New Neutrino Physics

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1 - Books

Neutrinos in high energy and astroparticle physics, Jorge Romao, Jose W. F. Valle, Wiley, 2015. ISBN 978-3-527-41197-9.
Neutrinos in particle physics, astronomy and cosmology, Zhi-zhong Xing, Shun Zhou, Zhejiang University Press, Hangzhou, 2011. ISBN: 978-7308080248.
Massive neutrinos in physics and astrophysics, R. N. Mohapatra, P. B. Pal, World Scientific, 2004. Third Edition, Lecture Notes in Physics, Vol. 72.
Journeys beyond the standard model, Pierre Ramond, Front.Phys. 101 (1999) 1-390, Perseus Books. Front.Phys. 101; ISBN: 978-0813341316.
Massive Neutrinos in Physics and Astrophysics, R. N. Mohapatra, P. B. Pal, World Sci.Lect.Notes Phys. 60 (1998) 1-397, World Scientific. Lecture Notes in Physics, Vol. 60.

2 - Reviews - Experiment

A Search for Charged Lepton Flavor Violation in the Mu2e Experiment, Manolis Kargiantoulakis, arXiv:2003.12678, 2020.
Beyond Standard Model Searches in the MiniBooNE Experiment, Teppei Katori, Janet Conrad, Adv. High Energy Phys. 2015 (2015) 362971, arXiv:1404.7759.
Liquid Xenon Detectors for Particle Physics and Astrophysics, E. Aprile, T. Doke, Rev. Mod. Phys. 82 (2010) 2053-2097, arXiv:0910.4956.
The Neutron EDM Experiment, P. G. Harris, arXiv:0709.3100, 2007.

3 - Reviews - Experiment - Conference Proceedings

Allowed rare pion and muon decays as tests of the Standard Model, Dinko Pocanic (PEN), arXiv:1512.09355, 2015. NuFact15.
Charged Lepton Flavor Violation Experiments, Giovanni Signorelli, arXiv:1307.8346, 2013. 2013 Flavor Physics and CP Violation (FPCP-2013), Buzios, Rio de Janeiro, Brazil, May 19-24 2013.
Charged-Lepton Flavour Physics, Andreas Hoecker, Pramana 79 (2012) 1141-1167, arXiv:1201.5093. Lepton-Photon 2011, Mumbai, India.
Fundamentals of LHC Experiments, Jason Nielsen, arXiv:1106.2516, 2011. 2010 Theoretical Advanced Studies Institute in Boulder, Colorado.
Experimental Review on Lepton Universality and Lepton Flavour Violation tests at the B-factories, Alberto Lusiani, PoS KAON (2008) 054, arXiv:0709.1599. Kaon International Conference 2007.
Lepton Flavor Violating Decays - Review and Outlook, Toshinori Mori, eConf C060409 (2006) 034, arXiv:hep-ex/0605116. Flavor Physics and CP Violation Conference, Vancouver, 2006.

4 - Reviews - Phenomenology

Nuclear matrix elements from lattice QCD for electroweak and beyond-Standard-Model processes, Zohreh Davoudi, William Detmold, Kostas Orginos, Assumpta Parreno, Martin J. Savage, Phiala Shanahan, Michael L. Wagman, arXiv:2008.11160, 2020.
Neutrinoless Double-Electron Capture, K. Blaum, S. Eliseev, F. A. Danevich, V. I. Tretyak, Sergey Kovalenko, M. I. Krivoruchenko, Yu. N. Novikov, J. Suhonen, Rev.Mod.Phys. 92 (2020) 045007, arXiv:2007.14908.
Neutron's Dark Secret, Bartosz Fornal, Benjamin Grinstein, Mod.Phys.Lett. A35 (2020) 2030019, arXiv:2007.13931.
GAMBIT and its Application in the Search for Physics Beyond the Standard Model, Anders Kvellestad, Pat Scott, Martin White, arXiv:1912.04079, 2019.
Recent probes of standard and non-standard neutrino physics with nuclei, D.K. Papoulias, T.S. Kosmas, Y. Kuno, Phys. 7 (2019) 191, arXiv:1911.00916.
The Role of Lattice QCD in Searches for Violations of Fundamental Symmetries and Signals for New Physics, Vincenzo Cirigliano, Zohreh Davoudi, Tanmoy Bhattacharya, Taku Izubuchi, Phiala E. Shanahan, Sergey Syritsyn, Michael L. Wagman, Eur.Phys.J. A55 (2019) 197, arXiv:1904.09704.
Review of Lepton Universality tests in B decays, Simone Bifani, Sebastien Descotes-Genon, Antonio Romero Vidal, Marie-Helene Schune, J.Phys. G46 (2019) 023001, arXiv:1809.06229.
High Energy Physics and Cosmology at the Unification Frontier: Opportunities and Challenges in the coming years, Pran Nath, Int.J.Mod.Phys. A33 (2018) 1830017, arXiv:1807.05302.
New physics searches in nuclear and neutron $\beta$ decay, Martin Gonzalez-Alonso, Oscar Naviliat-Cuncic, Nathal Severijns, Prog.Part.Nucl.Phys. 104 (2019) 165-223, arXiv:1803.08732.
The status of varying constants: a review of the physics, searches and implications, C. J. A. P. Martins, arXiv:1709.02923, 2017.
A Call for New Physics : The Muon Anomalous Magnetic Moment and Lepton Flavor Violation, Manfred Lindner, Moritz Platscher, Farinaldo S. Queiroz, Phys.Rept. 731 (2018) 1-82, arXiv:1610.06587.
Rare decays of b hadrons, Patrick Koppenburg, Zdenek Dolezal, Maria Smizanska, Scholarpedia 11 (2016) 32643, arXiv:1606.00999.
Neutrinoless Double Beta Decay, Heinrich Pas, Werner Rodejohann, New J. Phys. 17 (2015) 115010, arXiv:1507.00170.
New Paradigm for Baryon and Lepton Number Violation, Pavel Fileviez Perez, Phys. Rept. 597 (2015) 1-30, arXiv:1501.01886.
Naturalness Under Stress, Michael Dine, Ann.Rev.Nucl.Part.Sci. 65 (2015) 8001, arXiv:1501.01035.
Working Group Report: New Light Weakly Coupled Particles, Rouven Essig et al., arXiv:1311.0029, 2013. Community Summer Study 2013}: {Snowmass on the Mississippi.
Charged Lepton Flavor Violation: An Experimenter's Guide, Robert H. Bernstein, Peter S. Cooper, Phys. Rept. 532 (2013) 27-64, arXiv:1307.5787.
Prospects for precision measurements in nuclear beta decay at the LHC era, Martin Gonzalez-Alonso, Oscar Naviliat-Cuncic, Ann. Phys. (Berlin) 525 (2013) 600-619, arXiv:1304.1759.
Low Energy Probes of Physics Beyond the Standard Model, Vincenzo Cirigliano, Michael J. Ramsey-Musolf, Prog.Part.Nucl. Phys. 71 (2013) 2-20, arXiv:1304.0017.
A force beyond the Standard Model - Status of the quest for hidden photons, Joerg Jaeckel, Frascati Phys.Ser. 56 (2012) 172-192, arXiv:1303.1821.
Flavour Violation in charged leptons: Present and Future, A. Abada, Comptes Rendus Physique 13 (2012) 180-185, arXiv:1110.6507.
Neutrino-less Double Beta Decay and Particle Physics, Werner Rodejohann, Int. J. Mod. Phys. E20 (2011) 1833-1930, arXiv:1106.1334.
Flavor Physics Constraints for Physics Beyond the Standard Model, Gino Isidori, Yosef Nir, Gilad Perez, Ann. Rev. Nucl. Part. Sci. 60 (2010) 355, arXiv:1002.0900.
Astrophysical Probes of Unification, Asimina Arvanitaki et al., Phys. Rev. D79 (2009) 105022, arXiv:0812.2075.
Primordial Nucleosynthesis: from precision cosmology to fundamental physics, Fabio Iocco, Gianpiero Mangano, Gennaro Miele, Ofelia Pisanti, Pasquale D. Serpico, Phys.Rept. 472 (2009) 1-76, arXiv:0809.0631.
Colliders and Cosmology, Keith A. Olive, Eur. Phys. J. C59 (2009) 269-295, arXiv:0806.1208.
The Physics Case for the New Muon (g-2) Experiment, David W. Hertzog et al., arXiv:0705.4617, 2007.
Essentials of the Muon g-2, F. Jegerlehner, Acta Phys. Polon. B38 (2007) 3021, arXiv:hep-ph/0703125.
Muon g-2: Review of Theory and Experiment, James P. Miller, Eduardo de Rafael, B. Lee Roberts, Rept. Prog. Phys. 70 (2007) 795, arXiv:hep-ph/0703049.
Theory of Neutrinos: A White Paper, R.N. Mohapatra et al., Rept. Prog. Phys. 70 (2007) 1757-1867, arXiv:hep-ph/0510213.
High Energy Neutrinos as a Probe for New Physics and Astrophysics, E. V. Bugaev, Int. J. Mod. Phys. A20 (2005) 6909, arXiv:astro-ph/0505412.
Electroweak model and constraints on new physics, Jens Erler, Paul Langacker, Phys. Lett. B592 (2004), arXiv:hep-ph/0407097. The Review of Particle Properties 2004.
Lepton flavor nonconservation, T. S. Kosmas, G. K. Leontaris, J. D. Vergados, Prog. Part. Nucl. Phys. 33 (1994) 397-448, arXiv:hep-ph/9312217.
High precision electroweak experiments: A Global search for new physics beyond the standard model, Paul Langacker, Ming-xing Luo, Alfred K. Mann, Rev. Mod. Phys. 64 (1992) 87-192.
Grand unified theories and proton decay, Paul Langacker, Phys. Rep. 72 (1981) 185.

5 - Reviews - Phenomenology - Conference Proceedings

Beyond the Standard Model Physics at the HL-LHC and HE-LHC, X. Cid Vidal et al., CERN Yellow Rep.Monogr. 7 (2019) 585-865, arXiv:1812.07831.
Machine Learning for New Physics Searches, Raffaele Tito D'Agnolo, arXiv:1809.11150, 2018. CIPANP2018.
Is There a Sign of New Physics in Beryllium Transitions?, Bartosz Fornal, Int.J.Mod.Phys. A32 (2017) 1730020, arXiv:1707.09749. American Physical Society April Meeting 2017, Washington, DC, January 28, 2017.
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.
New Projects on Dark Photon Search, V. Kozhuharov, M. Raggi, P. Valente, Frascati Phys.Ser. 64 (2017) 310-318, arXiv:1610.04389. Vulcano 2016 workshop 'Frontier Objects in Astrophysics and Particle Physics'.
Lepton Dipole Moments, Adam West, arXiv:1607.00925, 2016. Physics In Collision 2015.
TASI 2013 lectures on Higgs physics within and beyond the Standard Model, Heather E. Logan, arXiv:1406.1786, 2014.
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.
Summary of the Nobel Symposium on LHC Results, John Ellis, Phys.Scripta T158 (2013) 014020, arXiv:1309.3549. Nobel Symposium on LHC Results.
New physics from flavour, Sheldon Stone, PoS ICHEP2012 (2013) 033, arXiv:1212.6374. 36th International Conference on High Energy Physics, July 4-11, 2012, Melbourne, Australia.
Les Houches 2011: Physics at TeV Colliders New Physics Working Group Report, G. Brooijmans et al., arXiv:1203.1488, 2012.
Proceedings of the 2010 European School of High-energy Physics, Raseborg, Finland, 20 Jun - 3 Jul 2010, C. Grojean, M. Spiropulu, arXiv:1202.1629, 2012.
Proceedings of the 2009 CERN-Latin-American School of High-Energy Physics, Recinto Quirama, Colombia, 15 - 28 March 2009, C. Grojean, M. Spiropulu, arXiv:1010.5976, 2010. CERN Yellow Report.
Z' Searches: From Tevatron to LHC, J. Erler, P. Langacker, S. Munir, E. rojas, arXiv:1010.3097, 2010. XXIInd Rencontres de Blois, Loire, France, 16-20 July 2010.
Prospects for New Physics at the LHC, John Ellis, Int. J. Mod. Phys. A25 (2010) 2409-2420, arXiv:1004.0648. Conference in Honor of Murray Gell-Mann's 80th Birthday, on Quantum Mechanics, Elementary Particles, Quantum Cosmology and Complexity, Nanyang Executive Centre, NTU, Singapore, 24th-26th February 2010.
Non-standard Neutrino Interactions, D. Hernandez, arXiv:0911.4764, 2009. 44th Rencontres de Moriond on Electroweak Interactions and Unified Theories.
Standard Model Prediction of the Muon Anomalous Magnetic Moment, Joaquim Prades, Acta Phys. Polon. B (Proc. Supp. ) 3 (2010) 75-86, arXiv:0909.2546. Topical FLAVIAnet Workshop on 'Low Energy Constraints on Extensions of the Standard Model', July 24-26 2009, Kazimierz, Poland.
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.
Proceedings to the 11th Workshop 'What Comes Beyond the Standard Models', Bled, July 15 - 25, 2008, Slovenia, G. Bregar et al., arXiv:0812.0510, 2008.
Probing New Physics with Astrophysical Neutrinos, Nicole F. Bell, J. Phys. Conf. Ser. 136 (2008) 022043, arXiv:0811.0847. Neutrino 2008, Christchurch, New Zealand, May 2008.
Standard Model and New Physics: theoretical and experimental perspectives, Andrea Castro, Gennaro Corcella, Nuovo Cim. 123B (2008) 749-756, arXiv:0807.3857. IFAE 2008, Bologna, Italy, 26-28 March 2008.
Proceedings to the 10th Workshop 'What Comes Beyond the Standard Models', Bled, July 17- 27, 2007, Slovenia, D. Bennett et al., Bled Workshops Phys. 8 (2007) pp.1-201, arXiv:0711.4681.
Gauguin's questions in particle physics: Where are we coming from? What are we? Where are we going?, John Ellis, J. Phys. Conf. Ser. 110 (2008) 012001, arXiv:0710.5590. International Europhysics Conference on High-Energy Physics (EPS-HEP2007), Manchester, England, July 2007.
SUSY beyond minimal flavour violation, Sebastian Jager, arXiv:0710.5206, 2007. SUSY07.
Outlook from SUSY07, John Ellis, arXiv:0710.4959, 2007. SUSY07.
Lepton Flavour Violating Effects on Chargino Production at the ILC, Karl Hohenwarter-Sodek, Thomas Kernreiter, arXiv:0710.1489, 2007. SUSY07.
FPCP Theory Overview, Benjamin Grinstein, eConf C070512 (2007) 005, arXiv:0706.4173. CP Violation Conference, Bled, 2007.
Tau Physics 2006: Summary and Outlook, Antonio Pich, Nucl. Phys. Proc. Suppl. 169 (2007) 393-405, arXiv:hep-ph/0702074. 9th International Workshop on Tau Lepton Physics (TAU06), 19-22 September 2006, Pisa (Italy).
Electron, muon and tau magnetic moments: a theoretical update, M. Passera, Nucl. Phys. Proc. Suppl. 169 (2007) 213-225, arXiv:hep-ph/0702027. Tau06 Workshop, Pisa, Italy, September 19-22 2006.
The tau lepton anomalous magnetic moment, S. Eidelman, M. Giacomini, F.V. Ignatov, M. Passera, Nucl. Phys. Proc. Suppl. 169 (2007) 226-231, arXiv:hep-ph/0702026. Tau06 Workshop, Pisa, Italy, September 19-22 2006.
Proceedings of the First Workshop on Exotic Physics with Neutrino Telescopes, EPNT06, C. de los Heros, arXiv:astro-ph/0701333, 2007.
Working Group Report on the 'TeV Particle Astrophysics and Physics Beyond the Standard Model', Ivone F.M. Albuquerque, Sergio Palomares-Ruiz, Tom Weiler, J. Phys. Conf. Ser. 60 (2007) 90-94, arXiv:astro-ph/0610962. TeV Particle Astrophysics Workshop II - Madison - Aug 2006.
Neutrino physics at large colliders, F. del Aguila, J. A. Aguilar-Saavedra, R. Pittau, J. Phys. Conf. Ser. 53 (2006) 506-527, arXiv:hep-ph/0606198. CORFU2005.
Intense Muon Physics Working Group Summary, B.Lee Roberts, Marco Grassi, Akira Sato, Nucl. Phys. Proc. Suppl. 155 (2006) 123, arXiv:hep-ex/0510055. WG4 Summary Talk, NuFact05, Frascati.
Neutrino oscillations and new physics, J.W.F. Valle, Nucl. Phys. Proc. Suppl. 145 (2005) 141, arXiv:hep-ph/0508067. NOW2004, Conca Specchiulla (Otranto, Italy), September 11-17, 2004.
New particle physics (in French), Julien Welzel, David Gherson, John Ellis, arXiv:hep-ph/0506163, 2005. XXXVIth summer school of Gif-sur-Yvette, September 2004, CERN.
Phenomenological guide to physics beyond the Standard Model, Stefan Pokorski, arXiv:hep-ph/0502132, 2005. Cargese School on String Theory, Cargese, 4-16 June 2004.
Physics of Massive Neutrinos, J. W. F. Valle, Nucl. Phys. Proc. Suppl. 149 (2005) 3, arXiv:hep-ph/0410103. Sixth International Conf. on Neutrino Factories and SuperBeams (NuFact04) Osaka, Japan, July 26-August 1, 2004.
Flavour and CP Violation in the Lepton Sector and New Physics, Stephane Lavignac, eConf C030603 (2003) VEN04, arXiv:hep-ph/0312309. Flavor Physics and CP Violation (FPCP 2003), Paris, France, 3-6 June 2003.
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.

