Neutrino Interactions

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References

1 - Books

[1-1]
Introduction to the Physics of Massive and Mixed Neutrinos, Samoil Bilenky, Springer, 2018. Lecture Notes in Physics, Volume 947. https://doi.org/10.1007/978-3-319-74802-3.
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[1-2]
Fundamentals of Neutrino Physics and Astrophysics, C. Giunti, C. W. Kim, Oxford University Press, Oxford, UK, 2007. ISBN 978-0-19-850871-7. https://global.oup.com/academic/product/fundamentals-of-neutrino-physics-and-astrophysics-9780198508717.
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[1-3]
Physics of neutrinos and applications to astrophysics, M. Fukugita, T. Yanagida, Springer, 2003. https://link.springer.com/book/10.1007/978-3-662-05119-1.
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[1-4]
CP Violation, Ikaros I. Y. Bigi, A. I. Sanda, Cambridge University Press, 2000. Camb.Monogr.Part.Phys.Nucl.Phys.Cosmol. 9.
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[1-5]
Physics with tau leptons, A. Stahl, Springer, Berlin, Germany, 2000.
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[1-6]
The Standard Model in the Making: Precision Study of the Electroweak Interactions, Dmitri Yu. Bardin, G. Passarino, Oxford University Press, 1999. The International Series of Monographs on Physics, 104.
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[1-7]
CP Violation, Gustavo C. Branco, Luis Lavoura, Joao P. Silva, Oxford University Press, 1999. The International Series of Monographs on Physics, 103.
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[1-8]
Electroweak and strong interactions: An introduction to theoretical particle physics, F. Scheck, Springer-Verlag, 1996.
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[1-9]
Introduction to Feynman Diagrams and Electroweak Interactions Physics, S. M. Bilenky, Editions Frontieres, 1994.
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[1-10]
Gauge theory of weak interactions, W. Greiner, Berndt Muller, Springer, 1993. ISBN 978-3-540-87842-1. http://www.springer.com/physics/particle+and+nuclear+physics/book/978-3-540-87842-1.
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[1-11]
Electroweak Interactions: an Introduction to the Physics of Quarks and Leptons, P. Renton, Cambridge University Press, 1990.
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[1-12]
Quarks and Leptons: an Introductory Course in Modern Particle Physics, F. Halzen, Alan D. Martin, John Wiley, 1984.
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[1-13]
Weak Interactions of Leptons and Quarks, E. D. Commins, P. H. Bucksbaum, Cambridge University Press, 1983.
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[1-14]
Introduction to the Physics of Electroweak Interactions, S. M. Bilenky, Pergamon Press, 1982.
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[1-15]
Theory of Weak Interactions in Particle Physics, R. E. Marshak, Riazuddin, C. P. Ryan, Wiley-Interscience, 1969.
[Marshak-Riazuddin-Ryan-69]

2 - Reviews

[2-1]
Opportunities and open questions in modern $\beta$ decay, Leendert Hayen, arXiv:2403.08485, 2024.
[Hayen:2024xjf]
[2-2]
Detection and Calibration of Low-Energy Nuclear Recoils for Dark Matter and Neutrino Scattering Experiments, Jingke Xu, P. S. Barbeau, Ziqing Hong, Ann. Rev. Nucl. Part. Sci. 73 (2023) 95-121, arXiv:2311.02257.
[Xu:2023rzm]
[2-3]
Experimental neutrino physics in a nuclear landscape, D. S. Parno, A. W. P. Poon, V. Singh, arXiv:2310.06207, 2023.
[Parno:2023upv]
[2-4]
Recent Progress in Low Energy Neutrino Scattering Physics and Its Implications for the Standard and Beyond the Standard Model Physics, V. Pandey, Prog.Part.Nucl.Phys. 134 (2024) 104078, arXiv:2309.07840.
[Pandey:2023arh]
[2-5]
Lepton-Nucleus Interactions within Microscopic Approaches, Alexis Nikolakopoulos, Noah Steinberg, Alessandro Lovato, Noemi Rocco, Universe 9 (2023) 367, arXiv:2308.00736.
[Lovato:2023raf]
[2-6]
A view of Coherent Elastic Neutrino-Nucleus Scattering, M. Cadeddu, F. Dordei, C. Giunti, EPL 143 (2023) 34001, arXiv:2307.08842.
