into Hidden Sector: A new Experiment to Search for Mirror Dark Matter, Paolo Crivelli, Alexander Belov, Ulisse Gendotti, Sergei Gninenko, Andre Rubbia, JINST 5 (2010) P08001, arXiv:1005.4802.
[Crivelli:2010bk]
[29-35]
A CoGeNT confirmation of the DAMA signal, R. Foot, Phys. Lett. B692 (2010) 65-69, arXiv:1004.1424.
[Foot:2010rj]
[29-36]
Relevance of the CDMSII events for mirror dark matter, R. Foot, Phys. Rev. D81 (2010) 087302, arXiv:1001.0096.
[Foot:2010th]
[29-37]
Cosmological bounds on the 'millicharges' of mirror particles, Zurab Berezhiani, Angela Lepidi, Phys. Lett. B681 (2009) 276-281, arXiv:0810.1317.
[Berezhiani:2008gi]
[29-38]
Phenomenology and cosmology of millicharged particles and experimental prospects for their search, Angela Lepidi, arXiv:0809.4854, 2008. Diploma Thesis, University of L'Aquila, October 2007.
[Lepidi:2007vnd]
[29-39]
Thermodynamics of the early Universe with mirror dark matter, Paolo Ciarcelluti, Angela Lepidi, Phys. Rev. D78 (2008) 123003, arXiv:0809.0677.
[Ciarcelluti:2008vs]
[29-40]
More about neutron - mirror neutron oscillation, Zurab Berezhiani, Eur. Phys. J. C64 (2009) 421-431, arXiv:0804.2088.
[Berezhiani:2009ldq]
[29-41]
Neutron-Mirror-Neutron Oscillations in a Trap, B. Kerbikov, O. Lychkovskiy, Phys. Rev. C77 (2008) 065504, arXiv:0804.0559.
[Kerbikov:2008qs]
[29-42]
Production of mirror fermions via $e\gamma$ and $ep$ collisions in the littlest Higgs model with T-parity, Chong-Xing Yue, Li Ding, Jin-Yan Liu, Phys. Rev. D77 (2008) 115003, arXiv:0803.4313.
[Yue:2008zp]
[29-43]
Mirror World with Broken Mirror Parity, E(6) Unification and Cosmology, C.R. Das, L.V. Laperashvili, Int. J. Mod. Phys. A23 (2008) 1863-1890, arXiv:0712.1326.
[Das:2007dm]
[29-44]
Mirror dark matter, R. Foot, Int. J. Mod. Phys. A22 (2007) 4951-4957, arXiv:0706.2694.
[Foot:2007nn]
[29-45]
A simple explanation of the PVLAS anomaly in spontaneously broken mirror models, R. Foot, A. Kobakhidze, Phys. Lett. B650 (2007) 46-48, arXiv:hep-ph/0702125.
[Foot:2007cq]
[29-46]
Mirror matter admixtures in $K_S \to \gamma \gamma$, Gabriel Sanchez-Colon, Augusto Garcia, Int. J. Mod. Phys. A21 (2006) 4197-4207, arXiv:hep-ph/0610271.
[Sanchez-Colon:2006kjs]
[29-47]
Mirror matter admixtures in $K_L \to \mu^+ \mu^-$, Gabriel Sanchez-Colon, Augusto Garcia, Mod. Phys. Lett. A22 (2007) 2387-2396, arXiv:hep-ph/0610261.
[Sanchez-Colon:2006yfe]
[29-48]
Symmetry limit properties of decay amplitudes with mirror matter admixtures, Gabriel Sanchez-Colon, Augusto Garcia, Int. J. Mod. Phys. A22 (2007) 2265, arXiv:hep-ph/0610259.
[Sanchez-Colon:2006oio]
[29-49]
Natural electroweak symmetry breaking in generalised mirror matter models, R. Foot, R. R. Volkas, Phys. Lett. B645 (2007) 75-81, arXiv:hep-ph/0610013.
[Foot:2006ru]
[29-50]
Implications of the DAMA/NaI and CDMS experiments for mirror matter-type dark matter, R. Foot, Phys. Rev. D74 (2006) 023514, arXiv:astro-ph/0510705.