6 - Reviews - Theory

A Review on Non-Minimal Universal Extra Dimensions, Thomas Flacke, Kyoungchul Kong, Seong Chan Park, Mod.Phys.Lett. A30 (2015) 0003, arXiv:1408.4024.
The Physics of Heavy Z' Gauge Bosons, Paul Langacker, Rev. Mod. Phys. 81 (2009) 1199-1228, arXiv:0801.1345.
Large Extra Dimensions, Ghela G. Devidze, Akaki G. Liparteliani, arXiv:hep-ph/0412247, 2004.
Electric charge quantization, Robert Foot, H. Lew, R. R. Volkas, J. Phys. G19 (1993) 361-372, arXiv:hep-ph/9209259.
Charge quantization in the standard model and some of its extensions, Robert Foot, Girish C. Joshi, H. Lew, R.R. Volkas, Mod.Phys.Lett. A5 (1990) 2721-2732.

7 - Reviews - Theory - Conference Proceedings

Natural Philosophy versus Philosophy of Naturalness, Goran Senjanovic, Mod.Phys.Lett. A35 (2020) 2030006, arXiv:2001.10988. LHC Days in Split 2018, September 2018, Split, Croatia.
Beyond the Standard Model, Mihoko M. Nojiri, arXiv:1406.1410, 2014. 1st Asia-Europe-Pacific School of High-Energy Physics, Fukuoka, Japan, 14 - 27 Oct 2012 (C12-10-14).
No-go theorems and GUT, Takeshi Fukuyama, arXiv:1207.3851, 2012. GUT2012.
TASI 2011: Four Lectures on TeV Scale Extra Dimensions, Eduardo Ponton, arXiv:1207.3827, 2012.
Beyond the Standard Model, A. Pomarol, arXiv:1202.1391, 2012. 2010 European School of High-energy Physics; 20 June - 3 July 2010, Raseborg, Finland.
The Five Instructions, Pierre Ramond, arXiv:1201.0396, 2012. TASI 2011.
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.
Introduction to Extra Dimensions, Thomas G. Rizzo, AIP Conf. Proc. 1256 (2010) 27-50, arXiv:1003.1698.
2009 TASI Lecture - Introduction to Extra Dimensions, Hsin-Chia Cheng, arXiv:1003.1162, 2010. 2009 TASI Summer School.
TASI Lectures on Flavor Physics, K.S. Babu, arXiv:0910.2948, 2009.
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.
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.
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.
Theories for the Fermi Scale, G.F. Giudice, J. Phys. Conf. Ser. 110 (2008) 012014, arXiv:0710.3294. EPS 2007.
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.
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.
Lepton Flavour Violation, Isabella Masina, arXiv:hep-ph/0210125, 2002. SUSY02.

8 - PhD and Master Theses - Phenomenology

Charged Lepton Flavour Violation: An Experimental and Theoretical Introduction, Lorenzo Calibbi, Giovanni Signorelli, Riv.Nuovo Cim. 41 (2018) 1, arXiv:1709.00294.
New Physics at the TeV Scale, Shreyashi Chakdar, arXiv:1604.07358, 2016.
Effects of fermionic singlet neutrinos on high- and low-energy observables, Cedric Weiland, arXiv:1311.5860, 2013.
Phenomenology of the minimal B-L extension of the Standard Model at the LHC, Lorenzo Basso, arXiv:1106.4462, 2011.
The Early Universe as a Probe of New Physics, Chris Bird, arXiv:0812.4494, 2008.

9 - Experiment

Search for lepton-number- and baryon-number-violating tau decays at Belle, D. Sahoo et al., Phys.Rev. D102 (2020) 111101, arXiv:2010.15361.
Charged-lepton-flavour violation at the LHC: a search for $Z\to e\tau/\mu\tau$ decays with the ATLAS detector, Georges Aad et al. (ATLAS), arXiv:2010.02566, 2020.
Search for lepton-flavor violating decays $D^{0}\rightarrow X^{0}e^{\pm}\mu^{\mp}$, J.P. Lees et al. (BaBar), Phys.Rev. D101 (2020) 112003, arXiv:2004.09457.
Search for heavy neutral leptons decaying into muon-pion pairs in the MicroBooNE detector, P. Abratenko et al., Phys.Rev. D101 (2020) 052001, arXiv:1911.10545.
Search for Tri-Nucleon Decay in the Majorana Demonstrator, S.I. Alvis et al., Phys.Rev. D99 (2019) 072004, arXiv:1812.01090.
Search for heavy neutrinos and third-generation leptoquarks in hadronic states of two $\tau$ leptons and two jets in proton-proton collisions at $\sqrt{s} =$ 13 TeV, Albert M Sirunyan et al. (CMS), JHEP 1903 (2019) 170, arXiv:1811.00806.
Search for heavy Majorana or Dirac neutrinos and right-handed $W$ gauge bosons in final states with two charged leptons and two jets at $\sqrt{s}$ = 13 TeV with the ATLAS detector, Morad Aaboud et al. (ATLAS), JHEP 1901 (2019) 016, arXiv:1809.11105.
Search for heavy Majorana neutrinos in same-sign dilepton channels in proton-proton collisions at $\sqrt{s} =$ 13 TeV, Albert M Sirunyan et al. (CMS), JHEP 1901 (2019) 122, arXiv:1806.10905.
A search for lepton-flavor-violating decays of the $Z$ boson into a $\tau$-lepton and a light lepton with the ATLAS detector, ATLAS Collaboration, Phys.Rev. D98 (2018) 092010, arXiv:1804.09568.
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, JHEP 1805 (2018) 148, arXiv:1803.11116.
First Limit on the direct detection of Lightly Ionizing Particles for Electric Charge as Low as $e$/1000 with the MAJORANA DEMONSTRATOR, S. I. Alvis et al., Phys.Rev.Lett. 120 (2018) 211804, arXiv:1801.10145.
Search for a heavy composite Majorana neutrino in the final state with two leptons and two quarks at sqrt(s) = 13 TeV, CMS, Phys.Lett. B775 (2017) 315-337, arXiv:1706.08578.
Search for the third-generation scalar leptoquarks and heavy right-handed neutrinos in final states with two tau leptons and two jets in proton-proton collisions at sqrt(s) = 13 TeV, CMS, JHEP 1707 (2017) 121, arXiv:1703.03995.
Search for heavy Majorana neutrinos in $e^{\pm} e^{\pm} + \text{jets}$ and $e^{\pm} \mu^{\pm} + \text{jets}$ events in proton-proton collisions at $\sqrt{s} = 8 \, \text{TeV}$, Vardan Khachatryan et al. (CMS), JHEP 1604 (2016) 169, arXiv:1603.02248.
Probing lepton flavour violation via neutrinoless $\tau\longrightarrow 3\mu$ decays with the ATLAS detector, G. Aad et al. (ATLAS), Eur.Phys.J. C76 (2016) 232, arXiv:1601.03567.
A test of electric charge conservation with Borexino, M. Agostini et al. (Borexino), Phys. Rev. Lett. 115 (2015) 231802, arXiv:1509.01223.
Search for heavy neutrinos and W bosons with right-handed couplings in proton-proton collisions at sqrt(s) = 8 TeV, Vardan Khachatryan et al. (CMS), Eur.Phys.J. C74 (2014) 3149, arXiv:1407.3683.
Search for Majorana neutrinos in $B^- \to \pi^+\mu^-\mu^-$ decays, Roel Aaij et al. (LHCb), Phys. Rev. Lett. 112 (2014) 131802, arXiv:1401.5361.
A Search for Nucleon Decay via $n \rightarrow \bar\nu pi^{0}$ and $p \rightarrow \bar\nu pi^{+}$ in Super-Kamiokande, K. Abe et al. (Super-Kamiokande), Phys. Rev. Lett. 113 (2014) 121802, arXiv:1305.4391.
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.
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.
Search for heavy Majorana neutrinos in $\mu^{\pm}\mu^{\pm} +$ jets and $e^{\pm}e^{\pm} +$ jets events in pp collisions at $\sqrt{s} =$ 7 TeV, Serguei Chatrchyan et al. (CMS), Phys. Lett. B717 (2012) 109-128, arXiv:1207.6079.
Search for heavy neutrinos and right-handed $W$ bosons in events with two leptons and jets in $pp$ collisions at $\sqrt{s}=7$ TeV with the ATLAS detector, Georges Aad et al. (ATLAS), Eur. Phys. J. C72 (2012) 2056, arXiv:1203.5420.
Search for Nucleon Decay into Charged Anti-lepton plus Meson in Super-Kamiokande I and II, H. Nishino et al. (Super-Kamiokande), Phys. Rev. D85 (2012) 112001, arXiv:1203.4030.
Search for GUT Monopoles at Super-Kamiokande, K. Ueno et al. (Super-Kamiokande), Astropart. Phys. 36 (2012) 131-136, arXiv:1203.0940.
Stringent limits on a new light boson decaying into $e^+ e^-$ pair from $\pi^0 \to \gamma + X$ decays: constraining vector portal into hidden sectors, S. N. Gninenko, Phys. Rev. D85 (2012) 055027, arXiv:1112.5438.
Study of Non-Standard Neutrino Interactions with Atmospheric Neutrino Data in Super-Kamiokande I and II, G. Mitsuka et al. (Kamiokande), Phys. Rev. D84 (2011) 113008, arXiv:1109.1889.
Search for a heavy gauge boson decaying to a charged lepton and a neutrino in 1 fb-1 of $pp$ collisions at $\sqrt{s}$ = 7 TeV using the ATLAS detector, G. Aad et al. (ATLAS), Phys. Lett. B705 (2011) 28-46, arXiv:1108.1316.
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.
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.
Limits on tau Lepton-Flavor Violating Decays in three charged leptons, J. P. Lees (BaBar), Phys. Rev. D81 (2010) 111101, arXiv:1002.4550.
New experimental limits on the Pauli forbidden transitions in C-12 nuclei obtained with 485 days Borexino data, G. Bellini et al. (Borexino), Phys. Rev. C81 (2010) 034317, arXiv:0911.0548.
Search for Lepton Flavor and Lepton Number Violating tau Decays into a Lepton and Two Charged Mesons, Y.Miyazaki et al. (Belle), Phys. Lett. B682 (2010) 355-362, arXiv:0908.3156.
Improved limits on lepton flavor violating tau decays to $l \phi$, $l \rho$, $l K^*$ and $l \bar{K}^*$, B. Aubert (BABAR), Phys. Rev. Lett. 103 (2009) 021801, arXiv:0904.0339.
Determination of the Atmospheric Neutrino Flux and Searches for New Physics with AMANDA-II, R. Abbasi et al. (IceCube), Phys. Rev. D79 (2009) 102005, arXiv:0902.0675.
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.
A Search for Excited Neutrinos in e-p Collisions at HERA, H1 (H1), Phys. Lett. B663 (2008) 382-389, arXiv:0802.1858.
Search for lepton-flavor-violating $\tau\to\ell V^0$ decays at Belle, T. Ohshima et al. (Belle), Phys. Lett. B664 (2008) 35-40, arXiv:0801.2475.
Search for Lepton Flavor Violating tau Decays into Three Leptons, Y.Miyazaki et al. (Belle), Phys. Lett. B660 (2008) 154-160, arXiv:0711.2189.
Search for W' bosons decaying to an electron and a neutrino with the D0 detector, V. Abazov et al. (D0), Phys. Rev. Lett. 100 (2008) 031804, arXiv:0710.2966.
Improved Limits on the Lepton-Flavor Violating Decays tau- - > l-l+l-, B. Aubert et al. (BABAR), Phys. Rev. Lett. 99 (2007) 251803, arXiv:0708.3650.
Measurement of the Neutrino Asymmetry Parameter B in Neutron Decay, M. Schumann et al., Phys. Rev. Lett. 99 (2007) 191803, arXiv:0706.3788.
Response to the critics of Borexino result in 'A new experimental limit for the stability of the electron' by H.V. Klapdor-Kleingrothaus, I.V. Krivosheina and I.V. Titkova, H.O. Back et al. (BOREXINO), arXiv:hep-ex/0703044, 2007.
A new experimental limit for the stability of the electron, H. V. Klapdor-Kleingrothaus, I. V. Krivosheina, I. V. Titkova, Phys. Lett. B644 (2007) 109-118.
Search for Lepton Flavor Violating Decays $\tau^\pm \to \ell^\pm{\pi^0}$, $\ell^\pm\eta, \ell^\pm{\eta^\prime}$, BABAR (BABAR), Phys. Rev. Lett. 98 (2007) 061803, arXiv:hep-ex/0610067.
Search for the Baryon and Lepton Number Violating Decays tau - > Lambda h, BABAR (BABAR), arXiv:hep-ex/0607040, 2006.
Search for Lepton-Flavor and Lepton-Number Violation in the Decay tau- > lhh, BaBar (BaBar), Phys. Rev. Lett. 95 (2005) 191801, arXiv:hep-ex/0506066.
Search for the Lepton-Number-Violating Decay $\Xi^- \to p \mu^- \mu^-$, D. Rajaram et al. (HyperCP), Phys. Rev. Lett. 94 (2005) 181801, arXiv:hep-ex/0505025.
Search for Lepton Flavor Violation in the Decay tau - > mu gamma, B. Aubert et al. (BABAR), Phys. Rev. Lett. 95 (2005) 041802, arXiv:hep-ex/0502032.
Search for Scalar Leptoquark Pairs Decaying to $\nu \bar \nu q \bar q $ in $p \bar p$ Collisions at $\sqrt {s} = 1.96 \, \mathrm{TeV}$, CDF (CDF), Phys. Rev. D71 (2005) 112001, arXiv:hep-ex/0410076.
Search for $\pi^0 \to \nu_{\mu}\bar\nu_{\mu}$ Decay in LSND, L. B. Auerbach et al. (LSND), Phys. Rev. Lett. 92 (2004) 091801, arXiv:hep-ex/0310060.
Improved limits on $\bar\nu_e$ emission from $\mu^+$ decay, B. Armbruster et al., Phys. Rev. Lett. 90 (2003) 181804, arXiv:hep-ex/0302017.
From the abstract: We extract upper limits of the branching ratio for the LF violating decay $\mu^+ \to e^+ + \bar\nu_e + {}^{(}\bar{\nu}^{)}$ compared to the Standard Model (SM) $\mu^+ \to e^+ + \nu_e + \bar\nu_\mu$ decay: $BR < 0.9(1.7) \times 10^{-3}$ (90%CL) depending on the spectral distribution of $\bar\nu_e$ characterized by the Michel parameter $\tilde\rho=0.75 (0.0)$. These results improve earlier limits by one order of magnitude and restrict extensions of the SM in which $\bar\nu_e$ emission from $\mu^+$ decay is allowed with considerable strength. The decay $\mu^+ \to e^+ + \bar\nu_e + \nu_\mu$ as source for the $\bar\nu_e$ signal observed in the LSND experiment can be excluded.
Is the unitarity of the quark-mixing-CKM-matrix violated in neutron beta-decay?, H. Abele et al., Phys. Rev. Lett. 88 (2002) 211801, arXiv:hep-ex/0206058.
From the abstract: ..., we find a deviation from the unitarity condition for the first row of the CKM matrix of $\Delta$ = 0.0083(28), which is 3.0 times the stated error.
A precise determination of electroweak parameters in neutrino nucleon scattering, G. P. Zeller et al. (NuTeV), Phys. Rev. Lett. 88 (2002) 091802, arXiv:hep-ex/0110059.
From the abstract: The NuTeV collaboration has extracted the electroweak parameter sin2θW from the measurement of the ratios of neutral current to charged current neutrino and anti-neutrino cross-sections. Our value, sin2θW(on-shell)=0.2277±0.0013(stat)±0.0009(syst), is three standard deviations above the standard model prediction.
Evidence for the production of a new particle in neutrino interactions, M. R. Krishnaswamy et al., Phys. Lett. B57 (1975) 105.