[Cadeddu:2023tkp]
[2-7]
Coherent Elastic Neutrino-Nucleus Scattering in the Standard Model and Beyond, Valentina De Romeri, LHEP 2023 (2023) 343.
[DeRomeri:2023dko]
[2-8]
Towards a Unified Model of Neutrino-Nucleus Interactions, Omar Benhar, Camillo Mariani, Eur.Phys.J.A 59 (2023) 85, arXiv:2212.11860.
[Benhar:2022hud]
[2-9]
SNOWMASS Neutrino Frontier NF10 Topical Group Report: Neutrino Detectors, Joshua R. Klein et al., arXiv:2211.09669, 2022.
[Klein:2022lrf]
[2-10]
Snowmass Neutrino Frontier Report, Patrick Huber et al., arXiv:2211.08641, 2022.
[Huber:2022lpm]
[2-11]
Neutrino Frontier Topical Group Report (NF03): Physics Beyond the Standard Model, Pilar Coloma, Lisa W. Koerner, Ian M. Shoemaker, Jaehoon Yu, arXiv:2209.10362, 2022.
[Coloma:2022dng]
[2-12]
Report of the Topical Group on Electroweak Precision Physics and Constraining New Physics for Snowmass 2021, Alberto Belloni et al., arXiv:2209.08078, 2022.
[Belloni:2022due]
[2-13]
Report of the Topical Group on Neutrino Applications for Snowmass 2021, N. S. Bowden, J. M. Link, W. Wang, arXiv:2209.07483, 2022.
[Bowden:2022rjt]
[2-14]
Snowmass Neutrino Frontier: Neutrino Interaction Cross Sections (NF06) Topical Group Report, A. B. Balantekin et al., arXiv:2209.06872, 2022.
[Balantekin:2022jrq]
[2-15]
Neutrinos and their interactions with matter, M. Sajjad Athar, A. Fatima, S. K. Singh, Prog.Part.Nucl.Phys. 129 (2023) 104019, arXiv:2206.13792.
[SajjadAthar:2022pjt]
[2-16]
Neutrino Properties and Interactions, Pedro A. N. Machado, arXiv:2206.13449, 2022.
[Machado:2022cmu]
[2-17]
Kinematic Variables and Feature Engineering for Particle Phenomenology, Roberto Franceschini, Doojin Kim, Kyoungchul Kong, Konstantin T. Matchev, Myeonghun Park, Prasanth Shyamsundar, Rev.Mod.Phys. 95 (2023) 045004, arXiv:2206.13431.
[Franceschini:2022vck]
[2-18]
Notes on QED Corrections in Weak Decays, Roman Zwicky, Symmetry 13 (2021) 2036, arXiv:2205.06194.
[Zwicky:2021olr]
[2-19]
The COHERENT Experimental Program, D. Akimov et al., arXiv:2204.04575, 2022.
[Akimov:2022oyb]
[2-20]
Neutrino Scattering Measurements on Hydrogen and Deuterium: A Snowmass White Paper, Luis Alvarez-Ruso et al., arXiv:2203.11298, 2022.
[Alvarez-Ruso:2022ctb]
[2-21]
Snowmass White Paper: Beyond the Standard Model effects on Neutrino Flavor, C. A. Arguelles et al., arXiv:2203.10811, 2022.
[Arguelles:2022xxa]
[2-22]
Theoretical tools for neutrino scattering: interplay between lattice QCD, EFTs, nuclear physics, phenomenology, and neutrino event generators, L. Alvarez Ruso et al., arXiv:2203.09030, 2022.
[Ruso:2022qes]
[2-23]
Coherent elastic neutrino-nucleus scattering: Terrestrial and astrophysical applications, M. Abdullah et al., arXiv:2203.07361, 2022.
[Abdullah:2022zue]
[2-24]
High Energy Physics Opportunities Using Reactor Antineutrinos, O. A. Akindele et al., arXiv:2203.07214, 2022.
[Akindele:2022dpr]
[2-25]
Electron Scattering and Neutrino Physics, A. M. Ankowski et al., J.Phys.G 50 (2023) 120501, arXiv:2203.06853.
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[2-26]
Neutrino Self-Interactions: A White Paper, Jeffrey M. Berryman et al., Phys.Dark Univ. 42 (2023) 101267, arXiv:2203.01955.
[Berryman:2022hds]
[2-27]
Low-Energy Physics in Neutrino LArTPCs, D. Caratelli et al., arXiv:2203.00740, 2022.