[Foot:2005ic]
[29-51]
Mirror World at the Large Hadron Collider, Riccardo Barbieri, Thomas Gregoire, Lawrence J. Hall, arXiv:hep-ph/0509242, 2005.
[Barbieri:2005ri]
[29-52]
Through the Looking-Glass: Alice's Adventures in Mirror World, Zurab Berezhiani, arXiv:hep-ph/0508233, 2005.
[Berezhiani:2005ek]
[29-53]
Some Implications of Neutron Mirror Neutron Oscillation, R.N. Mohapatra, S. Nasri, S. Nussinov, Phys. Lett. B627 (2005) 124, arXiv:hep-ph/0508109.
[Mohapatra:2005ng]
[29-54]
Generalized mirror matter models, R. Foot, Phys. Lett. B632 (2006) 467, arXiv:hep-ph/0507294.
[Foot:2005rn]
[29-55]
Evolutionary and structural properties of mirror star MACHOs, Zurab Berezhiani, Paolo Ciarcelluti, Santi Cassisi, Adriano Pietrinferni, Astropart. Phys. 24 (2006) 495, arXiv:astro-ph/0507153.
[Berezhiani:2005vv]
[29-56]
Cosmology with mirror dark matter II: Cosmic Microwave Background and Large Scale Structure, P. Ciarcelluti, Int. J. Mod. Phys. D14 (2005) 223, arXiv:astro-ph/0409633.
[Ciarcelluti:2004ip]
[29-57]
Cosmology with mirror dark matter I: linear evolution of perturbations, P. Ciarcelluti, Int. J. Mod. Phys. D14 (2005) 187, arXiv:astro-ph/0409630.
[Ciarcelluti:2004ik]
[29-58]
Spheroidal galactic halos and mirror dark matter, R. Foot, R. R. Volkas, Phys. Rev. D70 (2004) 123508, arXiv:astro-ph/0407522.
[Foot:2004wz]
[29-59]
Avoiding BBN Constraints on Mirror Models for Sterile Neutrinos, R. N. Mohapatra, S. Nasri, Phys. Rev. D71 (2005) 053001, arXiv:hep-ph/0407194.
[Mohapatra:2004uy]
[29-60]
Reconciling the positive DAMA annual modulation signal with the negative results of the CDMS II experiment, R. Foot, Mod. Phys. Lett. A19 (2004) 1841, arXiv:astro-ph/0405362.
[Foot:2004gh]
[29-61]
Supernova explosions, 511 keV photons, gamma ray bursts and mirror matter, R. Foot, Z. K. Silagadze, Int. J. Mod. Phys. D14 (2005) 143, arXiv:astro-ph/0404515.
[Foot:2004kd]
[29-62]
Exploring the mirror matter interpretation of the DAMA experiment: Has the dark matter problem been solved?, R. Foot, arXiv:astro-ph/0403043, 2004.
[Foot:2004ej]
[29-63]
Explaining $\Omega_{\mathrm{Baryon}} \approx 0.2 \, \Omega_{\mathrm{Dark}}$ through the synthesis of ordinary matter from mirror matter: a more general analysis, R. Foot, R. R. Volkas, Phys. Rev. D69 (2004) 123510, arXiv:hep-ph/0402267.
[Foot:2004pq]
[29-64]
Cosmology of the Mirror Universe, Paolo Ciarcelluti, arXiv:astro-ph/0312607, 2003.
[Ciarcelluti:2003wm]
[29-65]
Structure Formation with Mirror Dark Matter: CMB and LSS, Zurab Berezhiani, Paolo Ciarcelluti, Denis Comelli, Francesco L. Villante, Int. J. Mod. Phys. D14 (2005) 107, arXiv:astro-ph/0312605.
[Berezhiani:2003wj]
[29-66]
Have mirror micrometeorites been detected?, R. Foot, S. Mitra, Phys. Rev. D68 (2003) 071901, arXiv:hep-ph/0306228.
[Foot:2003js]
[29-67]
Do mirror planets exist in our solar system?, R. Foot, Z. K. Silagadze, Acta Phys. Polon. B32 (2001) 2271-2278, arXiv:astro-ph/0104251.