10 - Experiment - Conference Proceedings

High-energy particle physics with IceCube, Tianlu Yuan (IceCube), J.Phys.Conf.Ser. 1468 (2020) 012140, arXiv:2001.08657. TAUP 2019.
Status of charged lepton flavour violation search with MEG II experiment, Manuel Meucci, Nuovo Cim. C43 (2020) 48, arXiv:1912.08656. IFAE 2019.
Searches for Heavy Neutrinos at the CERN SPS, Patrizia Cenci, arXiv:1804.08656, 2018. NuPhys2017.
The first ever search for neutrinoless quadruple beta decay, Pawel Guzowski, arXiv:1804.00280, 2018. NuPhys2017 (London, 20-22 December 2017).
Searches for new physics in lepton plus jet final states in ATLAS and CMS, Francesco Romeo (ATLAS-CMS), arXiv:1709.00229, 2017.
New limits on heavy neutrinos from Kaon experiments at CERN, Karim Massri, Nuovo Cim. C40 (2018) 170, arXiv:1706.03553. La Thuile 2017.
Searches for Majorana Neutrinos and Direct Searches for Exotics at LHCb, X. Cid Vidal (LHCb), arXiv:1510.05483, 2015. LISHEP 2015.
The Sun in Hidden Photons, Javier Redondo, arXiv:1202.4932, 2012. 7th Patras Workshop on Axions, WIMPs and WISPs, 27 June - 1 July 2011, Mykonos, Greece.
First LHC constraints on anomalously interacting new vector bosons, M. V. Chizhov et al., arXiv:1110.5533, 2011. 15th Lomonosov.
IceCube as a discovery observatory for physics beyond the standard model, K. Helbing (IceCube), arXiv:1107.5227, 2011. 46th Rencontres de Moriond.
Recent MEG results, G.Cavoto, Nucl. Phys. Proc. Suppl. 217 (2011) 324-328, arXiv:1012.2110. NOW 2010.
First Result From The MEG Experiment, Elisabetta Baracchini (MEG), arXiv:1005.2569, 2010. 45 Rencontres de Moriond Electroweak.
Lepton Flavour Violating Muon Decay at MEG, Hajime Nishiguchi, arXiv:0905.2012, 2009. Heavy Quarks and Leptons, Melbourne, 2008.
Search for lepton flavor violating $\tau \to \ell V^0$ decays at Belle, K. Abe et al. (Belle), arXiv:0708.3276, 2007. EPS 2007 and Lepton Photon 2007.
Searches for New Phenomena with Lepton Final States at the Tevatron, T. Adams (CDF), arXiv:0705.4679, 2007. XLIInd Renconstres de Moriond Electroweak 2007, La Thuile, Italy.
Precision Measurements in Neutron Decay, Marc Schumann (PERKEO II), arXiv:0705.3769, 2007. XLIInd Rencontres de Moriond - Electroweak Interactions and Unified Theories, March 10-17 2007, La Thuile, Italy.
Search for Excited Neutrinos at HERA, Cristinel Diaconu (H1), arXiv:hep-ex/0607047, 2006. 14th International Workshop on Deep Inelastic Scattering (DIS 2006), Tsukuba, Japan, April 20-24, 2006.
Study of the Lepton Flavor Violating Decay \tau^{-} \to \mu^{-} \eta, BABAR Collaboration et al. (BABAR), arXiv:hep-ex/0607045, 2006. ICHEP2006.
Rare Decays and Search for New Physics with BaBar, Johannes M. Bauer, Frascati Phys. Ser. 40 (2006) 145-148, arXiv:hep-ex/0607041. Fourth International Conference on Frontier Science - New Frontiers in Subnuclear Physics, September 12-17, 2005, Milan, Italy.
Lepton Flavor Violation in tau decays at BaBar, Swagato Banerjee (BABAR), arXiv:hep-ex/0511045, 2005. XII Lomonosov Conference on Elementary Particle Physics, Moscow, Russia (25 - 31 August 2005).
Search for Lepton Flavour Violation in the Decay tau - > mu gamma, J. M. Roney (BaBar), Nucl. Phys. Proc. Suppl. 144 (2005) 155, arXiv:hep-ex/0412002.
New Strange Asymmetry Results from NuTeV, D. Mason (NuTeV), arXiv:hep-ex/0405037, 2004. XXXIXth Rencontres de Moriond, QCD and high energy hadronic interactions, 2004.
Lepton Flavour Violating $\tau$ decays, Swagato Banerjee, arXiv:hep-ex/0405029, 2004. Lake Louise Winter Institute on Fundamental Interactions, Lake Louise, Alberta, Canada (LLWI, 15-21 Feb 2004).
Search for neutrinoless tau decays $\tau \to 3 \ell$ and $\tau \to \ell K^0_S$, Y. Yusa et al. (BELLE), eConf C0209101 (2002) TU13, arXiv:hep-ex/0211017. Seventh International Workshop on Tau Lepton Physics (TAU02), Santa Cruz, Ca, USA, Sept 2002.
Neutron beta decay and the quark-mixing CKM-marix, Hartmut Abele, arXiv:hep-ex/0208048, 2002.
Electroweak Results from NuTeV, G.P. Zeller (NuTeV), arXiv:hep-ex/0207037, 2002. 37th Recontres de Moriond on Electroweak Interactions and Unified Theories, March 2002.

11 - Experiment - Millicharged Particles

Search for millicharged particles in proton-proton collisions at $\sqrt{s} = 13$ TeV, A. Ball et al., Phys.Rev. D102 (2020) 032002, arXiv:2005.06518.
Improved Limits on Millicharged Particles Using the ArgoNeuT Experiment at Fermilab, R. Acciarri et al. (ArgoNeuT), Phys.Rev.Lett. 124 (2020) 131801, arXiv:1911.07996.

12 - Experiment - $^8\text{Be}$ Anomaly

New evidence supporting the existence of the hypothetic X17 particle, A. J. Krasznahorkay et al., arXiv:1910.10459, 2019.
Observation of Anomalous Internal Pair Creation in Be8 : A Possible Indication of a Light, Neutral Boson, A. J. Krasznahorkay et al., Phys. Rev. Lett. 116 (2016) 042501, arXiv:1504.01527.

13 - Experiment - mu -> e + gamma

Search for the lepton flavour violating decay $\mu ^+ \rightarrow \mathrm {e}^+ \gamma $ with the full dataset of the MEG experiment, A. M. Baldini et al. (MEG), Eur. Phys. J. C76 (2016) 434, arXiv:1605.05081.
Muon polarization in the MEG experiment: predictions and measurements, A. M. Baldini et al. (MEG), Eur.Phys.J. C76 (2016) 223, arXiv:1510.04743.
New limit on the lepton-flavour violating decay $\mu \to e \gamma$, J. Adam et al. (MEG), Phys. Rev. Lett. 107 (2011) 171801, arXiv:1107.5547.

14 - Experiment - mu -> e + gamma - Conference Proceedings

Final Results of the MEG Experiment, Toshinori Mori (MEG), Nuovo Cim. C39 (2017) 325, arXiv:1606.08168. Les Rencontres de Physique de la Vallee d'Aoste, La Thuile, March 6-12, 2016.
Latest results of MEG and status of MEG-II, Francesco Renga (MEG), arXiv:1410.4705, 2014. PANIC2014.
$\mu{\to}e\gamma$ and $\mu{\to}eee$ Status and perspectives, M. De Gerone (MEG), arXiv:1108.2670, 2011. Ninth International Conference on Flavor Physics and CP Violation FPCP2011.

15 - Experiment - GSI Anomaly

High-resolution measurement of the time-modulated orbital electron capture and of the $\beta^+$ decay of hydrogen-like $^{142}$Pm$^{60+}$ ions, P. Kienle et al. (Two-Body-Weak-Decays), Phys.Lett. B726 (2013) 638-645, arXiv:1309.7294.
Could the GSI Oscillations be Observed in a Standard Electron Capture Decay Experiment?, Thomas Faestermann et al., Phys. Lett. B672 (2009) 227-229, arXiv:0807.3297.
Search for Oscillation of the Electron-Capture Decay Probability of $^{142}$Pm, P. A. Vetter et al., Phys. Lett. B670 (2008) 196-199, arXiv:0807.0649.
From the abstract: We observed no oscillatory modulation at the proposed frequency at a level 31 times smaller than that reported by Litvinov et al. (Phys. Lett. B 664 (2008) 162; arXiv:0801.2079 [nucl-ex]).

16 - Experiment - GSI Anomaly - Conference Proceedings

Lifetime measurements of nuclei in few-electron ions, Thomas Faestermann, Phys. Scripta T166 (2015) 014003, arXiv:1512.00431. STORI'14.
Time-modulation of entangled two-body weak decays with massive neutrinos, P. Kienle, Prog. Part. Nucl. Phys. 64 (2010) 439-444. 10th International Spring Seminar On Nuclear Physics: New Quests In Nuclear Structure, 21-25 May 2010, Vietri sul Mare, Salerno, Italy [J. Phys. Conf. Ser.267,012056(2011)].
Two-body weak decay studies in an ion storage ring, Paul Kienle, J. Phys. Conf. Ser. 171 (2009) 012065. DISCRETE'08: Symposium on Prospects in the Physics of Discrete Symmetries, 11-16 Dec 2008, Valencia, Spain.
Time-modulation of orbital electron capture decays by mixing of massive neutrinos, P. Kienle, Nucl. Phys. A827 (2009) 510C-517C. 18th International Conference on Particles and Nuclei (PANIC 08), 9-14 Nov 2008, Eilat, Israel.

17 - Experiment - GSI Anomaly - Slides

Observation of Non-Exponential Orbital Electron Capture Decays of Hydrogen-Like $^{140}$Pr and $^{142}$Pm Ions and possible implications for the neutrino masses, F. Bosch, 2008. Warsaw University, May 14, 2008.
Observation of non-exponential Decays of Hydrogen-like 140Pr and 124Pm Ions, F. Bosch, 2008. PMN08, Symposion on 'Physics of Massive Neutrinos', 20-22 May 2008, Milos Island, Greece.
Non-Exponential Orbital Electron Capture Decays of Hydrogen-Like 140Pr and 142Pm Ions, Yu.A. Litvinov, 2008. NO-VE 08, 15-18 April 2008, Venice, Italy.
Search for Oscillation of the Electron-Capture Decay Probability of 142Pm, Stuart Freedman, 2008. PANIC08, 9-14 November 2008, Eilat, Israel.
The GSI oscillations, Yu.A. Litvinov, 2008. NPNAP2008, 16-21 November 2008, ECT', Trento, Italy.

18 - Experiment - Violation of Lorentz Invariance

Tests of Lorentz invariance at the Sudbury Neutrino Observatory, B. Aharmim et al. (SNO), Phys.Rev. D98 (2018) 112013, arXiv:1811.00166.
Search for a time-varying electron antineutrino signal at Daya Bay, D. Adey et al. (Daya Bay), Phys.Rev. D98 (2018) 092013, arXiv:1809.04660.
Neutrino Interferometry for High-Precision Tests of Lorentz Symmetry with IceCube, M. G. Aartsen et al. (IceCube), Nature Phys. 14 (2018) 961-966, arXiv:1709.03434.
Search for Lorentz and CPT violation using sidereal time dependence of neutrino flavor transitions over a short baseline, Ko Abe et al. (T2K), Phys.Rev. D95 (2017) 111101, arXiv:1703.01361.
Search for time-independent Lorentz violation using muon neutrino to muon antineutrino transitions in MINOS, P. Adamson et al. (MINOS), arXiv:1605.03146, 2016.
First Search for Lorentz and CPT Violation in Double Beta Decay with EXO-200, J. B. Albert et al. (EXO-200), arXiv:1601.07266, 2016.
Search for Violation of $CPT$ and Lorentz invariance in ${B_s^0}$ meson oscillations, D0 (D0), Phys. Rev. Lett. 115 (2015) 161601, arXiv:1506.04123.
Search for Lorentz violation in short-range gravity, J.C. Long, Alan Kostelecky, Phys. Rev. D91 (2015) 092003, arXiv:1412.8362.
Direct Terrestrial Measurement of the Spatial Isotropy of the Speed of Light to 10$^{-18}$, M. Nagel et al., Nature Commun. 6 (2015) 8174, arXiv:1412.6954.
Test of Lorentz Invariance with Atmospheric Neutrinos, K. Abe et al. (Super-Kamiokande), Phys. Rev. D91 (2015) 052003, arXiv:1410.4267.
Search for neutrino-antineutrino oscillations with a reactor experiment, J.S. Diaz, T. Katori, J. Spitz, J.M. Conrad, Phys.Lett. B727 (2013) 412-416, arXiv:1307.5789.
First Test of Lorentz Violation with a Reactor-based Antineutrino Experiment, Y. Abe et al. (Double Chooz), Phys. Rev. D86 (2012) 112009, arXiv:1209.5810.
Search for Lorentz invariance and CPT violation with muon antineutrinos in the MINOS Near Detector, P. Adamson et al. (The MINOS), Phys. Rev. D85 (2012) 031101, arXiv:1201.2631.
Test of Lorentz and CPT violation with Short Baseline Neutrino Oscillation Excesses, A. A. Aguilar-Arevalo et al. (MiniBooNE), Phys. Lett. B718 (2013) 1303-1308, arXiv:1109.3480.
A Search for Lorentz Invariance and CPT Violation with the MINOS Far Detector, P. Adamson et al. (MINOS), Phys. Rev. Lett. 105 (2010) 151601, arXiv:1007.2791.
Rotating Odd-Parity Lorentz Invariance Test in Electrodynamics, Michael E. Tobar, Eugene N. Ivanov, Paul L. Stanwix, Jean-Michel G. le Floch, John G. Hartnett, Phys. Rev. D80 (2009) 125024, arXiv:0909.2076.
Testing Lorentz Invariance and CPT Conservation with NuMI Neutrinos in the MINOS Near Detector, P. Adamson et al. (MINOS), Phys. Rev. Lett. 101 (2008) 151601, arXiv:0806.4945.
Search for anisotropic light propagation as a function of laser beam alignment relative to the Earth's velocity vector, C. E. Navia et al., arXiv:astro-ph/0608223, 2006.
New CP-violation and preferred-frame tests with polarized electrons, B. R. Heckel et al., Phys. Rev. Lett. 97 (2006) 021603, arXiv:hep-ph/0606218.
Tests of Lorentz violation in muon antineutrino to electron antineutrino oscillations, L.B. Auerbach et al. (LSND), Phys. Rev. D72 (2005) 076004, arXiv:hep-ex/0506067.

19 - Experiment - Violation of Lorentz Invariance - Conference Proceedings

First Search for Lorentz and CPT Violation in Double Beta Decay with EXO-200, L.J. Kaufman (EXO-200), arXiv:1608.05748, 2016. Seventh Meeting on CPT and Lorentz Symmetry, Bloomington, Indiana, June 20-24, 2016.
Search for Lorentz Violation using Short-Range Tests of Gravity, J. Long, arXiv:1607.07092, 2016. Seventh Meeting on CPT and Lorentz Symmetry, Bloomington, Indiana, June 20-24, 2016.
Lorentz Invariance Violation Limits from the Crab Pulsar using VERITAS, Benjamin Zitzer (VERITAS), arXiv:1307.8382, 2013. 33rd International Cosmic Ray Conference (ICRC2013), Rio de Janeiro (Brazil).
Constraining Lorentz Violation with Fermi, Vlasios Vasileiou for the Fermi LAT (GBMs), arXiv:1008.2913, 2010. Fifth Meeting on CPT and Lorentz Symmetry, Bloomington, Indiana, June 28-July 2, 2010.
Test for Lorentz and CPT Violation with the MiniBooNE Low-Energy Excess, Teppei Katori (MiniBooNE), arXiv:1008.0906, 2010. Fifth Meeting on CPT and Lorentz Symmetry, Bloomington, Indiana, June 28-July 2, 2010.
Test of Lorentz Symmetry by using a 3He/129Xe Co-Magnetometer, K. Tullney et al., arXiv:1008.0579, 2010. Fifth Meeting on CPT and Lorentz Symmetry, Bloomington, Indiana, June 28 - July 2, 2010.
Testing Lorentz and CPT Invariance with MINOS Near Detector Neutrinos, B. J. Rebel, S. L. Mufson (MINOS), arXiv:0802.3785, 2008. CPT'07.
MACRO constraints on violation of Lorentz invariance, M. Cozzi, Nucl. Phys. Proc. Suppl. 168 (2007) 289-291, arXiv:hep-ex/0703015. NOW 2006: Neutrino Oscillation Workshop, Conca Specchiulla, Otranto, Italy, Sep 2006.