[Caratelli:2022llt]
[2-28]
Neutrinos at FPF, Ulrich Mosel, Kai Gallmeister, arXiv:2201.04008, 2022.
[Mosel:2022tqc]
[2-29]
Status of Lattice QCD Determination of Nucleon Form Factors and their Relevance for the Few-GeV Neutrino Program, Aaron S. Meyer, Andre Walker-Loud, Callum Wilkinson, Ann.Rev.Nucl.Part.Sci. 72 (2022) 205-232, arXiv:2201.01839.
[Meyer:2022mix]
[2-30]
Muonium Lamb shift: theory update and experimental prospects, Gianluca Janka, Ben Ohayon, Paolo Crivelli, EPJ Web Conf. 262 (2022) 01001, arXiv:2111.13951.
[Janka:2021xxr]
[2-31]
Mounting Evidence for the Violation of Lepton Flavor Universality, Andreas Crivellin, Martin Hoferichter, Science 374 (2021) 1051, arXiv:2111.12739.
[Crivellin:2021sff]
[2-32]
COHERENT at the Spallation Neutron Source, P. S. Barbeau, Yu. Efremenko, K. Scholberg, Ann.Rev.Nucl.Part.Sci. 73 (2023) 41-68, arXiv:2111.07033.
[Barbeau:2021exu]
[2-33]
Neutrino Interactions with Matter and the MiniBooNE anomaly, Luis Alvarez-Ruso, Eduardo Saul-Sala, Eur.Phys.J.ST 230 (2021) 4373-4389, arXiv:2111.02504.
[Alvarez-Ruso:2021dna]
[2-34]
Holographic QCD and the muon anomalous magnetic moment, Josef Leutgeb, Jonas Mager, Anton Rebhan, Eur.Phys.J.C 81 (2021) 1008, arXiv:2110.07458.
[Leutgeb:2021bpo]
[2-35]
A pedagogical review on muon $g-2$, Song Li, Yang Xiao, Jin Min Yang, Physics 4 (2021) 40-47, arXiv:2110.04673.
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[2-36]
Neutrino Interaction Physics in Neutrino Telescopes, Teppei Katori, Juan Pablo Yanez, Tianlu Yuan, Eur.Phys.J.ST 230 (2021) 4293-4308, arXiv:2109.04430.
[Katori:2021nwq]
[2-37]
A New Generation of Neutrino Cross Section Experiments: Challenges and Opportunities, A. Branca, G. Brunetti, A. Longhin, M. Martini, F. Pupilli, F. Terranova, Symmetry 13 (2021) 1625, arXiv:2108.12212.
[Branca:2021vis]
[2-38]
Radiative corrections to semileptonic beta decays: Progress and challenges, Chien-Yeah Seng, Particles 4 (2021) 397-467, arXiv:2108.03279.
[Seng:2021syx]
[2-39]
Exploring Neutrino-Nucleus Interactions in the GeV Regime using MINERvA, X.-G. Lu et al. (The MINERvA), Eur.Phys.J.ST (2021), arXiv:2107.02064.
[MINERvA:2021csy]
[2-40]
Recent highlights from GENIE v3, Luis Alvarez-Ruso et al. (GENIE), Eur.Phys.J.ST (2021), arXiv:2106.09381.
[GENIE:2021npt]
[2-41]
Muon $g-2$: current status, Alex Keshavarzi, Kim Siang Khaw, Tamaki Yoshioka, Nucl.Phys.B 975 (2022) 115675, arXiv:2106.06723.
[Keshavarzi:2021eqa]
[2-42]
Vector Boson Scattering Processes: Status and Prospects, Diogo Buarque Franzosi et al., Rev.Phys. 8 (2022) 100071, arXiv:2106.01393.
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[2-43]
Semitauonic $b$-hadron decays: A lepton flavor universality laboratory, Florian U. Bernlochner, Manuel Franco Sevilla, Dean J. Robinson, Guy Wormser, Rev.Mod.Phys. 94 (2022) 015003, arXiv:2101.08326.
[Bernlochner:2021vlv]
[2-44]
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, Phys.Rept. 900 (2021) 1-74, arXiv:2008.11160.
[Davoudi:2020ngi]
[2-45]
Neutrino (Antineutrino)-Nucleus Interactions in the Shallow- and Deep-Inelastic Scattering Regions, M. Sajjad Athar, Jorge G. Morfin, J.Phys. G48 (2021) 034001, arXiv:2006.08603.