[Foot:2001ne]
[29-68]
Mirror world versus large extra dimensions, Z. K. Silagadze, Mod. Phys. Lett. A14 (1999) 2321-2328, arXiv:hep-ph/9908208.
[Silagadze:1999tm]
[29-69]
Neutrino mass and mirror universe, Z. K. Silagadze, Phys. Atom. Nucl. 60 (1997) 272-275, arXiv:hep-ph/9503481.
[Silagadze:1995tr]

30 - Phenomenology - Mirror World - Talks

[30-1]
Phenomenology of Standard Model in spontaneously broken mirror symmetry, Igor T. Dyatlov, Phys.Atom.Nucl. 80 (2017) 275-284, arXiv:1611.05635.
[Dyatlov:2016jaw]
[30-2]
GeV Scale Asymmetric Dark Matter from Mirror Universe: Direct Detection and LHC Signatures, Jian-Wei Cui, Hong-Jian He, Lan-Chun Lv, Fu-Rong Yin, Int. J. Mod. Phys. Conf. Ser. 10 (2012) 21-34, arXiv:1203.0968. International Symposium on Cosmology and Particle Astrophysics (CosPA2011).
[Cui:2012mq]
[30-3]
Early Universe cosmology with mirror dark matter, Paolo Ciarcelluti, AIP Conf. Proc. 1241 (2010) 351-360, arXiv:0911.3592. Invisible Universe International Conference, Paris, June 29 - July 3 2009.
[Ciarcelluti:2009da]
[30-4]
On the Possible Observation of Mirror Matter, Tarek Ibrahim, Pran Nath, Nucl. Phys. Proc. Suppl. 200-202 (2010) 161-168, arXiv:0910.1303. International Workshop on 'Beyond the Standard Model Physics and LHC Signatures (BSM-LHC),' Northeastern University, 2-4 June, 2009.
[Ibrahim:2009uv]
[30-5]
Dark Energy and Dark Matter, Mirror World and E_6 Unification, C.R. Das, L.V. Laperashvili, arXiv:0712.0253, 2007. Conference of Russian Academy of Sciences: Fundamental Interactions Physics, ITEP, Moscow, Russia, Nov 26-30, 2007.
[Das:2007vt]
[30-6]
Mirror particles and mirror matter: 50 years of speculations and searches, L.B. Okun, Phys. Usp. 50 (2007) 380-389, arXiv:hep-ph/0606202. ITEP Meeting on the future of heavy flavor physics, Moscow, ITEP, July 24-25, 2006.
[Okun:2006eb]
[30-7]
Mirror World and Axion: Relaxing Cosmological Bounds, Giannotti Maurizio, Int. J. Mod. Phys. A20 (2005) 2454, arXiv:astro-ph/0504636. VI Friedmann Seminar, France, Corsica, Cargese, 2004.
[Giannotti:2005eb]
[30-8]
Structure formation, CMB and LSS in a mirror dark matter scenario, P. Ciarcelluti, Frascati Phys. Ser. 555 (2004) 1, arXiv:astro-ph/0409629. 'Frontier Science 2004' (Frascati, Italy, 14-19 June 2004).
[Ciarcelluti:2004ij]
[30-9]
Mirror matter, A.Yu.Ignatiev, R.R.Volkas, arXiv:hep-ph/0306120, 2003. 15th Biennual Congress of the Australian Institute of Physics (Sydney, July 2002).
[Ignatiev:2003sy]
[30-10]
Mirror objects in the solar system?, Z. K. Silagadze, Acta. Phys. Polon. B33 (2002) 1325-1341, arXiv:astro-ph/0110161. Tunguska 2001: International Conference, Moscow, Russia, 30 June - 1 Jul 2001.
[Silagadze:2001er]
[30-11]
TeV scale gravity, mirror universe, and... dinosaurs, Z. K. Silagadze, Acta Phys. Polon. B32 (2001) 99-128, arXiv:hep-ph/0002255. Gran Sasso Summer Institute: Massive Neutrinos in Physics and Astrophysics, 13-24 September, 1999.