20 - Phenomenology

CP violation with GeV-scale Majorana neutrino in $\Lambda_b\to(\Lambda_c^+, p^+)\pi^+\mu^-\mu^-$ decays, Diganta Das, Jaydeb Das, arXiv:2101.06735, 2021.
Searching for lepton number violating $\Lambda$ baryon decays mediated by GeV-scale Majorana neutrino with LHCb, Guangshuai Zhang, Bo-Qiang Ma, arXiv:2101.05566, 2021.
$\DeltaB=2$ neutron decay into antiproton mode $n\to \bar pe^+\nu(\bar\nu)$, Xiao-Gang He, Xiao-Dong Ma, arXiv:2101.01405, 2021.
Earth-bound Milli-charge Relics, Maxim Pospelov, Harikrishnan Ramani, arXiv:2012.03957, 2020.
Comprehensive analysis of beta decays within and beyond the Standard Model, Adam Falkowski, Martin Gonzalez-Alonso, Oscar Naviliat-Cuncic, arXiv:2010.13797, 2020.
Millicharged Cosmic Rays and Low Recoil Detectors, Roni Harnik, Ryan Plestid, Maxim Pospelov, Harikrishnan Ramani, arXiv:2010.11190, 2020.
Searching for charged lepton flavor violation at $ep$ colliders, Stefan Antusch, A. Hammad, Ahmed Rashed, arXiv:2010.08907, 2020.
Four-lepton Z-boson decay constraints on the SMEFT, Radja Boughezal, Chien-Yi Chen, Frank Petriello, Daniel Wiegand, arXiv:2010.06685, 2020.
Probing lepton number violating interactions in rare kaon decays, Frank F. Deppisch, Kare Fridell, Julia Harz, JHEP 2012 (2020) 186, arXiv:2009.04494.
Use and reuse of SMEFT, Andre David, Giampiero Passarino, arXiv:2009.00127, 2020.
Model Independent Bounds on the Non-Oscillatory Explanations of the MiniBooNE Excess, Vedran Brdar, Oliver Fischer, Alexei Yu. Smirnov, arXiv:2007.14411, 2020.
Light Majorana Neutrinos in (Semi)invisible Meson Decays, Blaz Bortolato, Jernej F. Kamenik, arXiv:2007.08863, 2020.
Lepton universality and lepton flavor conservation tests with dineutrino modes, Rigo Bause, Hector Gisbert, Marcel Golz, Gudrun Hiller, arXiv:2007.05001, 2020.
Probing a new decay of vector-like top partner mediated by heavy Majorana neutrino via single production, Hang Zhou, Ning Liu, Phys.Rev. D101 (2020) 115028, arXiv:2006.05296.
$H^0\to \bar{\ell}_i\ell_j$ through TeV sterile neutrinos, G. Hernandez-Tome, J. I. Illana, M. Masip, Phys.Rev. D102 (2020) 113006, arXiv:2005.11234.
Implications of $b\to s\mu\mu$ Anomalies for Future Measurements of $B \to K^{(*)} \nu\bar \nu$ and $K\to \pi\nu\bar \nu$, Sebastien Descotes-Genon, Svjetlana Fajfer, Jernej F. Kamenik, Martin Novoa-Brunet, Phys.Lett. B809 (2020) 135769, arXiv:2005.03734.
Heavy Neutral Leptons from kaon decays in the SHiP experiment, Dmitry Gorbunov, Igor Krasnov, Yury Kudenko, Sergey Suvorov, Phys.Lett. B810 (2020) 135817, arXiv:2004.07974.
Searching for New Physics in Two-Neutrino Double Beta Decay, Frank F. Deppisch, Lukas Graf, Fedor Simkovic, Phys.Rev.Lett. 125 (2020) 171801, arXiv:2003.11836.
Beta decays as sensitive probes of lepton flavor universality, Andreas Crivellin, Martin Hoferichter, Phys.Rev.Lett. 125 (2020) 111801, arXiv:2002.07184.
CP Violation in Same-sign Dilepton Production at the LHC, Fatemeh Najafi, Jacky Kumar, David London, Richard MacKenzie, Phys.Rev. D102 (2020) 015025, arXiv:2002.01978.
Effects of heavy Majorana neutrinos on lepton flavor violating processes, G. Hernandez-Tome, J. I. Illana, G. Lopez Castro, M. Masip, P. Roig, arXiv:1912.13327, 2019.
Global Fit to Modified Neutrino Couplings and the Cabibbo-Angle Anomaly, Antonio M. Coutinho, Andreas Crivellin, Claudio Andrea Manzari, Phys.Rev.Lett. 125 (2020) 071802, arXiv:1912.08823.
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.
Dirac vs. Majorana HNLs (and their oscillations) at SHiP, Jean-Loup Tastet, Inar Timiryasov, JHEP 2004 (2020) 005, arXiv:1912.05520.
Sensitivity for four-body tau-lepton decays at Belle and Belle II experiments, I. Dominguez, P. S. Mares Damas, P. L. M. Podesta Lerma, D. Rodriguez Perez, arXiv:1912.01720, 2019.
Searches for Atmospheric Long-Lived Particles, Carlos Arguelles, Pilar Coloma, Pilar Hernandez, Victor Munoz, JHEP 2002 (2020) 190, arXiv:1910.12839.
Neutrino Excess and Dark Photons, Leonard S. Kisslinger, arXiv:1910.11651, 2019.
Millicharged particles at electron colliders, Jinhan Liang, Zuowei Liu, Yue Ma, Yu Zhang, Phys.Rev. D102 (2020) 015002, arXiv:1909.06847.
Searching for Heavy Neutrinos with the MoEDAL-MAPP Detector at the LHC, Mariana Frank, Marc de Montigny, Pierre-Philippe A. Ouimet, James Pinfold, Ameir Shaa, Michael Staelens, Phys.Lett. B802 (2020) 135204, arXiv:1909.05216.
Sensitivity of Lepton Number Violating Meson Decays in Different Experiments, Eung Jin Chun, Arindam Das, Sanjoy Mandal, Manimala Mitra, Nita Sinha, arXiv:1908.09562, 2019.
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.
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.
The NP right-chiral $CC$ coupling constant estimation in neutrino oscillation experiments, Jacek Syska, arXiv:1904.02263, 2019.
Heavy neutrino searches at future $Z$-factories, Jian-Nan Ding, Qin Qin, Fu-Sheng Yu, Eur.Phys.J. C79 (2019) 766, arXiv:1903.02570.
Testing new physics with future COHERENT experiments, O. G. Miranda, G. Sanchez Garcia, O. Sanders, Adv.High Energy Phys. 2019 (2019) 3902819, arXiv:1902.09036.
Probing baryon asymmetry of the Universe at LHC and SHiP, Iryna Boiarska, Kyrylo Bondarenko, Alexey Boyarsky, Shintaro Eijima, Maksym Ovchynnikov, Oleg Ruchayskiy, Inar Timiryasov, arXiv:1902.04535, 2019.
Reactor neutrino oscillations as constraints on Effective Field Theory, Adam Falkowski, Martin Gonzalez-Alonso, Zahra Tabrizi, JHEP 1905 (2019) 173, arXiv:1901.04553.
Heavy Neutrinos with Dynamic Jet Vetoes: Multilepton Searches at $\sqrt{s} = 14,~27,$ and $100$ TeV, Silvia Pascoli, Richard Ruiz, Cedric Weiland, JHEP 1906 (2019) 049, arXiv:1812.08750.
Proton Fixed-Target Scintillation Experiment to Search for Minicharged Particles, Kevin J. Kelly, Yu-Dai Tsai, Phys.Rev. D100 (2019) 015043, arXiv:1812.03998.
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Limits on the non-standard interactions of neutrinos from $e^+ e^-$ colliders, Zurab Berezhiani, Anna Rossi, Phys. Lett. B535 (2002) 207-218, arXiv:hep-ph/0111137.
Leptonic flavor and CP violation, Y. Grossman, Pramana 62 (2004) 269, arXiv:hep-ph/0109075.
Non-standard interactions: Atmospheric versus neutrino factory experiments, P. Huber, J. W. F. Valle, Phys. Lett. B523 (2001) 151-160, arXiv:hep-ph/0108193.
Probing neutrino non-standard interactions with atmospheric neutrino data, N. Fornengo, M. Maltoni, R. Tomas Bayo, J. W. F. Valle, Phys. Rev. D65 (2002) 013010, arXiv:hep-ph/0108043.
New CP violation in neutrino oscillations, M. C. Gonzalez-Garcia, Y. Grossman, A. Gusso, Y. Nir, Phys. Rev. D64 (2001) 096006, arXiv:hep-ph/0105159.
The flavor of neutrinos in muon decays at a neutrino factory and the LSND puzzle, A. Bueno, M. Campanelli, M. Laveder, J. Rico, A. Rubbia, JHEP 06 (2001) 032, arXiv:hep-ph/0010308.
Implications of improved upper bounds on |Delta L| = 2 processes, Laurence S. Littenberg, Robert Shrock, Phys. Lett. B491 (2000) 285-290, arXiv:hep-ph/0005285.
A consistent interpretation of the KARMEN anomaly, J. M. Levy, F. Vannucci, arXiv:hep-ph/0003194, 2000.
New limits on effective Majorana neutrino masses from rare kaon decays, K. Zuber, Phys. Lett. B479 (2000) 33-36, arXiv:hep-ph/0003160.
Probing possible decoherence effects in atmospheric neutrino oscillations, E. Lisi, A. Marrone, D. Montanino, Phys. Rev. Lett. 85 (2000) 1166-1169, arXiv:hep-ph/0002053.
Can lepton flavor violating interactions explain the atmospheric neutrino problem?, S. Bergmann, Y. Grossman, D. M. Pierce, Phys. Rev. D61 (2000) 053005, arXiv:hep-ph/9909390.
On the interpretation of the atmospheric neutrino data in terms of flavor changing neutrino interactions, N. Fornengo, M. C. Gonzalez-Garcia, J. W. F. Valle, JHEP 07 (2000) 006, arXiv:hep-ph/9906539.
Neutrino propagation in matter with general interactions, S. Bergmann, Y. Grossman, E. Nardi, Phys. Rev. D60 (2000) 093008, arXiv:hep-ph/9903517.
Quon statistics for composite systems and a limit on the violation of the Pauli principle for nucleons and quarks, O. W. Greenberg, Robert C. Hilborn, Phys. Rev. Lett. 83 (1999) 4460, arXiv:quant-ph/9903020.
The decays nu/H - > nu/L gamma and nu/H - > nu/L e+ e- of massive neutrinos, Q. Ho-Kim, B. Machet, Xuan-Yem Pham, Eur. Phys. J. C13 (2000) 117-123, arXiv:hep-ph/9902442.
Atmospheric neutrino observations and flavor changing interactions, M. C. Gonzalez-Garcia et al., Phys. Rev. Lett. 82 (1999) 3202-3205, arXiv:hep-ph/9809531.
Can lepton flavor violating interactions explain the LSND results?, S. Bergmann, Y. Grossman, Phys. Rev. D59 (1999) 093005, arXiv:hep-ph/9809524.
Testing for new physics with low-energy anti-neutrino sources: LAMA as a case study, I. Barabanov, R. Bernabei, O. G. Miranda, V. B. Semikoz, J. W. F. Valle, Nucl. Phys. B546 (1999) 19-32, arXiv:hep-ph/9808297.
Atmospheric $\nu_\mu$ deficit from decoherence, Y. Grossman, M. P. Worah, Phys.Lett.B (1998), arXiv:hep-ph/9807511.
Nonstandard neutrino interactions and neutrino oscillation experiments, Y. Grossman, Phys. Lett. B359 (1995) 141-147, arXiv:hep-ph/9507344.
Upper bounds on Delta L = 2 decays of baryons, Laurence S. Littenberg, Robert E. Shrock, Phys. Rev. D46 (1992) 892-894.
Upper bounds on lepton number violating meson decays, Laurence S. Littenberg, Robert E. Shrock, Phys. Rev. Lett. 68 (1992) 443-446.
Effects of superheavy neutrinos in low-energy weak processes, T. P. Cheng, Ling-Fong Li, Phys. Rev. D44 (1991) 1502-1509.
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21 - Phenomenology - Conference Proceedings