[SajjadAthar:2020nvy]
[2-46]
The anomalous magnetic moment of the muon in the Standard Model, T. Aoyama et al., Phys. Rept. 887 (2020) 1-166, arXiv:2006.04822.
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[2-47]
Neutrino Long-Baseline Experiments and Nuclear Physics, Ulrich Mosel, Nucl. Phys. News 29 (2019) 10-14, arXiv:2004.06596.
[Mosel:2019mch]
[2-48]
Electron- versus neutrino-nucleus scattering, J.E. Amaro, M.B. Barbaro, J.A. Caballero, R. Gonzalez-Jimenez, G.D. Megias, I. Ruiz Simo, J.Phys. G47 (2020) 124001, arXiv:1912.10612.
[Amaro:2019zos]
[2-49]
Electroweak Radiative Corrections for Collider Physics, Ansgar Denner, Stefan Dittmaier, Phys.Rept. 864 (2020) 1-163, arXiv:1912.06823.
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Recent probes of standard and non-standard neutrino physics with nuclei, D.K. Papoulias, T.S. Kosmas, Y. Kuno, Front.in Phys. 7 (2019) 191, arXiv:1911.00916.
[Papoulias:2019xaw]
[2-51]
The Partonic Content of Nucleons and Nuclei, Juan Rojo, Oxford Research Encyclopedia of Physics (2021), arXiv:1910.03408.
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[2-52]
Neutral Current Neutrino-Nucleus Scattering. Theory, Carlotta Giusti, Martin V. Ivanov, J.Phys. G47 (2020) 024001, arXiv:1908.08603.
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[2-53]
Probing high-energy interactions of atmospheric and astrophysical neutrinos, Spencer R. Klein, arXiv:1906.02221, 2019.
[Klein:2019nbu]
[2-54]
Neutrino generators: Foundation, Status and Future, U. Mosel, J.Phys. G46 (2019) 113001, arXiv:1904.11506.
[Mosel:2019vhx]
[2-55]
Lattice QCD and Neutrino-Nucleus Scattering, Andreas S. Kronfeld, David G. Richards, William Detmold, Rajan Gupta, Huey-Wen Lin, Keh-Fei Liu, Aaron S. Meyer, Raza Sufian, Sergey Syritsin, Eur.Phys.J. A55 (2019) 196, arXiv:1904.09931.
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[2-56]
Atomic parity violation and the standard model, Carl Wieman, Andrei Derevianko, arXiv:1904.00281, 2019.
[Wieman:2019vik]
[2-57]
The hadronic light-by-light contribution to the muon's anomalous magnetic moment, Igor Danilkin, Christoph Florian Redmer, Marc Vanderhaeghen, Prog.Part.Nucl.Phys. 107 (2019) 20-68, arXiv:1901.10346.
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Theory of the Anomalous Magnetic Moment of the Electron, Tatsumi Aoyama, Toichiro Kinoshita, Makiko Nio, Atoms 7 (2019) 28.
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[2-59]
Determination of the Proton's Weak Charge and Its Constraints on the Standard Model, Roger D. Carlini, Willem T. H. van Oers, Mark L. Pitt, Gregory R. Smith, Ann. Rev. Nucl. Part. Sci. 69 (2019) 191-217.
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Neutrino-nuclear responses for astro-neutrinos, single beta decays and double beta decays, H. Ejiri, J. Suhonen, K. Zuber, Phys. Rept. 797 (2019) 1-102.
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[2-61]
COHERENT 2018 at the Spallation Neutron Source, D. Akimov et al. (COHERENT), arXiv:1803.09183, 2018.
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Progress in measurements of 0.1-10 GeV neutrino-nucleus scattering and anticipated results from future experiments, Kendall Mahn, Chris Marshall, Callum Wilkinson, Ann.Rev.Nucl.Part.Sci. 68 (2018) 105-129, arXiv:1803.08848.
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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.
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Calculate like a Llewellyn, Anthony Mann, 2018. NOVA Document 28289-v2. http://nova-docdb.fnal.gov/cgi-bin/ShowDocument?docid=28289.
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Program of Fundamental-Interaction Research for the Ultracold-Neutron Source at the the WWR-M Reactor, A. P. Serebrov, Phys. Atom. Nucl. 81 (2018) 214-221.
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Precision Physics at LEP, Siegfried Bethke, arXiv:1712.03035, 2017.