[Silagadze:1999gr]

31 - Phenomenology - Large Extra Dimensions

[31-1]
Capability of the proposed long-baseline experiments to probe large extra dimension, Samiran Roy, Phys.Rev.D 108 (2023) 055015, arXiv:2305.16234.
[Roy:2023dyq]
[31-2]
Extra dimensions with light and heavy neutral leptons: An application to CE$\nu$NS, Amir N. Khan, JHEP 01 (2023) 052, arXiv:2208.09584.
[Khan:2022bcl]
[31-3]
Large Extra Dimensions and neutrino experiments, D. V. Forero, C. Giunti, C. A. Ternes, O. Tyagi, Phys.Rev.D 106 (2022) 035027, arXiv:2207.02790.
[Forero:2022skg]
[31-4]
Short-baseline oscillation scenarios at JUNO and TAO, V.S. Basto-Gonzalez, D.V. Forero, C. Giunti, A.A. Quiroga, C.A. Ternes, Phys.Rev.D 105 (2022) 075023, arXiv:2112.00379.
[Basto-Gonzalez:2021aus]
[31-5]
Signatures of microscopic black holes and extra dimensions at future neutrino telescopes, Katherine J. Mack, Ningqiang Song, Aaron C. Vincent, JHEP 2004 (2020) 187, arXiv:1912.06656.
[Mack:2019bps]
[31-6]
Sterile Neutrino Shortcuts in Asymmetrically Warped Extra Dimensions, Dominik Doring, Heinrich Pas, Eur.Phys.J. C79 (2019) 604, arXiv:1808.07734.
[Doring:2018ncz]
[31-7]
A Short Travel for Neutrinos in Large Extra Dimensions, G. V. Stenico, D. V. Forero, O. L. G. Peres, JHEP 1811 (2018) 155, arXiv:1808.05450.
[Stenico:2018jpl]
[31-8]
Neutrinos in Large Extra Dimensions and Short-Baseline $\nu_e$ Appearance, Marcela Carena, Ying-Ying Li, Camila S. Machado, Pedro A. N. Machado, Carlos E. M. Wagner, Phys.Rev. D96 (2017) 095014, arXiv:1708.09548.
[Carena:2017qhd]
[31-9]
Bounds on Large Extra Dimensions from the Generalized Uncertainty Principle, Marco Cavaglia, Benjamin Harms, Shaoqi Hou, Int.J.Mod.Phys. A32 (2017) 1750082, arXiv:1611.06283.
[Cavaglia:2016rge]
[31-10]
Effects of sterile neutrino and extra-dimension on big bang nucleosynthesis, Dukjae Jang, Motohiko Kusakabe, Myung-Ki Cheoun, Phys.Rev. D97 (2018) 043005, arXiv:1611.04472.
[Jang:2016rpi]
[31-11]
Effect of compactification of twisted toroidal extra-dimension on sterile neutrino, Ajit Kumar Mohanty, arXiv:1606.07625, 2016.
[Mohanty:2016ojb]
[31-12]
Large, Extra Dimensions at the Deep Underground Neutrino Experiment, Jeffrey M. Berryman, Andre de Gouvea, Kevin J. Kelly, O.L.G. Peres, Zahra Tabrizi, Phys. Rev. D94 (2016) 033006, arXiv:1603.00018.
[Berryman:2016szd]
[31-13]
Probing new physics scenarios in accelerator and reactor neutrino experiments, A. Di Iura, I. Girardi, D. Meloni, J. Phys. G42 (2015) 065003, arXiv:1411.5330.
[DiIura:2014csa]
[31-14]
Flavor ratios of extragalactical neutrinos and neutrino shortcuts in extra dimensions, Elke Aeikens, Heinrich Pas, Sandip Pakvasa, Philipp Sicking, JCAP 1510 (2015) 005, arXiv:1410.0408.
[Aeikens:2014yga]
[31-15]
Probing Large Extra Dimensions With IceCube, Arman Esmaili, O. L. G. Peres, Zahra Tabrizi, JCAP 12 (2014) 002, arXiv:1409.3502.