Interference effects in semileptonic decays from heavy Majorana neutrinos, X. Marcano, A. Abada, C. Hati, A. M. Teixeira, PoS EPS-HEP2019 (2020) 410, arXiv:1909.12060. EPS-HEP2019 conference, 10-17 July, 2019.
Violation of lepton number in 3 units, Renato M. Fonseca, J.Phys.Conf.Ser. 1586 (2020) 012003, arXiv:1903.09675. 6th Symposium on Prospects in the Physics of Discrete Symmetries (DISCRETE 2018), Vienna, Austria, 26-30 November 2018.
Lepton flavor violation induced by neutral and doubly-charged scalars at future lepton colliders, P. S. Bhupal Dev, Rabindra N. Mohapatra, Yongchao Zhang, arXiv:1902.04773, 2019. International Workshop on Future Linear Colliders (LCWS2018), Arlington, Texas, 22-26 October 2018.
Heavy Neutral Leptons and displaced vertices at LHC, Xabier Marcano, arXiv:1808.04705, 2018. Moriond 2018 EW session.
Precision tests via radiative $\mu$ and $\tau$ leptonic decays, M. Fael, M. Passera, PoS RADCOR2015 (2016) 091, arXiv:1602.00457. 12th International Symposium on Radiative Corrections (Radcor 2015) and LoopFest XIV (Radiative Corrections for the LHC and Future Colliders).
The Higgs Boson is found: What is next?, Dmitry Kazakov, Phys.Usp. 57 (2014) 930-942, arXiv:1405.5495.
Lepton-Flavor Violation and Physics beyond the Standard Model, Junji Hisano, Nucl. Phys. Proc. Suppl. 253-255 (2014) 8-11, arXiv:1212.4964. CKM 2012, the 7th International Workshop on the CKM Unitarity Triangle, University of Cincinnati, USA, 28 September - 2 October 2012.
Lepton number violation in tau lepton decays, Gabriel Lopez Castro, Nestor Quintero, Nucl. Phys. Proc. Suppl. 253-255 (2014) 12-15, arXiv:1212.0037. 12th International Workshop on Tau Lepton Physics, Nagoya, Japan, 17-21 september 2012.
New signals in dark matter detectors, Joachim Kopp, J. Phys. Conf. Ser. 485 (2014) 012032, arXiv:1210.2703. PASCOS 2012.
Physics performances for Scalar Electrons, Scalar Muons and Scalar Neutrinos searches at CLIC, Jean-Jacques Blaising et al., arXiv:1201.2092, 2012. Linera Collider Workshop, LCWS11.
Implications of first LHC results, Alessandro Strumia, arXiv:1107.1259, 2011. Moriond 2011.
Evidence for Time-Varying Nuclear Decay Rates: Experimental Results and Their Implications for New Physics, Ephraim Fischbach, Jere H. Jenkins, Peter A. Sturrock, arXiv:1106.1470, 2011. Rencontres de Moriond 2011: Gravitational Waves and Experimental Gravity (20-27 March 2011), La Thuile, Aosta valley, Italy.
Some constraints on new physics by atmospheric neutrinos, Osamu Yasuda, Nucl. Phys. Proc. Suppl. 229-232 (2012) 543, arXiv:1010.5962. 24th International Conference on Neutrino Physics and Astrophysics (Neutrino 2010), Athens, Greece, 14-19 Jun 2010.
Lepton flavor violating New Physics and supernova explosion, Oleg Lychkovskiy, Sergei Blinnikov, Mikhail Vysotsky, arXiv:1010.0883, 2010. 16th International Seminar on High Energy Physics 'QUARKS-2010', Kolomna, Russia, 6-12 June, 2010.
Summary report of MINSIS workshop in Madrid, Rodrigo Alonso et al., arXiv:1009.0476, 2010. MINSIS Workshop, 10-11 Dec 2009, Madrid.
ATLAS Sensitivity to Leptoquarks, W_R and Heavy Majorana Neutrinos in Final States with High-pt Dileptons and Jets with Early LHC Data at 14 TeV proton-proton collisions, Vikas Bansal, arXiv:0910.2215, 2009. DPF-2009, Detroit, MI, July 2009.
Extreme scenarios of new physics in the UHE astrophysical neutrino flavour ratios, M. Bustamante, A.M. Gago, C. Pena-Garay, J. Phys. Conf. Ser. 171 (2009) 012048, arXiv:0906.5329. DISCRETE'08: Symposium on Prospects in the Physics of Discrete Symmetries, Valencia, Spain, 11-16 Dec 2008.
Signatures of TeV gravity from the evaporation of cosmogenic black holes, Iacopo Mastromatteo, Petros Draggiotis, Manuel Masip, PoS BHs,GRandStrings 2008 (2009) 004, arXiv:0901.0325. Workshop on Black Holes in General Relativity and String Theory, August 24-30 2008, Veli Losinj, Croatia.
High Scale Physics Connection to LHC Data, Pran Nath, Int. J. Mod. Phys. A25 (2010) 5647-5665, arXiv:0812.0954. 246th Course at the International School of Subnuclear Physics- Erice -Sicily: 29 August -7 September, 2008.
Probing nonstandard interactions with reactor neutrinos, J. Barranco, O. G. Miranda, T. I. Rashba, Nucl. Phys. Proc. Suppl. 188 (2009) 214-216, arXiv:0810.5361. Neutrino Oscillation Workshop (NOW 2008), Otranto, Italy, September 6-13, 2008.
Probing Non Standard Neutrino Physics at T2KK and Neutrino Factory, Shoichi Uchinami, PoS NUFACT08 (2008) 056, arXiv:0810.3821. 10th International Workshop on Neutrino Factories, Super beams and Beta beams (Nufact08), June 30 - July 5 2008, Valencia, Spain.
Can the Existence of Dark Energy Be Directly Detected?, Martin L. Perl, Int. J. Mod. Phys. A24 (2009) 3426-3436, arXiv:0809.5083. Thirty-Fourth International Conference on High Energy Physics, Philadelphia, July 29-August 5 2008.
Neutrino oscillations beyond the Standard Model, F. del Aguila, J. Syska, M. Zralek, J. Phys. Conf. Ser. 136 (2008) 042027, arXiv:0809.2759. Neutrino 08 Conference, Christchurch, New Zealand, May 25-31, 2008.
Coherent nu-N scattering and the search for physics beyond the standard model, J.Barranco, AIP Conf.Proc. 1026 (2008) 109-114, arXiv:0808.0071. 11th Mexican Workshop on Particles and Fields 2007, Tuxtla Gutierrez, Mexico, 7-12 Nov 2007.
Probing Non-Standard Neutrino Physics at Neutrino Factory and T2KK, Hisakazu Minakata, arXiv:0805.2435, 2008. Fourth International Workshop on Neutrino Oscillations in Venice - Ten Years after the Neutrino Oscillations, (NO-VE 2008) Venice, Italy. 15-18, April 2008.
Probing Nonstandard Neutrino Physics at T2KK, N. Cipriano Ribeiro et al., arXiv:0801.4277, 2008. 3rd International Workshop on Far Detector in Korea for the J-PARC Neutrino Beam (T2KK).
Bilinear R-parity Violation in Rare Meson Decays, A. Ali, A.V. Borisov, M.V. Sidorova, arXiv:0801.2517, 2008. 13th Lomonosov Conference on Elementary Particle Physics, 23 - 29 August, 2007, Moscow, Russia.
Electron angular correlation in neutrinoless double beta decay and new physics, A. Ali, A.V. Borisov, D.V. Zhuridov, arXiv:0801.2512, 2008. 13th Lomonosov Conference on Elementary Particle Physics, 23 -29 August 2007, Moscow, Russia.
Non-Standard Neutrino Physics Probed by Tokai-to-Kamioka-Korea Two-Detector Complex, Nei Cipriano Ribeiro et al., arXiv:0801.2426, 2008. 13th Lomonosov Conference on Elementary Particle Physics, Moscow State University, Moscow, Russia, August 23-29, 2007.
More on Non-standard Interaction at MINOS, Hiroaki Sugiyama, AIP Conf. Proc. 981 (2008) 216-218, arXiv:0711.4303. 9th International Workshop on Neutrino Factories, Superbeams and Betabeams (NuFact07), Okayama, Japan, 6-11 Aug 2007.
Impact of non-standard neutrino interactions on future oscillation experiments, Joachim Kopp, Manfred Lindner, Toshihiko Ota, Joe Sato, arXiv:0710.1867, 2007. SUSY07.
Exotic physics with ultrahigh energy cosmic rays, M. Ahlers, J.I. Illana, M. Masip, D. Meloni, Acta Phys. Polon. B38 (2007) 3357-3364, arXiv:0710.0584. XXXI International Conference of Theoretical Physics 'Matter To The Deepest: Recent Developments In Physics of Fundamental Interactions', Ustron, 5-11 September 2007, Poland.
Minimal Flavor Violation, Benjamin Grinstein, arXiv:0706.4185, 2007. 4th International Workshop on the CKM Unitarity Triangle, December 12-16, 2006, Nagoya, Japan.
Constraints on flavor-dependent long range forces from neutrino experiments, Abhijit Bandyopadhyay, Amol Dighe, Anjan S. Joshipura, arXiv:hep-ph/0611038, 2006. XXXIII International Conference on High Energy Physics (ICHEP 2006), Moscow, Russia, July 2006.
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.
Lepton Flavor Violating tau and muon decays, E. Arganda, M.J. Herrero, arXiv:hep-ph/0605136, 2006. 41th Rencontres de Moriond on Electroweak Interactions and Unified Theories, La Thuile, Aosta Valley,Italy, 11-18 Mar 2006.
Charged Lepton Radiative and B-meson Double Radiative Decays in Models with Universal Extra Dimensions, Ikaros I. Bigi et al., GESJ Phys. 2006N1 2006 (2006) 57-79, arXiv:hep-ph/0603160. Annual report of Tbilisi State University.
Effects of heavy Majorana neutrinos at lepton-proton colliders, A. Ali, A.V. Borisov, D.V. Zhuridov, arXiv:hep-ph/0512005, 2005. Particle Physics in Laboratory, Space and Universe, 11th. Lomonosov Conf. on Elementary Particle Physics (Moscow, 21-27 August 2003).
Lepton flavor violation in Higgs boson decays, Koji Tsumura, arXiv:hep-ph/0511253, 2005. 'Summer Institute 2005', August 11-18, 2005, Fuji-Yoshida, Japan.
X rays test the Pauli exclusion principle, A.Yu. Ignatiev, Radiat.Phys.Chem. 75 (2006) 2090, arXiv:hep-ph/0509258. 20th International Conference on X-ray and Inner-shell Processes (Melbourne, Australia, 4-8 July, 2005).
Search for lepton flavor violation via the intense high-energy muon beam, S. Kanemura, Y. Kuno, M. Kuze, T. Ota, Nucl. Phys. Proc. Suppl. 149 (2005) 363, arXiv:hep-ph/0411368. Sixth International Workshop on Neutrino Factories and Superbeams(NuFact04), Jul. 26-Aug. 1, 2004, Osaka Univerisity, Osaka, Japan.
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.
Is it still worth searching for lepton flavor violation in rare kaon decays?, L. G. Landsberg, Phys. Atom. Nucl. 68 (2005) 1190, arXiv:hep-ph/0410261. Chicago Flavor Seminar, February 27, 2004.
Phase contribution to LFV, S. Kanemura et al., arXiv:hep-ph/0409283, 2004. Neutrino 2004, Paris, 14-19 June 2004.
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.
Precision electroweak tests with $\bar\nu_e \, e$ scattering, Jonathan L. Rosner, Phys. Rev. D70 (2004) 037301, arXiv:hep-ph/0404264.
Different G_F and sin^2(theta_W) for different processes, Ernest Ma, arXiv:hep-ph/0306218, 2003. NUINT 02.
Neutrinos in Extra Dimensions and Supernovae, Marco Cirelli, arXiv:hep-ph/0305141, 2003. 38th Rencontres de Moriond - Electroweak Interactions and Unified Theories, March 15-22, 2003, Les Arcs, France.
Lepton flavor violating decays and quasi-degenerate neutrinos, Carlos E. Yaguna, arXiv:hep-ph/0305138, 2003. XXXVIIIth rencontres de moriond on electroweak interactions and unified theories, Les Arcs France, March 15th-22nd 2003.
Probing Extra Dimensions with Neutrino Oscillations, C.S. Lam, arXiv:hep-ph/0302227, 2003. `Garden of Quanta'.
Testing Neutrino Parameters at Future Accelerators, Jorge C. Romao, arXiv:hep-ph/0211276, 2002. 4th International Workshop on New Worlds in Astroparticle Physics, Faro, Portugal, 5-7 September 2002.
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.
LFV Constraints on the Majorana Mass Scale in mSUGRA, F. Deppisch et al., arXiv:hep-ph/0210407, 2002. SUSY02, DESY, Hamburg.
Cosmic Rays and New Physics at the TeV: the Neutrino-Nucleon Cross Section, M. Masip, arXiv:hep-ph/0210143, 2002. Quarks-2002, Valday-Novgorod the Great, Russia, June 1-7, 2002.
Standard and Non-Standard Physics in Neutrino Oscillations, M. Maltoni, Nucl. Phys. Proc. Suppl. 114 (2003) 191-196, arXiv:hep-ph/0210111. XXX International Meeting on Fundamental Physics (Jaca, Spain, 28/01-1/02/2002).
Study of CMS sensitivity to neutrinoless $\tau$ decay at LHC, R.Santinelli, eConf C0209101 (2002) WE14, arXiv:hep-ex/0210033. ISeventh international Workshop on tau lepton physics (TAU02), Santa Cruz, Ca, Usa, September 2002.
Probing physics beyond the standard model from lepton sector, J. Hisano, Nucl. Phys. Proc. Suppl. 111 (2002) 178-187, arXiv:hep-ph/0204100. Fifth KEK Topical Conference (KEKTC5), KEK, Tsukuba, Japan, November 2001.
LSND and exotic muon decay, S. Pakvasa, 2002. 2nd International Workshop on Nuclear and Particle Physics at 50-GeV PS, Kyoto University, Kyoto, Japan, September 27-29, 2002.
Oscillation enhanced search for new interaction with neutrinos, J. Sato, 2002. Fourth NuFact '02 Workshop on Neutrino Factories based on Muon Storage Rings, Imperial College, London, 1-6 July 2002.
Effects of new physics in Oscillations in matter, M. Campanelli, 2002. Fourth NuFact '02 Workshop on Neutrino Factories based on Muon Storage Rings, Imperial College, London, 1-6 July 2002.

22 - Phenomenology - Models

Light Dark Sectors through the Fermion Portal, Luc Darme, Sebastian A. R. Ellis, Tevong You, JHEP 2007 (2020) 053, arXiv:2001.01490.
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.
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.
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.
Low-energy Effects of Lepton Flavour Universality Violation, Claudia Cornella, Ferruccio Feruglio, Paride Paradisi, JHEP 1811 (2018) 012, arXiv:1803.00945.
Particle Physics Models for the 17 MeV Anomaly in Beryllium Nuclear Decays, Jonathan L. Feng et al., Phys.Rev. D95 (2017) 035017, arXiv:1608.03591.
A $L_\mu- L_\tau$ theory of Higgs flavor violation and $(g-2)_\mu$, Wolfgang Altmannshofer, Marcela Carena, Andreas Crivellin, Phys. Rev. D94 (2016) 095026, arXiv:1604.08221.
Lepton Flavour Violation in Composite Higgs Models, Ferruccio Feruglio, Paride Paradisi, Andrea Pattori, Eur. Phys. J. C75 (2015) 579, arXiv:1509.03241.
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.
$\mu\to e \gamma$ Decay in an MSSM Extension, Tarek Ibrahim, Ahmad Itani, Pran Nath, Phys. Rev. D92 (2015) 015003, arXiv:1503.01078.
Phenomenology of SUSY with General Flavour Violation, Kamila Kowalska, JHEP 1409 (2014) 139, arXiv:1406.0710.
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.
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.
Improved predictions for $\mu\to e$ conversion in nuclei and Higgs-induced lepton flavor violation, Andreas Crivellin, Martin Hoferichter, Massimiliano Procura, Phys. Rev. D89 (2014) 093024, arXiv:1404.7134.
Analysis of $\mu-\tau$ conversion through $\mu N \to \tau X$ deep inelastic scattering induced by unparticles, A. Bolanos, A. Fernandez, A. Moyotl, G. Tavares-Velasco, Phys. Rev. D87 (2013) 016004, arXiv:1212.0904.
A Comprehensive Analysis on Lepton Flavor Violating Higgs to mu + tau Decay in Supersymmetry without R Parity, Abdessalem Arhrib, Yifan Cheng, Otto C. W. Kong, Phys. Rev. D87 (2013) 015025, arXiv:1210.8241.
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.
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.
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.
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.
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.
Lepton flavor violation in the Simplest Little Higgs model, F. del Aguila, J.I. Illana, M.D. Jenkins, JHEP 03 (2011) 080, arXiv:1101.2936.
Low-energy Phenomenology Of Scalarless Standard-Model Extensions With High-Energy Lorentz Violation, Damiano Anselmi, Emilio Ciuffoli, Phys. Rev. D83 (2011) 056005, arXiv:1101.2014.
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.
Minimal Flavour Violation for Leptoquarks, Sacha Davidson, Sebastien Descotes-Genon, JHEP 11 (2010) 073, arXiv:1009.1998.
Lepton flavour violation in a nonuniversal gauge interaction model, Kang Young Lee, Phys. Rev. D82 (2010) 097701, arXiv:1009.0104.
Muon to electron conversion in the Littlest Higgs model with T-parity, F. del Aguila, J.I. Illana, M.D. Jenkins, JHEP 09 (2010) 040, arXiv:1006.5914.
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.
Suppression of Lepton Flavour Violation from Quantum Corrections above $M_{GUT}$, M.E. Gomez, S. Lola, P. Naranjo, J. Rodriguez-Quintero, JHEP 06 (2010) 053, arXiv:1003.4937.
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.
Quantum Decoherence of Photons in the Presence of Hidden U(1)s, M. Ahlers, L. A. Anchordoqui, M. C. Gonzalez-Garcia, Phys. Rev. D81 (2010) 085025, arXiv:0910.5483.
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.
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.
Lepton flavor violation in supersymmetric B-L extension of the standard model, Shaaban Khalil, Phys. Rev. D81 (2010) 035002, arXiv:0907.1560.
Supersymmetric and Kaluza-Klein Particles Multiple Scattering in the Earth, Ivone F.M. Albuquerque, Spencer R.Klein, Phys. Rev. D80 (2009) 015015, arXiv:0905.3180.
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.
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.
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.
Muonium-Antimuonium Oscillations in an extended Minimal Supersymmetric Standard Model with right-handed neutrinos, Boyang Liu, Phys. Rev. D79 (2009) 015001, arXiv:0811.0855.
A Window on the CP-violating Phases of MSSM from Lepton Flavor Violating Processes, Seyed Yaser Ayazi, Yasaman Farzan, JHEP 01 (2009) 022, arXiv:0810.4233.
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.
Constants of extended Standard Model and search for their temporal variations, S. A. Kononogov, V. N. Melnikov, V. V. Khruschov, Grav. Cosmol. 15 (2009) 158-163, arXiv:0807.2211.
Non-Standard Neutrino Interactions with Matter from Physics Beyond the Standard Model, Stefan Antusch, Jochen P. Baumann, Enrique Fernandez-Martinez, Nucl. Phys. B810 (2009) 369-388, arXiv:0807.1003.
Type-III see-saw at LHC, Roberto Franceschini, Thomas Hambye, Alessandro Strumia, Phys. Rev. D78 (2008) 033002, arXiv:0805.1613.
Lepton-flavour violation in the light of leptogenesis and muon g-2, Motoi Endo, Tetsuo Shindou, arXiv:0805.0996, 2008.
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.
Direct Detection of Kaluza-Klein Particles in Neutrino Telescopes, Ivone F. M. Albuquerque, Gustavo Burdman, Christopher A. Krenke, Baran Nosratpour, Phys. Rev. D78 (2008) 015010, arXiv:0803.3479.
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.
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.
Lepton Flavor Violation in Predictive SUSY-GUT Models, Carl H. Albright, Mu-Chun Chen, Phys. Rev. D77 (2008) 113010, arXiv:0802.4228.
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.
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.
On search for hidden sector photons in Super-Kamiokande, S.N. Gninenko, arXiv:0802.1315, 2008.
Models and Phenomenology of Maximal Flavor Violation, Shaouly Bar-Shalom, Arvind Rajaraman, Phys. Rev. D77 (2008) 095011, arXiv:0711.3193.
Patterns of flavor signals in supersymmetric models, Toru Goto, Yasuhiro Okada, Tetsuo Shindou, Minoru Tanaka, Phys. Rev. D77 (2008) 095010, arXiv:0711.2935.
Unparticle physics and lepton flavor violating radion decays in the Randall-Sundrum scenario, E. O. Iltan, Eur. Phys. J. C56 (2008) 105-112, arXiv:0711.2744.
Constraints on Unparticles from Low Energy Neutrino-Electron Scattering, A.B. Balantekin, K.O. Ozansoy, Phys. Rev. D76 (2007) 095014, arXiv:0710.0028.
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.
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.
Flavor Changing Neutral Currents in the Lee-Wick Standard Model, Timothy R. Dulaney, Mark B. Wise, Phys. Lett. B658 (2008) 230-235, arXiv:0708.0567.
Low energy effects of neutrino masses, A. Abada, C.Biggio, F. Bonnet, M.B. Gavela, T. Hambye, JHEP 12 (2007) 061, arXiv:0707.4058.
Lepton Flavour Violation in Unparticle Physics, T. M. Aliev, A. S. Cornell, Naveen Gaur, Phys. Lett. B657 (2007) 77-80, arXiv:0705.1326.
Predictions for 'mu - > e gamma' in SUSY from non trivial Quark-Lepton complementarity, Marco Picariello, Adv. High Energy Phys. 2007 (2007) 39676, arXiv:hep-ph/0703301.
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.
Electron Electric Dipole Moment from Lepton Flavor Violation, Seyed Yaser Ayazi, Yasaman Farzan, JHEP 06 (2007) 013, arXiv:hep-ph/0702149.
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.
l - > l' gamma in the Lepton Number Violating MSSM, Steven Rimmer, arXiv:hep-ph/0610406, 2006.
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.
Running U_{e3} and BR(\mu\to e +\gamma) in SUSY-GUTs, L. Calibbi, A. Faccia, A. Masiero, S. K. Vempati, JHEP 07 (2007) 012, arXiv:hep-ph/0610241.
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.
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.
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.
Lepton flavor violation in $\tau$ decays, Chuan-Hung Chen, Chao-Qiang Geng, Phys. Rev. D74 (2006) 035010, arXiv:hep-ph/0605299.
Probing New Physics through mu-e Universality in K- > lnu, A. Masiero, P. Paradisi, R. Petronzio, Phys. Rev. D74 (2006) 011701, arXiv:hep-ph/0511289.
Testing Supersymmetry with Lepton Flavor Violating tau and mu decays, E. Arganda, M.J. Herrero, Phys. Rev. D73 (2006) 055003, arXiv:hep-ph/0510405.
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.
Neutrinos in a left-right model with a horizontal symmetry, Ken Kiers et al., Phys. Rev. D73 (2006) 033009, arXiv:hep-ph/0510274.
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.
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.
Lepton Flavor Violation in Extra Dimension Models, We-Fu Chang, John N. Ng, Phys. Rev. D71 (2005) 053003, arXiv:hep-ph/0501161.
Lepton flavor violation in the triplet Higgs model, Mitsuru Kakizaki, Yoshiteru Ogura, Fumitaka Shima, Phys. Lett. B566 (2003) 210, arXiv:hep-ph/0304254.
Counting extra dimensions: Magnetic Cherenkov radiation from high-energy neutrinos, Gabor Domokos, Andrea Erdas, S. Kovesi-Domokos, Astropart.Phys. 20 (2003) 215-219, arXiv:hep-ph/0212394.
Anomaly in Neutrino-Nucleon Scattering and Vectorlike Families, Jogesh C. Pati K.S. Babu, arXiv:hep-ph/0203029, 2002.
Oscillating neutrinos and $\mu \to e \gamma$, J. A. Casas, A. Ibarra, Nucl. Phys. B618 (2001) 171-204, arXiv:hep-ph/0103065.
Lepton number violation and massless nonorthogonal neutrinos, Paul Langacker, David London, Phys. Rev. D38 (1988) 907.
Mixing between ordinary and exotic fermions, Paul Langacker, David London, Phys. Rev. D38 (1988) 886.
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.