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Neutrino oscillations and Non-Standard Interactions, Y. Farzan, M. Tortola, Front.in Phys. 6 (2018) 10, arXiv:1710.09360.
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High precision analytical description of the allowed $\beta$ spectrum shape, Leendert Hayen, Nathal Severijns, Kazimierz Bodek, Dagmara Rozpedzik, Xavier Mougeot, Rev. Mod. Phys. 90 (2018) 015008, arXiv:1709.07530.
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Lectures on the Theory of the Weak Interaction, Michael E. Peskin, arXiv:1708.09043, 2017.
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Nucleon Axial Radius and Muonic Hydrogen, Richard J. Hill, Peter Kammel, William J. Marciano, Alberto Sirlin, Rept.Prog.Phys. 81 (2018) 096301, arXiv:1708.08462.
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NuSTEC White Paper: Status and Challenges of Neutrino-Nucleus Scattering, L. Alvarez-Ruso et al., Prog.Part.Nucl.Phys. 100 (2018) 1-68, arXiv:1706.03621.
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Roadmap for the international, accelerator-based neutrino programme, J. Cao et al., arXiv:1704.08181, 2017.
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Interactions relevant to the decoupling of the neutrini/antineutrini in the early Universe, Evangelos Matsinos, arXiv:1702.02872, 2017.
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Neutrino-Nucleus Cross Sections for Oscillation Experiments, Teppei Katori, Marco Martini, J.Phys. G45 (2018) 013001, arXiv:1611.07770.
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Neutrino Interactions with Nucleons and Nuclei: Importance for Long Baseline Experiments, Ulrich Mosel, Ann.Rev.Nucl.Part.Sci. 66 (2016) 171, arXiv:1602.00696.
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Low-energy precision tests of the standard model: a snapshot, David W. Hertzog, Annalen Phys. 528 (2016) 115-122.
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Global Analyses of Neutrino Oscillation Experiments, M.C. Gonzalez-Garcia, Michele Maltoni, Thomas Schwetz, Nucl. Phys. B908 (2016) 199-217, arXiv:1512.06856.
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Symmetry violations in nuclear and neutron $\beta$ decay, K.K. Vos, H.W. Wilschut, R.G.E. Timmermans, Rev. Mod. Phys. 87 (2015) 1483, arXiv:1509.04007.
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Particle Physics after the Higgs-Boson Discovery: Opportunities for the Large Hadron Collider, Chris Quigg, Contemp.Phys. 57 (2016) 177, arXiv:1507.02977.
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Electroweak phase transition and some related phenomena- a brief review, Buddhadeb Ghosh, Pramana 87 (2016) 43, arXiv:1507.01576.
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On the Trail of the Higgs Boson, Michael E. Peskin, Annalen Phys. 528 (2016) 20-34, arXiv:1506.08185.
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Precision Muon Physics, T.P. Gorringe, D.W. Hertzog, Prog. Part. Nucl. Phys. 84 (2015) 73-123, arXiv:1506.01465.
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Non standard neutrino interactions, O.G. Miranda, H. Nunokawa, New J. Phys. 17 (2015) 095002, arXiv:1505.06254.
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Physics at the e+ e- Linear Collider, G. Moortgat-Pick et al., Eur. Phys. J. C75 (2015) 371, arXiv:1504.01726.
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Neutrino-nucleus interactions and the determination of oscillation parameters, Omar Benhar, Patrick Huber, Camillo Mariani, Davide Meloni, Phys.Rept. 700 (2017) 1-47, arXiv:1501.06448.
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Parity and Time-Reversal Violation in Atomic Systems, B. M. Roberts, V. A. Dzuba, V. V. Flambaum, Ann. Rev. Nucl. Part. Sci. 65 (2015) 63-86, arXiv:1412.6644.
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Quantum Monte Carlo methods for nuclear physics, J. Carlson et al., Rev. Mod. Phys. 87 (2015) 1067, arXiv:1412.3081.
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Charged Current Quasi-Elastic Cross Section Measurements in MiniBooNE, Joseph Grange, Teppei Katori, Mod.Phys.Lett. A29 (2014) 1430011, arXiv:1404.6484.
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Progress and open questions in the physics of neutrino cross sections, L. Alvarez-Ruso, Y. Hayato, J. Nieves, New J. Phys. 16 (2014) 075015, arXiv:1403.2673.