[Esmaili:2014esa]
[31-16]
Inert scalar dark matter in an extra dimension inspired model, R. A. Lineros, F. A. Pereira dos Santos, JCAP 10 (2014) 059, arXiv:1407.5999.
[Lineros:2014jba]
[31-17]
Signatures of Extra Dimensional Sterile Neutrinos, Werner Rodejohann, He Zhang, Phys.Lett. B737 (2014) 81, arXiv:1407.2739.
[Rodejohann:2014eka]
[31-18]
Muon $(g-2)$ from the bulk neutrino field in a warped extra dimensional model, R. S. Hundi, Sourov Roy, Soumitra SenGupta, Phys. Rev. D86 (2012) 036014, arXiv:1206.5137.
[Hundi:2012uf]
[31-19]
Kinematical Test of Large Extra Dimension in Beta Decay Experiments, Victor S. Basto-Gonzalez, Arman Esmaili, Orlando L. G. Peres, Phys. Lett. B718 (2013) 1020-1023, arXiv:1205.6212.
[Basto-Gonzalez:2012nel]
[31-20]
Extra Dimensions and Neutrinoless Double Beta Decay Experiments, Marek Gozdz, Wieslaw A. Kaminski, Amand Faessler, Phys. Rev. D71 (2005) 096005, arXiv:1201.1228.
[Gozdz:2005wd]
[31-21]
Bulk Neutrinos as an Alternative Cause of the Gallium and Reactor Anti-neutrino Anomalies, P. A. N. Machado, H. Nunokawa, F. A. Pereira dos Santos, R. Zukanovich Funchal, Phys. Rev. D 85 (2012) 073012, arXiv:1107.2400.
[Machado:2011kt]
[31-22]
LHC bounds on large extra dimensions, Roberto Franceschini, Gian Francesco Giudice, Pier Paolo Giardino, Paolo Lodone, Alessandro Strumia, JHEP 05 (2011) 092, arXiv:1101.4919.
[Franceschini:2011wr]
[31-23]
Testing for Large Extra Dimensions with Neutrino Oscillations, P. A. N. Machado, H. Nunokawa, R. Zukanovich Funchal, Phys. Rev. D84 (2011) 013003, arXiv:1101.0003.
[Machado:2011jt]
[31-24]
Global fits of the Minimal Universal Extra Dimensions scenario, Gianfranco Bertone, Kyoungchul Kong, Roberto Ruiz de Austri, Roberto Trotta, Phys. Rev. D83 (2011) 036008, arXiv:1010.2023.
[Bertone:2010ww]
[31-25]
Baseline-dependent neutrino oscillations with extra-dimensional shortcuts, Sebastian Hollenberg, Octavian Micu, Heinrich Pas, Thomas J. Weiler, Phys. Rev. D80 (2009) 093005, arXiv:0906.0150.
[Hollenberg:2009ws]
[31-26]
Relic abundance of dark matter in universal extra dimension models with right-handed neutrinos, Shigeki Matsumoto, Joe Sato, Masato Senami, Masato Yamanaka, Phys. Rev. D76 (2007) 043528, arXiv:0705.0934.
[Matsumoto:2007dp]
[31-27]
Mixed Dark Matter in Universal Extra Dimension Models with TeV Scale W_{R} and Z', Ken Hsieh, R.N. Mohapatra, Salah Nasri, JHEP 12 (2006) 067, arXiv:hep-ph/0610155.
[Hsieh:2006fg]
[31-28]
Solving cosmological problem in universal extra dimension models by introducing Dirac neutrino, Shigeki Matsumoto, Joe Sato, Masato Senami, Masato Yamanaka, Phys. Lett. B647 (2007) 466-471, arXiv:hep-ph/0607331.
[Matsumoto:2006bf]
[31-29]
Sterile-active neutrino oscillations and shortcuts in the extra dimension, Heinrich Pas, Sandip Pakvasa, Thomas J. Weiler, Phys. Rev. D72 (2005) 095017, arXiv:hep-ph/0504096.