23 - Phenomenology - Models - Conference Proceedings

Exotic Leptonic solutions to observed anomalies in lepton universality observables and more, Lobsang Dhargyal, arXiv:1901.01170, 2019. 23rd DAE-BRNS High Energy Physics Symposium 2018, IIT Chennai, 10-14 Dec. 2018.
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.
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.
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.
Flavour physics, supersymmetry and grand unification, Ulrich Nierste, arXiv:1107.0621, 2011. Moriond 2011 conference on EW Interactions and Unified Theories.
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.
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.
Lepton Flavor Violation in the LHT - A Clear Distinction from Supersymmetry, Bjoern Duling, arXiv:0709.4413, 2007. SUSY07.
Lepton Flavour Violating Decays in the Littlest Higgs Model with T-Parity, Cecilia Tarantino, J. Phys. Conf. Ser. 110 (2008) 072043, arXiv:0709.3944. EPS Conference on High Energy Physics 2007, Manchester.
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.
Properties and signatures of supersymmetric Q-balls, Alexander Kusenko, arXiv:hep-ph/0612159, 2006. Exotic Physics with Neutrino Telescopes, Uppsala, Sweden, September 20-22, 2006.
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.
Phenomenology of Universal Extra Dimensions, Kyoungchul Kong, Konstantin T. Matchev, AIP Conf. Proc. 903 (2007) 451-454, arXiv:hep-ph/0610057. SUSY06, the 14th International Conference on Supersymmetry and the Unification of Fundamental Interactions, UC Irvine, California, 12-17 June 2006.
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.

24 - Phenomenology - Millicharged Particles

Physics results from the first COHERENT observation of CE$\nu$NS in argon and their combination with cesium-iodide data, M. Cadeddu, F. Dordei, C. Giunti, Y.F. Li, E. Picciau, Y.Y. Zhang, Phys.Rev. D102 (2020) 015030, arXiv:2005.01645.
Millicharged particles at electron colliders, Jinhan Liang, Zuowei Liu, Yue Ma, Yu Zhang, Phys.Rev. D102 (2020) 015002, arXiv:1909.06847.
Neutrino, Electroweak and Nuclear Physics from COHERENT Elastic Neutrino-Nucleus Scattering with Refined Quenching Factor, M. Cadeddu, F. Dordei, C. Giunti, Y.F. Li, Y.Y. Zhang, Phys.Rev. D101 (2020) 033004, arXiv:1908.06045.
New constraints on neutrino electric millicharge from elastic neutrino-electron scattering and coherent elastic neutrino-nucleus scattering, A. Parada, Adv.High Energy Phys. 2020 (2020) 5908904, arXiv:1907.04942.
Millicharged Particles in Liquid Argon Neutrino Experiments, Roni Harnik, Zhen Liu, Ornella Palamara, JHEP 1907 (2019) 170, arXiv:1902.03246.
Millicharged particles in neutrino experiments, Gabriel Magill, Ryan Plestid, Maxim Pospelov, Yu-Dai Tsai, Phys.Rev.Lett. 122 (2019) 071801, arXiv:1806.03310.
Constraints on millicharged neutrinos via analysis of data from atomic ionizations with germanium detectors at sub-keV sensitivities, Jiunn-Wei Chen, Hsin-Chang Chi, Hau-Bin Li, C. -P. Liu, Lakhwinder Singh, Henry T. Wong, Chih-Liang Wu, Chih-Pan Wu (TEXONO), Phys. Rev. D90 (2014) 011301, arXiv:1405.7168.
Can a millicharged dark matter particle emit an observable gamma-ray line?, Chaimae El Aisati, Thomas Hambye, Tiziana Scarna, JHEP 1408 (2014) 133, arXiv:1403.1280.
New bounds on neutrino electric millicharge from limits on neutrino magnetic moment, Alexander Studenikin, Europhys.Lett. 107 (2014) 21001, arXiv:1302.1168.
Search for millicharged particles in reactor neutrino experiments: A Probe of the PVLAS anomaly, S.N. Gninenko, N.V. Krasnikov, A. Rubbia, Phys. Rev. D75 (2007) 075014, arXiv:hep-ph/0612203.
Updated bounds on millicharged particles, Sacha Davidson, Steen Hannestad, Georg Raffelt, JHEP 0005 (2000) 003, arXiv:hep-ph/0001179.
Millicharged particles, M. I. Dobroliubov, A.Yu. Ignatiev, Phys. Rev. Lett. 65 (1990) 679-682.

25 - Phenomenology - Neutrino Oscillations

Phenomenological constraints on low-scale gravity, Veniamin Berezinsky, Mohan Narayan, Phys. Rev. D75 (2007) 105001, arXiv:0705.0945.
Non-standard Hamiltonian effects on neutrino oscillations, Mattias Blennow, Tommy Ohlsson, Walter Winter, Eur. Phys. J. C49 (2007) 1023-1039, arXiv:hep-ph/0508175.

26 - Phenomenology - $^8\text{Be}$ Anomaly

Can a protophobic vector boson explain the ATOMKI anomaly?, Xilin Zhang, Gerald A. Miller, Phys.Lett. B813 (2021) 136061, arXiv:2008.11288.
Dynamical Evidence For a Fifth Force Explanation of the ATOMKI Nuclear Anomalies, Jonathan L. Feng, Tim M. P. Tait, Christopher B. Verhaaren, arXiv:2006.01151, 2020.
Explanation of the 511 keV line: Cascade annihilating dark matter with the $^8$Be anomaly, Lian-Bao Jia, Eur.Phys.J. C78 (2018) 112, arXiv:1710.03906.
Light Axial Vectors, Nuclear Transitions, and the $^8$Be Anomaly, Jonathan Kozaczuk, David E. Morrissey, S. R. Stroberg, Phys.Rev. D95 (2017) 115024, arXiv:1612.01525.
Particle Physics Models for the 17 MeV Anomaly in Beryllium Nuclear Decays, Jonathan L. Feng, Bartosz Fornal, Iftah Galon, Susan Gardner, Jordan Smolinsky, Tim M. P. Tait, Philip Tanedo, Phys.Rev. D95 (2017) 035017, arXiv:1608.03591.
Protophobic Fifth-Force Interpretation of the Observed Anomaly in $^8$Be Nuclear Transitions, Jonathan L. Feng, Bartosz Fornal, Iftah Galon, Susan Gardner, Jordan Smolinsky, Tim M. P. Tait, Philip Tanedo, Phys. Rev. Lett. 117 (2016) 071803, arXiv:1604.07411.

27 - Phenomenology - $^8\text{Be}$ Anomaly - Conference Proceedings

${}^8$Be Decay Anomaly and Light $Z'$, Luigi Delle Rose, Shaaban Khalil, Simon J.D. King, Stefano Moretti, Ahmed M. Thabt, arXiv:1905.05031, 2019. 2019 EW session of the 54th Rencontres de Moriond.

28 - Phenomenology - NuTeV Anomaly

Reassessment of the NuTeV determination of the Weinberg angle, W. Bentz, I. C. Cloet, J. T. Londergan, A. W. Thomas, Phys. Lett. B693 (2010) 462-466, arXiv:0908.3198.
Z' Bosons, the NuTeV Anomaly, and the Higgs Boson Mass, Michael Chanowitz, Phys. Atom. Nucl. 73 (2010) 680-688, arXiv:0903.2497.
Isovector EMC effect explains the NuTeV anomaly, I. C. Cloet, W. Bentz, A. W. Thomas, Phys. Rev. Lett. 102 (2009) 252301, arXiv:0901.3559.
The s-s(bar) asymmetry in nucleon and "NuTeV anomaly", F.X. Wei, B.S. Zou, Phys. Lett. B660 (2008) 501-504, arXiv:0710.5032.
Unparticle Versus NuTeV Anomaly, Gui-Jun Ding, Mu-Lin Yan, Phys. Rev. D78 (2008) 075015, arXiv:0706.0325.
NuTeV $\sin ^2 \theta_{\rm W}$ anomaly and nuclear parton distributions revisited, K. J. Eskola, H. Paukkunen, JHEP 06 (2006) 008, arXiv:hep-ph/0603155.
Effect due to charge symmetry violation on the Paschos-Wolfenstein relation, Yong Ding, Bo-Qiang Ma, Phys. Rev. D73 (2006) 054018, arXiv:hep-ph/0602241.
Magnetic Monopoles, Chiral Symmetries, and the NuTeV Anomaly, Jay R. Yablon, arXiv:hep-ph/0509223, 2005.
Quark Asymmetries in Nucleons, Johan Alwall, Aip Conf. Proc. 792 (2005) 336, arXiv:hep-ph/0506199.
Radiatively Generated Isospin Violations in the Nucleon and the NuTeV Anomaly, M. Gluck, P. Jimenez-Delgado, E. Reya, Phys. Rev. Lett. 95 (2005) 022002, arXiv:hep-ph/0503103.
Can a 3+2 Oscillation Model Explain the NuTeV Electroweak Results?, J. S. Ma, J. M. Conrad, M. Sorel, G. P. Zeller, Phys. Rev. D73 (2006) 057302, arXiv:hep-ex/0501011.
Nuclear modification difference between u_v and d_v distributions and its relation to NuTeV $\sin^2 \theta_W$ anomaly, M. Hirai, S. Kumano, T.-H. Nagai, Phys. Rev. D71 (2005) 113007, arXiv:hep-ph/0412284.
On the NuTeV anomaly and the asymmetry of the strange sea in the nucleon, M. Wakamatsu, Phys. Rev. D71 (2005) 057504, arXiv:hep-ph/0411203.
Implications of a new light gauge boson for neutrino physics, Celine Boehm, Phys. Rev. D70 (2004) 055007, arXiv:hep-ph/0405240.
The NuTeV Anomaly, Lepton Universality, and Non-Universal Neutrino-Gauge Couplings, Will Loinaz et al., Phys. Rev. D70 (2004) 113004, arXiv:hep-ph/0403306.
Electroweak radiative corrections to deep-inelastic neutrino scattering - implications for NuTeV ?, K.-P. O. Diener, S. Dittmaier, W. Hollik, Phys. Rev. D69 (2004) 073005, arXiv:hep-ph/0310364.
Analytic Estimates of the QCD Corrections to Neutrino-Nucleus Scattering, Bogdan A. Dobrescu, R. Keith Ellis, Phys. Rev. D69 (2004) 114014, arXiv:hep-ph/0310154.
Charge symmetry violation corrections to determination of the Weinberg angle in neutrino reactions, J. T. Londergan, A. W. Thomas, Phys. Rev. D67 (2003) 111901, arXiv:hep-ph/0303155.
Neutrinos with Seesaw Masses and Suppressed Interactions, Sheldon Lee Glashow, arXiv:hep-ph/0301250, 2003.
Charge Symmetry Violating Contributions to Neutrino Reactions, J.T. Londergan, A.W. Thomas, Phys. Lett. B558 (2003) 132, arXiv:hep-ph/0301147.
Paschos-Wolfenstein Relationship for Nuclei and the NuTeV sin^2(theta_W) Measurement, S.A. Kulagin, Phys. Rev. D67 (2003) 091301, arXiv:hep-ph/0301045.
The NuTeV Anomaly, Neutrino Mixing, and a Heavy Higgs, Will Loinaz, Naotoshi Okamura, Tatsu Takeuchi, L. C. R. Wijewardhana, Phys. Rev. D67 (2003) 073012, arXiv:hep-ph/0210193.
Interpretations of the NuTeV $\sin^2 \theta_W$, Sacha Davidson, J. Phys. G29 (2003) 2001, arXiv:hep-ph/0209316.
Modified Paschos-Wolfenstein relation and extraction of weak mixing angle sin^2 theta_W, Shunzo Kumano, Phys. Rev. D66 (2002) 111301, arXiv:hep-ph/0209200.
The NuTeV Anomaly, Neutrino Mixing, and a Heavy Higgs, Tatsu Takeuchi, arXiv:hep-ph/0209109, 2002.
Nuclear Effects on the Extraction of $\sin^2\theta_W$, Sergey Kovalenko, Ivan Schmidt, Jian-Jun Yang, Phys. Lett. B546 (2002) 68-77, arXiv:hep-ph/0207158.
Electroweak data and the Higgs boson mass: A case for new physics, Michael S. Chanowitz, Phys. Rev. D66 (2002) 073002, arXiv:hep-ph/0207123.
Reply to the Comment on 'A Precise Determination of Electroweak Parameters in Neutrino-Nucleon Scattering', G. P. Zeller et al. (NuTeV), arXiv:hep-ex/0207052, 2002.
Precision electroweak tests of the standard model, P B Renton, Rept. Prog. Phys. 65 (2002) 1271-1330, arXiv:hep-ph/0206231.
From the article: The main discrepancy from the NuTeV data with respect to the SM is in the value of $g^2_L$, which is about 1% below the SM prediction (2.5 $\sigma$ effect). The NuTeV analysis assumes that $s = \bar{s}$, for the strange sea. It has been suggested that if this equality is violated, such as $s - \bar{s} \approx 0.002$, as obtained from neutrino dimuon data, then a good fraction of the anomaly can be explained. However, NuTeV dimuon data give $s - \bar{s} \approx - 0.0027 \pm 0.0013$. That is, the measured NuTeV asymmetry has the opposite sign, and using this value would increase the significance of the anomaly.
Comment on 'A Precise Determination of Electroweak Parameters in Neutrino-Nucleon Scattering', A. W. Thomas G. A. Miller, Int. J. Mod. Phys. A20 (2005) 95, arXiv:hep-ex/0204007.
From the abstract: We study a nuclear correction to the recent determination of the weak mixing angle, which arises from the higher-twist effects of nuclear shadowing, for which no allowance has been made in the NuTeV analysis. This correction may well be of the same size as the reported deviation.
$\nu_e \to \nu_s$ oscillations with large neutrino mass in NuTeV?, Carlo Giunti, Marco Laveder, arXiv:hep-ph/0202152, 2002.
From the abstract: We propose an explanation of NuTeV anomaly in terms of oscillations of electron neutrinos into sterile neutrinos with average probability $P_{\nu_e \rightarrow \nu_s} = 0.21 \pm 0.07$.
Old and new physics interpretations of the NuTeV anomaly, S. Davidson, S. Forte, P. Gambino, N. Rius, A. Strumia, JHEP 02 (2002) 037, arXiv:hep-ph/0112302.
From the article: NuTeV not only predicts the $\nu_e$ and $\bar\nu_e$ fluxes through a Monte Carlo simulation but also measures them directly (see pag. 26 of transparencies in Ref.[McFarland:FNAL-26Oct2001]. The agreement between the two determinations is at the few % level, contradicts the oscillation interpretation.
Comment: Ref.[McFarland:LaThuile2002] contains informations on the Energy Range of NuTeV precise direct measurement of the electron neutrino flux: $ 80 < E_\nu < 180 \, \mathrm{GeV}$. Below the NC peak, for energies $E_\nu < 80 \, \mathrm{GeV}$ the same measurement is about one order of magnitude less precise and, therefore, does not contradict the oscillation interpretation with appropriate values of the oscillation parameters. (M.L.).