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Weak Polarized Electron Scattering, Jens Erler, Charles J. Horowitz, Sonny Mantry, Paul A. Souder, Ann. Rev. Nucl. Part. Sci. 64 (2014) 269-298, arXiv:1401.6199.
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The measurement and interpretation of superallowed $0^+ \to 0^+$ nuclear $\beta$ decay, J. C. Hardy, I. S. Towner, J. Phys. G 41 (2014) 114004, arXiv:1312.3587.
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Precision Tau Physics, Antonio Pich, Prog.Part.Nucl. Phys. 75 (2014) 41-85, arXiv:1310.7922.
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Neutrinos, A. de Gouvea et al. (Intensity Frontier Neutrino Working Group), arXiv:1310.4340, 2013.
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Nuclear Effects in Neutrino Interactions and their Impact on the Determination of Oscillation Parameters, Omar Benhar, Noemi Rocco, Adv. High Energy Phys. 2013 (2013) 912702, arXiv:1310.3869.
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From eV to EeV: Neutrino Cross Sections Across Energy Scales, J.A. Formaggio, G.P. Zeller, Rev.Mod.Phys. 84 (2012) 1307, arXiv:1305.7513.
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The Weak Neutral Current, Jens Erler, Shufang Su, Prog. Part. Nucl. Phys. 71 (2013) 119-149, arXiv:1303.5522.
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Neutrino-nucleus interactions, H. Gallagher, G. Garvey, G.P. Zeller, Ann.Rev.Nucl.Part.Sci. 61 (2011) 355-378.
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Top Quark Physics at the Tevatron, Frederic Deliot, Douglas Glenzinski, Rev.Mod.Phys. 84 (2012) 211, arXiv:1010.1202.
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Muon Physics: A Pillar of the Standard Model, B. Lee Roberts, J. Phys. Soc. Jap. 76 (2007) 111009, arXiv:0704.2394.
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Hadroproduction experiments for precise neutrino beam calculations, M. Bonesini, A. Guglielmi, Phys. Rept. 433 (2006) 65-126.
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Analytical formulas for neutrino-electron scattering cross sections, J. Linder, arXiv:hep-ph/0505079, 2005.
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Neutrino-Electron Scattering Theory, William J. Marciano, Zohreh Parsa, J. Phys. G29 (2003) 2629, arXiv:hep-ph/0403168.
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All electromagnetic form-factors, Marek Nowakowski, E.A. Paschos, J.M. Rodriguez, Eur.J. Phys. 26 (2005) 545-560, arXiv:physics/0402058.
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Pseudoscalar-Meson Decay Constants, M. Suzuki, Phys. Lett. B592 (2004) 495-496. The Review of Particle Properties 2004. http://pdg.lbl.gov/2004/reviews/decaycons_s808.pdf.
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The anomalous magnetic moment of the muon: A theoretical introduction, Marc Knecht, Lect. Notes Phys. 629 (2004) 37, arXiv:hep-ph/0307239.
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Precision Electroweak Tests of the Standard Model, P B Renton, Rept. Prog. Phys. 65 (2002) 1271-1330, arXiv:hep-ph/0206231.
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Induced pseudoscalar coupling of the proton weak interaction, Tim Gorringe, Harold W. Fearing, Rev. Mod. Phys. 76 (2004) 31-91, arXiv:nucl-th/0206039.
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Nuclear weak interaction processes in stars, K. Langanke, G. Martinez-Pinedo, Rev. Mod. Phys. 75 (2003) 819-862, arXiv:nucl-th/0203071.
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The Nucleon's mirror image: Revealing the strange and unexpected, R. D. McKeown, M. J. Ramsey-Musolf, Mod. Phys. Lett. A18 (2003) 75-84, arXiv:hep-ph/0203011. Few-body problems in physics. Proceedings, 2nd Asia Pacific Conference, APFB'02, Shanghai, P.R. China, August 27-30, 2002.
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Axial structure of the nucleon, Veronique Bernard, Latifa Elouadrhiri, Ulf. G. Meissner, J. Phys. G28 (2002) R1-R35, arXiv:hep-ph/0107088.
Comment: The axial form factor data were parameterized in terms of a dipole and the resulting world average is $M_A = 1.026 \pm 0.021$ GeV (neutrino scattering).
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[2-132]
Parity violating electron scattering and nucleon structure, D. H. Beck, R. D. McKeown, Ann. Rev. Nucl. Part. Sci. 51 (2001) 189-217, arXiv:hep-ph/0102334.