[Pas:2005rb]
[31-30]
Dark Energy as a Signature of Extra Dimensions, B. Li, M.-C. Chu, K. C. Cheung, A. Tang, arXiv:astro-ph/0501367, 2005.
[Li:2005ys]
[31-31]
Dark Energy from Large Extra Dimensions, Kimmo Kainulainen, Daniel Sunhede, Phys. Rev. D73 (2006) 083510, arXiv:astro-ph/0412609.
[Kainulainen:2004vk]
[31-32]
Double beta decay and the extra-dimensional seesaw mechanism, G. Bhattacharyya, H.V. Klapdor-Kleingrothaus, H. Pas, A. Pilaftsis, PoS AHEP2003 (2003) AHEP2003/007, arXiv:hep-ph/0402071. 12 pages, 2 figures, talk presented by H. Paes at AHEP-2003, Valencia, Spain.
[Bhattacharyya:2003apt]
[31-33]
Constraints on large extra dimensions from neutrino oscillation experiments, H. Davoudiasl, P. Langacker, M. Perelstein, Phys. Rev. D 65 (2002) 105015, arXiv:hep-ph/0201128.
[Davoudiasl:2002fq]
[31-34]
Accelerated universe from gravity leaking to extra dimensions, Cedric Deffayet, G. R. Dvali, Gregory Gabadadze, Phys. Rev. D65 (2002) 044023, arXiv:astro-ph/0105068.
[Deffayet:2001pu]
[31-35]
Infinitely large new dimensions, Nima Arkani-Hamed, Savas Dimopoulos, G. R. Dvali, Nemanja Kaloper, Phys. Rev. Lett. 84 (2000) 586-589, arXiv:hep-th/9907209.
[Arkani-Hamed:1999wga]
[31-36]
Probing large extra dimensions with neutrinos, G. R. Dvali, Alexei Yu. Smirnov, Nucl. Phys. B563 (1999) 63-81, arXiv:hep-ph/9904211.
[Dvali:1999cn]
[31-37]
Neutrino masses from large extra dimensions, Nima Arkani-Hamed, Savas Dimopoulos, G. R. Dvali, John March-Russell, Phys. Rev. D65 (2002) 024032, arXiv:hep-ph/9811448.
[Arkani-Hamed:1998wuz]
[31-38]
Neutrino oscillations without neutrino masses or heavy mass scales: A Higher dimensional seesaw mechanism, Keith R. Dienes, Emilian Dudas, Tony Gherghetta, Nucl. Phys. B 557 (1999) 25, arXiv:hep-ph/9811428.
[Dienes:1998sb]
[31-39]
Phenomenology, astrophysics and cosmology of theories with sub-millimeter dimensions and TeV scale quantum gravity, Nima Arkani-Hamed, Savas Dimopoulos, G. R. Dvali, Phys. Rev. D59 (1999) 086004, arXiv:hep-ph/9807344.
[Arkani-Hamed:1998sfv]
[31-40]
New dimensions at a millimeter to a Fermi and superstrings at a TeV, Ignatios Antoniadis, Nima Arkani-Hamed, Savas Dimopoulos, G. R. Dvali, Phys. Lett. B436 (1998) 257-263, arXiv:hep-ph/9804398.
[Antoniadis:1998ig]
[31-41]
The hierarchy problem and new dimensions at a millimeter, Nima Arkani-Hamed, Savas Dimopoulos, G. R. Dvali, Phys. Lett. B429 (1998) 263-272, arXiv:hep-ph/9803315.
[Arkani-Hamed:1998jmv]

32 - History

[32-1]
Neutrino: chronicles of an aloof protagonist, Alejandra Melfo, Goran Senjanovic, Mod.Phys.Lett.A 37 (2022) 2230008, arXiv:2107.05472.
[Melfo:2021wry]
[32-2]
Neutrino, parity violaton, V-A: a historical survey, Ludmil Hadjiivanov, arXiv:1812.11629, 2018.
[Hadjiivanov:2018lgp]
[32-3]
Fermi and the Theory of Weak Interactions, G. Rajasekaran, Resonance J. Sci. Educ. 19 (2014) 18-44, arXiv:1403.3309.
[Rajasekaran:2014vza]

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