29 - Phenomenology - NuTeV Anomaly - Conference Proceedings

Electroweak radiative corrections to neutrino-nucleon scattering at NuTeV, Kwangwoo Park, Ulrich Baur, Doreen Wackeroth, arXiv:0910.5013, 2009. DPF-2009, Detroit, MI, July 2009, eConf C090726.
Applicability of the formulae of Bardin and Dokuchaeva for the radiative corrections analysis in the NuTeV experiment, Arif Akhundov, PoS NUFACT08 (2008) 115, arXiv:0807.2673. NuFact08, 10th International Workshop on Neutrino Factories, Superbeams and Betabeams, Valencia, Spain, 30 June - 5 July 2008.
High energy neutrino in a nuclear environment: mirror asymmetry of the shadowing effect, V.R. Zoller, J. Phys. G32 (2006) 2305-2312, arXiv:hep-ph/0607078. XXXIII International Conference on High Energy Physics 26.07.06-02.08.06 Moscow.
NuTeV Anomaly Versus Strange-Antistrange Asymmetry, Bo-Qiang Ma, Int. J. Mod. Phys. A21 (2006) 930, arXiv:hep-ph/0510127. International Conference on QCD and Hadronic Physics, Beijing, China, June 16-20, 2005.
Shadowing and Antishadowing in Neutrino Deep Inelastic Scattering, Ivan Schmidt, Int. J. Mod. Phys. A21 (2006) 942, arXiv:hep-ph/0507095. International Conference on QCD and Hadronic Physics, Beijing, China, June 16-20 2005.
NuTeV Anomaly and Strange-Antistrange Asymmetry, Bo-Qiang Ma, arXiv:hep-ph/0412324, 2004. ICHEP04, August 16-22, 2004, Beijing, China.
Nuclear modification of valence-quark distributions and its effects on NuTeV $\sin^2 \theta_W$ anomaly, M. Hirai, S. Kumano, T.-H. Nagai, Nucl. Phys. Proc. Suppl. 149 (2005) 224, arXiv:hep-ph/0412307. Sixth International Workshop on Neutrino Factories and Superbeams (NuFact04).
Phenomenology of Not-so-heavy Neutral Leptons: The NuTeV Anomaly, Lepton Universality, and Non-Universal Neutrino-Gauge Couplings, Tatsu Takeuchi, Will Loinaz, arXiv:hep-ph/0410201, 2004. YITP workshop 'Progress in Particle Physics' 2004.
On the Paschos-Wolfenstein Relationship for Nuclei, S.A. Kulagin, arXiv:hep-ph/0406220, 2004. XXXIX Recontres de Moriond 'Electroweak Interactions and Unified Theories', La Thuile, March 21-28, 2004.
QCD Aspects of the NuTeV Anomaly, Stefan Kretzer, arXiv:hep-ph/0405221, 2004. XXXIXth Rencontres de Moriond.
Implication of the NuTeV result on intrinsic properties of neutrinos, Michael H. Shaevitz, 2004. Nobel Symposium on Neutrino Physics, August 19-24, 2004, Haga Slott, Enkping, Sweden.
Conventional Physics Explanations for the NuTeV $sin^2\theta_W$, Kevin S. McFarland, Sven-Olaf Moch, arXiv:hep-ph/0306052, 2003. Electroweak Precision Data and the Higgs Mass, DESY-Zeuthen 28 February 2003.
From the article: The dominant source of electron neutrinos in the NuTeV beams are $K^\pm_{e3}$ decays. An interesting recent development comes from the BNL-E865 experiment which has recently measured a branching ratio for $K^\pm_{e3}$that is $6\%$ larger than the value used by NuTeV. If this result is correct, it is interesting to note that it would not disrupt the agreement between the direct and Monte Carlo measurements of the $\nu_e$ rate at NuTeV and that it would in fact {\em increase} the discrepancy of the NuTeV $\sin2\theta_W$ with the prediction by slightly less than one standard deviation.
Neutrino anomalies, Alessandro Strumia, arXiv:hep-ex/0304039, 2003. 'Neutrino Telescopes', Venezia, march 2003.
NuTeV Status, K. S. McFarland (NuTeV), 2003. 19th International Workshop on Weak Interactions and Neutrinos, WIN2003, October 6-11, Lake Geneva, Wisconsin, USA.
Precision electroweak measurements circa 2002, Paolo Gambino, Nucl.Phys.Proc.Suppl. 117 (2003) 211-215, arXiv:hep-ph/0211009. 31st International Conference on High Energy Physics (ICHEP 2002), Amsterdam, The Netherlands, 24-31 Jul 2002.
Standard Model Explanations for the NuTeV Electroweak Measurements, R.H. Bernstein (NuTeV), J. Phys. G29 (2003) 1919, arXiv:hep-ex/0210061. NuFact '02.
Old and new physics interpretations of the NuTev anomaly, S. Davidson, 2002. Fourth NuFact '02 Workshop on Neutrino Factories based on Muon Storage Rings, Imperial College, London, 1-6 July 2002.
Conventional explanations for the NuTeV anomaly, K. S. McFarland (NuTeV), 2002. Second International Workshop on Neutrino-Nucleus Interactions in the few-GeV Region, NUINT'02, December 12-15, 2002 University of California, Irvine.

30 - Phenomenology - Mirror World

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.
Neutron oscillations for solving neutron lifetime and dark matter puzzles, Wanpeng Tan, Phys.Lett. B797 (2019) 134921, arXiv:1902.01837.
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.
The EDGES signal: An imprint from the mirror world?, D. Aristizabal Sierra, Chee Sheng Fong, Phys.Lett. B784 (2018) 130-136, arXiv:1805.02685.
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.
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.
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.
Phenomenology of Standard Model in spontaneously broken mirror symmetry, Igor T. Dyatlov, Phys.Atom.Nucl. 80 (2017) 275-284, arXiv:1611.05635.
Mirror dark matter will be confirmed or excluded by XENON1T, J. D. Clarke, R. Foot, Phys.Lett. B766 (2017) 29-34, arXiv:1606.09063.
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.
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.
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.
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.
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.
A Parallel World in the Dark, Tetsutaro Higaki, Kwang Sik Jeong, Fuminobu Takahashi, JCAP 1308 (2013) 031, arXiv:1302.2516.
Hidden sector dark matter explains the DAMA, CoGeNT and CRESST-II experiments, R. Foot, Phys. Rev. D88 (2013) 025032, arXiv:1209.5602.
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.
Positronium oscillations to Mirror World revisited, S.V.Demidov, D.S.Gorbunov, A.A.Tokareva, Phys. Rev. D85 (2012) 015022, arXiv:1111.1072.
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.
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.
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.
Mirror and hidden sector dark matter in the light of new CoGeNT data, R. Foot, Phys. Lett. B703 (2011) 7-13, arXiv:1106.2688.
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.
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.
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.
Do magnetic fields prevent mirror particles from entering the galactic disk?, R. Foot, Phys. Lett. B699 (2011) 230-232, arXiv:1011.5078.
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.
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.
A CoGeNT confirmation of the DAMA signal, R. Foot, Phys. Lett. B692 (2010) 65-69, arXiv:1004.1424.
Relevance of the CDMSII events for mirror dark matter, R. Foot, Phys. Rev. D81 (2010) 087302, arXiv:1001.0096.
Cosmological bounds on the 'millicharges' of mirror particles, Zurab Berezhiani, Angela Lepidi, Phys. Lett. B681 (2009) 276-281, arXiv:0810.1317.
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.
Thermodynamics of the early Universe with mirror dark matter, Paolo Ciarcelluti, Angela Lepidi, Phys. Rev. D78 (2008) 123003, arXiv:0809.0677.
More about neutron - mirror neutron oscillation, Zurab Berezhiani, Eur. Phys. J. C64 (2009) 421-431, arXiv:0804.2088.
Neutron-Mirror-Neutron Oscillations in a Trap, B. Kerbikov, O. Lychkovskiy, Phys. Rev. C77 (2008) 065504, arXiv:0804.0559.
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.
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.
Mirror dark matter, R. Foot, Int. J. Mod. Phys. A22 (2007) 4951-4957, arXiv:0706.2694.
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.
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.
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.
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.
Natural electroweak symmetry breaking in generalised mirror matter models, R. Foot, R. R. Volkas, Phys. Lett. B645 (2007) 75-81, arXiv:hep-ph/0610013.
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.
Mirror World at the Large Hadron Collider, Riccardo Barbieri, Thomas Gregoire, Lawrence J. Hall, arXiv:hep-ph/0509242, 2005.
Through the Looking-Glass: Alice's Adventures in Mirror World, Zurab Berezhiani, arXiv:hep-ph/0508233, 2005.
Some Implications of Neutron Mirror Neutron Oscillation, R.N. Mohapatra, S. Nasri, S. Nussinov, Phys. Lett. B627 (2005) 124, arXiv:hep-ph/0508109.
Generalized mirror matter models, R. Foot, Phys. Lett. B632 (2006) 467, arXiv:hep-ph/0507294.
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.
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.
Cosmology with mirror dark matter I: linear evolution of perturbations, P. Ciarcelluti, Int. J. Mod. Phys. D14 (2005) 187, arXiv:astro-ph/0409630.
Spheroidal galactic halos and mirror dark matter, R. Foot, R. R. Volkas, Phys. Rev. D70 (2004) 123508, arXiv:astro-ph/0407522.
Avoiding BBN Constraints on Mirror Models for Sterile Neutrinos, R. N. Mohapatra, S. Nasri, Phys. Rev. D71 (2005) 053001, arXiv:hep-ph/0407194.
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.
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.
Exploring the mirror matter interpretation of the DAMA experiment: Has the dark matter problem been solved?, R. Foot, arXiv:astro-ph/0403043, 2004.
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.
Cosmology of the Mirror Universe, Paolo Ciarcelluti, arXiv:astro-ph/0312607, 2003.
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.
Have mirror micrometeorites been detected?, R. Foot, S. Mitra, Phys. Rev. D68 (2003) 071901, arXiv:hep-ph/0306228.
Do mirror planets exist in our solar system?, R. Foot, Z. K. Silagadze, Acta Phys. Polon. B32 (2001) 2271-2278, arXiv:astro-ph/0104251.
Mirror world versus large extra dimensions, Z. K. Silagadze, Mod. Phys. Lett. A14 (1999) 2321-2328, arXiv:hep-ph/9908208.
Neutrino mass and mirror universe, Z. K. Silagadze, Phys. Atom. Nucl. 60 (1997) 272-275, arXiv:hep-ph/9503481.

31 - Phenomenology - Mirror World - Conference Proceedings

Phenomenology of Standard Model in spontaneously broken mirror symmetry, Igor T. Dyatlov, Phys.Atom.Nucl. 80 (2017) 275-284, arXiv:1611.05635.
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).
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.
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.
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.
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.
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.
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).
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).
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.
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.

32 - Phenomenology - Violation of Lorentz Invariance

Lorentz Invariance Violation effects on UHECR propagation: a geometrized approach, M.D.C. Torri, S. Bertini, M. Giammarchi, L. Miramonti, JHEAp 18 (2018) 5-14, arXiv:1906.06948.
Neutrino Splitting for Lorentz-Violating Neutrinos: Detailed Analysis, G. Somogyi, I. Nandori, U. D. Jentschura, Phys.Rev. D100 (2019) 035036, arXiv:1904.10505.
On the photon mass in Very Special Relativity, Jorge Alfaro, Alex Soto, Phys.Rev. D100 (2019) 055029, arXiv:1901.08011.
Very special relativity induced phase in neutrino oscillation, Alekha C. Nayak, arXiv:1901.07835, 2019.
Improved limits on Lorentz invariance violation from astrophysical gamma-ray sources, Rodrigo Guedes Lang, Humberto Martinez-Huerta, Vitor de Souza, Phys.Rev. D99 (2019) 043015, arXiv:1810.13215.
Testing Lorentz invariance and CPT symmetry using gamma-ray burst neutrinos, Xinyi Zhang, Bo-Qiang Ma, Phys.Rev. D99 (2019) 043013, arXiv:1810.03571.
Lorentz violation from gamma-ray burst neutrinos, Yanqi Huang, Bo-Qiang Ma, APS Physics 1 (2018) 62, arXiv:1810.01652.
Multimessenger Tests of Einstein's Weak Equivalence Principle and Lorentz Invariance with a High-energy Neutrino from a Flaring Blazar, Jun-Jie Wei, Bin-Bin Zhang, Lang Shao, He Gao, Ye Li, Qian-Qing Yin, Xue-Feng Wu, Xiang-Yu Wang, Bing Zhang, Zi-Gao Dai, JHEAp 22 (2019) 1-4, arXiv:1807.06504.
Constraints on neutrino speed, weak equivalence principle violation, Lorentz invariance violation, and dual lensing from the first high-energy astrophysical neutrino source TXS 0506+056, Ranjan Laha, Phys.Rev. D100 (2019) 103002, arXiv:1807.05621.
Limits on Neutrino Lorentz Violation from Multimessenger Observations of TXS 0506+056, John Ellis, Nikolaos E. Mavromatos, Alexander S. Sakharov, Edward K. Sarkisyan-Grinbaum, Phys.Lett. B789 (2019) 352-355, arXiv:1807.05155.
Shadowing Neutrino Mass Hierarchy with Lorentz Invariance Violation, H. Jurkovich, Pedro Pasquini, C. P. Ferreira, arXiv:1806.08752, 2018.
Exploring the intrinsic Lorentz-violating parameters at DUNE, Gabriela Barenboim, Mehedi Masud, Christoph A. Ternes, Mariam Tortola, Phys.Lett. B788 (2019) 308-315, arXiv:1805.11094.
Neutrino oscillations and Lorentz Invariance Violation in a Finslerian Geometrical model, V. Antonelli, L. Miramonti, M.D.C. Torri, Eur.Phys.J. C78 (2018) 667, arXiv:1803.08570.
Constraining the Flavor Structure of Lorentz Violation Hamiltonian with the Measurement of Astrophysical Neutrino Flavor Compositions, Kwang-Chang Lai, Wei-Hao Lai, Guey-Lin Lin, Phys.Rev. D96 (2017) 115026, arXiv:1704.04027.
Distinguishing between Dirac and Majorana neutrinos in the presence of general interactions, Werner Rodejohann, Xun-Jie Xu, Carlos E. Yaguna, JHEP 1705 (2017) 024, arXiv:1702.05721.
Lorentz invariance violation in the neutrino sector: a joint analysis from big bang nucleosynthesis and the cosmic microwave background, Wei-Ming Dai, Zong-Kuan Guo, Rong-Gen Cai, Yuan-Zhong Zhang, Eur.Phys.J. C77 (2017) 386, arXiv:1701.02553.
On the possibility of torsion detection from neutrino cosmology and PMF, Garcia de Andrade, arXiv:1611.07341, 2016.
Lorentz violation and deep inelastic scattering, Alan Kostelecky, E. Lunghi, A.R. Vieira, Phys.Lett. B769 (2017) 272-280, arXiv:1610.08755.
Effects of the Lorentz invariance violation in Coulomb interaction in nuclei and atoms, V.V. Flambaum, M.V. Romalis, Phys.Rev.Lett. 118 (2017) 142501, arXiv:1610.08188.
Discussion on Neutrino Oscillation and CPT/Lorentz Invariance Violation, Cui-Bai Luo, Song Shi, Yi-Lun Du, Yong-Long Wang, Hong-Shi Zong, Int.J.Mod.Phys. A32 (2017) 1750040, arXiv:1609.00797.
Searching for photon-sector Lorentz violation using gravitational-wave detectors, Alan Kostelecky, Adrian C. Melissinos, Matthew Mewes, Phys.Lett. B761 (2016) 1-7, arXiv:1608.02592.
Limits on the Neutrino Velocity, Lorentz Invariance, and the Equivalence Principle with TeV neutrinos from Gamma-Ray Bursts, Jun-Jie Wei, Xue-Feng Wu, He Gao, Peter Meszaros, JCAP 1608 (2016) 031, arXiv:1603.07568.
Testing the equivalence principle and Lorentz invariance with the PeV neutrino from blazar PKS B1424-418, Zi-Yi Wang, Ruo-Yu Liu, Xiang-Yu Wang, Phys. Rev. Lett. 116 (2016) 151101, arXiv:1602.06805.
Tests of Lorentz and CPT symmetry with hadrons and nuclei, J. P. Noordmans, J. de Vries, R. G. E. Timmermans, Phys. Rev. C94 (2016) 025502, arXiv:1602.00496.
Concurrent tests of Lorentz invariance in $\beta$-decay experiments, K.K. Vos, H.W. Wilschut, R.G.E. Timmermans, Phys. Rev. C92 (2015) 052501, arXiv:1511.05400.
Lorentz and CPT Violation in Top-Quark Production and Decay, Micheal S. Berger, Alan Kostelecky, Zhi Liu, Phys. Rev. D93 (2016) 036005, arXiv:1509.08929.
Lorentz Invariance Violation and IceCube Neutrino Events, Gaurav Tomar, Subhendra Mohanty, Sandip Pakvasa, JHEP 11 (2015) 022, arXiv:1507.03193.
Lorentz and CPT tests with hydrogen, antihydrogen, and related systems, Alan Kostelecky, Arnaldo J. Vargas, Phys. Rev. D92 (2015) 056002, arXiv:1506.01706.
Constraining CPT-even and Lorentz-violating nonminimal couplings with the electron magnetic and electric dipole moments, J. B. Araujo, R. Casana, Manoel M. Ferreira Jr, Phys. Rev. D92 (2015) 025049, arXiv:1505.05592.
Search for anisotropic Lorentz invariance violation with $\gamma$-rays, Fabian Kislat, Henric Krawczynski, Phys. Rev. D92 (2015) 045016, arXiv:1505.02669.
Limiting Lorentz Violation from Neutron-Antineutron Oscillation, K.S. Babu, Rabindra N. Mohapatra, Phys. Rev. D91 (2015) 096009, arXiv:1504.01176.
Velocity Induced Neutrino Oscillation and its Possible Implications for Long Baseline Neutrinos, Amit Dutta Banik, Debasish Majumdar, Mod.Phys.Lett. A30 (2014) 1550001, arXiv:1411.0385.
Tests of Lorentz and CPT Violation in the Medium Baseline Reactor Antineutrino Experiment, Yu-Feng Li, Zhen-hua Zhao, Phys. Rev. D90 (2014) 113014, arXiv:1409.6970.
Tests of Lorentz symmetry in single beta decay, Jorge S. Diaz, Adv.High Energy Phys. 2014 (2014) 305298, arXiv:1408.5880.
Laboratory tests of Lorentz and CPT symmetry with muons, Andre H. Gomes, Alan Kostelecky, Arnaldo J. Vargas, Phys. Rev. D90 (2014) 076009, arXiv:1407.7748.
Tests of CPT and Lorentz symmetry from muon anomalous magnetic dipole moment, Y. V. Stadnik, B. M. Roberts, V. V. Flambaum, Phys. Rev. D90 (2014) 045035, arXiv:1407.5728.
Lorentz violation from gamma-ray bursts, Shu Zhang, Bo-Qiang Ma, Astropart.Phys. 61 (2015) 108, arXiv:1406.4568.
Limits on Lorentz violation from charged-pion decay, J.P. Noordmans, K.K. Vos, Phys. Rev. D89 (2014) 101702, arXiv:1404.7629.
Seeking Lorentz Violation from the Higgs, Andrew Cohen, Gustavo Marques Tavares, Yiming Xu, arXiv:1404.3185, 2014.
End of the cosmic neutrino energy spectrum, L. A. Anchordoqui et al., Phys.Lett. B739 (2014) 99-101, arXiv:1404.0622.
Lorentz Violation in Fermion-Antifermion Decays of Spinless Particles, Brett Altschul, Phys. Rev. D89 (2014) 116007, arXiv:1403.2751.
Probing Lorentz and CPT Violation in a Magnetized Iron Detector using Atmospheric Neutrinos, Animesh Chatterjee, Raj Gandhi, Jyotsna Singh, JHEP 1406 (2014) 045, arXiv:1402.6265.
On the use of energy loss mechanisms to constrain Lorentz invariance violations, Diego Mazon, Phys. Rev. D89 (2014) 056012, arXiv:1401.2964.
Equations for massless and massive spin-1/2 particles with varying speed and neutrino in matter, S. I. Kruglov, Int.J.Mod.Phys. A29 (2014) 1450031, arXiv:1312.4837.
Limits on Lorentz and CPT violation from double beta decay, Jorge S. Diaz, Phys. Rev. D89 (2014) 043005, arXiv:1311.0930.
Testing Relativity with High-Energy Astrophysical Neutrinos, Jorge S. Diaz, Alan Kostelecky, Matthew Mewes, Phys. Rev. D89 (2014) 043005, arXiv:1308.6344.
Contributions to Pion Decay from Lorentz Violation in the Weak Sector, Brett Altschul, Phys. Rev. D88 (2013) 076015, arXiv:1308.2602.
Probing Lorentz Invariance Violation with Neutrino Factories, F. Rossi-Torres, J. Phys. G42 (2015) 055003, arXiv:1307.0884.
Relativity violations and beta decay, Jorge S. Diaz, Alan Kostelecky, Ralf Lehnert, Phys. Rev. D88 (2013) 071902, arXiv:1305.4636.
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.
Nucleosynthesis constraint on Lorentz invariance violation in the neutrino sector, Zong-Kuan Guo, Jian-Wei Hu, Phys. Rev. D 87, 123519 (2013) 123519, arXiv:1303.2813.
Limits on violations of Lorentz symmetry and the Einstein equivalence principle using radio-frequency spectroscopy of atomic dysprosium, M. A. Hohensee et al., Phys. Rev. Lett. 111 (2013) 050401, arXiv:1303.2747.
Possible relevance of quantum spacetime for neutrino-telescope data analyses, Giovanni Amelino-Camelia, Dafne Guetta, Tsvi Piran, arXiv:1303.1826, 2013.
Lorentz violation in neutron and allowed nuclear beta decay, J. P. Noordmans, H. W. Wilschut, R. G. E. Timmermans, Phys. Rev. C87 (2013) 055502, arXiv:1302.2730.
Neutrino Beam Constraints on Flavor-Diagonal Lorentz Violation, Brett Altschul, Phys. Rev. D87 (2013) 096004, arXiv:1302.2598.
Constraints on relativity violations from gamma-ray bursts, Alan Kostelecky, Matthew Mewes, Phys. Rev. Lett. 110 (2013) 201601, arXiv:1301.5367.
The Search for Neutrino-Antineutrino Mixing Resulting from Lorentz Invariance Violation using neutrino interactions in MINOS, B. Rebel, S. Mufson, Astropart.Phys. 48 (2013) 78-81, arXiv:1301.4684.
Testing Lorentz Invariance with neutrino burst from supernova neutronization, Sovan Chakraborty, Alessandro Mirizzi, Gunter Sigl, Phys. Rev. D87 (2013) 017302, arXiv:1211.7069.
Lorentz violation, gravitomagnetism, and intrinsic spin, Jay D. Tasson, Phys. Rev. D86 (2012) 124021, arXiv:1211.4850.
Trivial Lorentz Violation and Neutrino Oscillations, Kimihide Nishimura, arXiv:1211.1038, 2012.
Implications of ultra-high energy neutrino flux constraints for Lorentz-invariance violating cosmogenic neutrinos, P. W. Gorham et al., Phys. Rev. D86 (2012) 103006, arXiv:1207.6425.
Tests of Lorentz and CPT violation with MiniBooNE neutrino oscillation excesses, Teppei Katori (MiniBooNE), Mod. Phys. Lett. A27 (2012) 1230024, arXiv:1206.6915.
Cosmological constraints on Lorentz invariance violation in the neutrino sector, Zong-Kuan Guo, Qing-Guo Huang, Rong-Gen Cai, Yuan-Zhong Zhang, Phys. Rev. D86 (2012) 065004, arXiv:1206.5588.
Neutrino Velocity and the Variability of Fundamental Constants, Victor Flambaum, Maxim Pospelov, Phys. Rev. D86 (2012) 107502, arXiv:1206.1031.
Testing Violations of Lorentz Invariance with Cosmic-Rays, R. Cowsik, T. Madziwa-Nussinov, S. Nussinov, U. Sarkar, Phys. Rev. D86 (2012) 045024, arXiv:1206.0713.
High energy neutrino oscillation at the presence of the Lorentz Invariance Violation, Iman Motie, She-Sheng Xue, Int. J. Mod. Phys. A27 (2012) 1250104, arXiv:1206.0709.
Lorentz Invariance Violation and Generalized Uncertainty Principle, A. Tawfik, H. Magdy, A. Farag Ali, Phys. Part. Nucl. Lett. 13 (2016) 59, arXiv:1205.5998.
On calculation of cross sections in Lorentz violating theories, Grigory Rubtsov, Petr Satunin, Sergey Sibiryakov, Phys. Rev. D86 (2012) 085012, arXiv:1204.5782.
CPT, Lorentz invariance, mass differences, and charge non-conservation, A. D. Dolgov, V. A. Novikov, JETP Lett. 95 (2012) 594-597, arXiv:1204.5612.
Lorentz invariance violation and electromagnetic field in an intrinsically anisotropic spacetime, Zhe Chang, Sai Wang, Eur. Phys. J. C72 (2012) 2165, arXiv:1204.2478.
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Lorentz Invariance Violation in Modified Gravity, Philippe Brax, Phys. Lett. B712 (2012) 155-160, arXiv:1202.0740.
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Lorentz violating kinematics: Threshold theorems, Valentina Baccetti, Kyle Tate, Matt Visser, JHEP 03 (2012) 087, arXiv:1111.6340.
Probing Lorentz Violation in Neutrino Propagation from a Core-Collapse Supernova, John Ellis, Hans-Thomas Janka, Nikolaos E. Mavromatos, Alexander S. Sakharov, Edward K. G. Sarkisyan, Phys. Rev. D85 (2012) 045032, arXiv:1110.4848.
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Reliable Bounds on Nonrenormalizable Isotropic Lorentz and CPT Violation in QED, Brett Altschul, Phys. Rev. D83 (2011) 056012, arXiv:1010.2779.
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One-Loop Renormalization of the Electroweak Sector with Lorentz Violation, Don Colladay, Patrick McDonald, Phys. Rev. D79 (2009) 125019, arXiv:0904.1219.
Lorentz Violation and Alpha-Decay, Brett Altschul, Phys. Rev. D79 (2009) 016004, arXiv:0812.2236.
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Astrophysical Tests of Lorentz and CPT Violation with Photons, Alan Kostelecky, Matthew Mewes, Astrophys. J. 689 (2008) L1, arXiv:0809.2846.
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Cosmic Rays and the Search for a Lorentz Invariance Violation, Wolfgang Bietenholz, Phys. Rept. 505 (2011) 145-185, arXiv:0806.3713.
Lorentz violation dispersion relation and its application, Zhi Xiao, Bo-Qiang Ma, Int. J. Mod. Phys. A24 (2009) 1359-1381, arXiv:0805.2012.
Probes of Lorentz Violation in Neutrino Propagation, John Ellis, Nicholas Harries, Anselmo Meregaglia, Andre Rubbia, Alexander Sakharov, Phys. Rev. D78 (2008) 033013, arXiv:0805.0253.
Signals of CPT Violation and Non-Locality in Future Neutrino Oscillation Experiments, S. Antusch, E. Fernandez-Martinez, Phys. Lett. B665 (2008) 190-196, arXiv:0804.2820.
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Probing Nonstandard Neutrino Physics by Two Identical Detectors with Different Baselines, Nei Cipriano Ribeiro et al., Phys. Rev. D77 (2008) 073007, arXiv:0712.4314.
Astrophysical Limits on Lorentz Violation for Pions, Brett Altschul, Phys. Rev. D77 (2008) 105018, arXiv:0712.1579.
Challenging Lorentz noninvariant neutrino oscillations without neutrino masses, V. Barger, D. Marfatia, K. Whisnant, Phys. Lett. B653 (2007) 267-277, arXiv:0706.1085.
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CPT and Lorentz violation effects in hydrogen-like atoms, O. G. Kharlanov, V. Ch. Zhukovsky, J. Math. Phys. 48 (2007) 092302, arXiv:0705.3306.
Probing Lorentz invariance violation in atmospheric neutrino oscillations with a neutrino telescope, Dean Morgan, Elizabeth Winstanley, Jurgen Brunner, Lee F. Thompson, Astropart.Phys. 29 (2008) 345-354, arXiv:0705.1897.
Classification of Dimension 5 Lorentz Violating Interactions in the Standard Model, Pavel A. Bolokhov, Maxim Pospelov, Phys. Rev. D77 (2008) 025022, arXiv:hep-ph/0703291.
Astrophysical Limits on Lorentz Violation for All Charged Species, Brett Altschul, Astropart. Phys. 28 (2007) 380-384, arXiv:hep-ph/0610324.
The Cosmology of a Universe with Spontaneously-Broken Lorentz Symmetry, P. G. Ferreira, B. M. Gripaios, R. Saffari, T. G. Zlosnik, Phys. Rev. D75 (2007) 044014, arXiv:astro-ph/0610125.
Limits on Neutron Lorentz Violation from Pulsar Timing, B. Altschul, Phys. Rev. D75 (2007) 023001, arXiv:hep-ph/0608094.
Violation of CPT and Lorentz Invariance, Neutrino Oscillation and the Early Universe, P. Arias et al., Phys. Lett. B650 (2007) 401-406, arXiv:hep-ph/0608007.
Lorentz Violating Julia-Toulouse Mechanism, Patricio Gaete, Clovis Wotzasek, Phys. Rev. D75 (2007) 057902, arXiv:hep-ph/0607321.
GRBs Neutrinos as a Tool to Explore Quantum Gravity induced Lorentz Violation, Uri Jacob, Tsvi Piran, Nature Phys. 3 (2007) 87-90, arXiv:hep-ph/0607145.
The Casimir Force in a Lorentz Violating Theory, Mariana Frank, Ismail Turan, Phys. Rev. D74 (2006) 033016, arXiv:hep-ph/0607087.
Gamma Ray Burst Constraints on Ultraviolet Lorentz Invariance Violation, Tina Kahniashvili, Grigol Gogoberidze, Bharat Ratra, Phys. Lett. B643 (2006) 81-85, arXiv:astro-ph/0607055.
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A Lorentz-Violating Origin of Neutrino Mass?, Andrew G. Cohen, Sheldon L. Glashow, arXiv:hep-ph/0605036, 2006.
Lorentz Violating Inflation, Sugumi Kanno, Jiro Soda, Phys. Rev. D74 (2006) 063505, arXiv:hep-th/0604192.
Spontaneous breaking of Lorentz invariance, black holes and perpetuum mobile of the 2nd kind, S.L. Dubovsky, S.M. Sibiryakov, Phys. Lett. B638 (2006) 509-514, arXiv:hep-th/0603158.
Limits on Lorentz Violation from Synchrotron and Inverse Compton Sources, B. Altschul, Phys. Rev. Lett. 96 (2006) 201101, arXiv:hep-ph/0603138.
Signals for Lorentz Violation in Post-Newtonian Gravity, Quentin G. Bailey, Alan Kostelecky, Phys. Rev. D74 (2006) 045001, arXiv:gr-qc/0603030.
A Three-Flavor, Lorentz-Violating Solution to the LSND Anomaly, Andre de Gouvea, Yuval Grossman, Phys. Rev. D74 (2006) 093008, arXiv:hep-ph/0602237.
GRB 051221A and Tests of Lorentz Symmetry, Maria Rodriguez Martinez, Tsvi Piran, Yonatan Oren, JCAP 0605 (2006) 017, arXiv:astro-ph/0601556.
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Neutrino Constraints on Spontaneous Lorentz Violation, Yuval Grossman, Can Kilic, Jesse Thaler, Devin G. E. Walker, Phys. Rev. D72 (2005) 125001, arXiv:hep-ph/0506216.
Lorentz and CPT Invariance Violation In High-Energy Neutrinos, Dan Hooper, Dean Morgan, Elizabeth Winstanley, Phys. Rev. D72 (2005) 065009, arXiv:hep-ph/0506091.
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Search for a Lorentz invariance violation contribution in atmospheric neutrino oscillations using MACRO data, G. Battistoni et al., Phys. Lett. B615 (2005) 14, arXiv:hep-ex/0503015.
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A tight constraint on some varying speed of light theories, Ahmad Shariati, Nosratollah Jafari, arXiv:gr-qc/0502071, 2005.
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Lorentz Invariance Violation and the Spectrum and Source Power of Ultrahigh Energy Cosmic Rays, F.W. Stecker, S.T. Scully, Astropart. Phys. 23 (2005) 203, arXiv:astro-ph/0412495.
New Bounds on Cubic Lorentz-Violating Terms in the Fermionic Dispersion Relation, O. Bertolami, J.G. Rosa, Phys. Rev. D71 (2005) 097901, arXiv:hep-ph/0412289.
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Atmospheric Neutrino Constraints on Lorentz Violation, Sheldon Lee Glashow, arXiv:hep-ph/0407087, 2004.
Lorentz Violation and Short-Baseline Neutrino Experiments, Alan Kostelecky, Matthew Mewes, Phys. Rev. D70 (2004) 076002, arXiv:hep-ph/0406255.
The constancy, or otherwise, of the speed of light, Daniel J. Farrell, J. Dunning-Davies, arXiv:physics/0406104, 2004.
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Compton Scattering in the Presence of Lorentz and CPT Violation, B. Altschul, Phys. Rev. D70 (2004) 056005, arXiv:hep-ph/0405084.
Limits on Lorentz Violation from the Highest Energy Cosmic Rays, Olivier Gagnon, Guy D. Moore, Phys. Rev. D70 (2004) 065002, arXiv:hep-ph/0404196.
Lorentz and CPT Violation in the Higgs Sector, David L. Anderson, Marc Sher, Ismail Turan, Phys. Rev. D70 (2004) 016001, arXiv:hep-ph/0403116.
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Noncommutative Theory in Light of Neutrino Oscillation, Shao-Xia Chen, Zhao-Yu Yang, arXiv:hep-ph/0312099, 2003.
Atmospheric Neutrinos as a Probe of CPT and Lorentz Violation, Anindya Datta, Raj Gandhi, Poonam Mehta, S Uma Sankar, Phys. Lett. B597 (2004) 356, arXiv:hep-ph/0312027.
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Probing Lorentz and CPT violation with space-based experiments, Robert Bluhm, Alan Kostelecky, Charles Lane, Neil Russell, Phys. Rev. D68 (2003) 125008, arXiv:hep-ph/0306190.
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33 - Phenomenology - Violation of Lorentz Invariance - Conference Proceedings

Test of Lorentz Violation with Astrophysical Neutrino Flavor in IceCube, Teppei Katori, Carlos A. Arguelles, Kareem Farrag, Shivesh Mandalia, arXiv:1906.09240, 2019. Eighth Meeting on CPT and Lorentz Symmetry, Bloomington, Indiana, May 12-16, 2019.
Neutrino oscillations and Lorentz invariance violation, S. A. Alavi, M. Dehghani Madise, arXiv:1612.09280, 2016. 'XXV ECRS 2016, Turin, Italy.
Signals for Lorentz and CPT Violation in Atomic Spectroscopy Experiments and Other Systems, Arnaldo J. Vargas, arXiv:1611.01870, 2