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Strangeness in the nucleon: Neutrino nucleon and polarized electron nucleon scattering, W. M. Alberico, Samoil M. Bilenky, C. Maieron, Phys. Rep. 358 (2002) 227-308, arXiv:hep-ph/0102269.
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Beta decay beyond the standard model, P. Herczeg, Prog. Part. Nucl. Phys. 46 (2001) 413-457.
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Study of nucleon structure by neutrinos, M. Diemoz, F. Ferroni, E. Longo, G. Martinelli, Cambridge Monogr. Part. Phys. Nucl. Phys. Cosmol. 14 (2000) 417-498.
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Nuclear spin isospin responses for low-energy neutrinos, H. Ejiri, Phys. Rept. 338 (2000) 265-351.
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How many generations of fermions?, A. Blondel, D. Denegri, Cambridge Monogr. Part. Phys. Nucl. Phys. Cosmol. 14 (2000) 165-186.
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Spin physics and polarized structure functions, Bodo Lampe, Ewald Reya, Phys. Rep. 332 (2000) 1-163, arXiv:hep-ph/9810270.
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A theoretical and experimental review of the weak neutral current: a determination of its structure and limits on deviations from the minimal $\text{SU}(2)_L \times \text{U}(1)$ electroweak theory, Jihn E. Kim, Paul Langacker, M. Levine, H. H. Williams, Rev. Mod. Phys. 53 (1981) 211.
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3 - Reviews - Talks

[3-1]
Theory of Muon g-2, Bogdan Malaescu, JPS Conf.Proc. 37 (2022) 011003, arXiv:2206.05666. SPIN2021.
[Malaescu:2022qng]
[3-2]
Coherent elastic neutrino-nucleus scattering - First constraints/observations and future potential, Thomas Rink, arXiv:2205.06712, 2022. 2022 Electroweak session of the 56th Rencontres de Moriond.
[Rink:2022qjg]
[3-3]
EXCESS workshop: Descriptions of rising low-energy spectra, P. Adari et al., SciPost Phys.Proc. 9 (2022) 001, arXiv:2202.05097.
[Fuss:2022fxe]
[3-4]
Comparisons and challenges of modern neutrino-scattering experiments (TENSIONS 2019 report), M. Buizza Avanzini et al., Phys.Rev.D 105 (2022) 092004, arXiv:2112.09194.
[Avanzini:2021qlx]
[3-5]
Theory Closing Talk, Gian F. Giudice, PoS LHCP2021 (2021) 019, arXiv:2109.07176. LHCP2021.
[Giudice:2021zgc]
[3-6]
Global Vision of Precision Measurements, Jens Erler, arXiv:2105.00217, 2021. Les Rencontres de Physique de la Vallee d'Aoste (La Thuile 2021), March 9-11, 2021 and 2021 EW session of the 55th Rencontres de Moriond, March 21-27, 2021.
[Erler:2021eyn]
[3-7]
Summary of the NuSTEC Workshop on Neutrino-Nucleus Pion Production in the Resonance Region, L. Aliaga et al., arXiv:2011.07166, 2020.
[NuSTEC:2020nsl]
[3-8]
Summary of Workshop on Common Neutrino Event Generator Tools, Josh Barrow et al., arXiv:2008.06566, 2020.
[Barrow:2020gzb]
[3-9]
Proceedings of The Magnificent CE$\nu$NS Workshop 2018, D. Aristizabal Sierra et al., arXiv:1910.07450, 2019.
[Proceedings:2019mnq]
[3-10]
Summary of the NuSTEC Workshop on Shallow- and Deep-Inelastic Scattering, C. Andreopoulos et al., arXiv:1907.13252, 2019. NuSTEC workshop of Neutrino-Nucleus Scattering in the Shallow- and Deep-Inelastic Kinematic regime, GSSI, L'Aquila, Italy on October 11-13, 2018.
[NuSTEC:2019lqd]
[3-11]
Neutrino Non-Standard Interactions: A Status Report, P. S. Bhupal Dev et al., SciPost Phys.Proc. 2 (2019) 001, arXiv:1907.00991.
[Proceedings:2019qno]
[3-12]
Measurements of neutrino-nucleus scattering, Callum Wilkinson, PoS NOW2018 (2019) 032, arXiv:1903.09404. NOW 2018.
[Wilkinson:2019hru]
[3-13]
PHOTON-2017 conference proceedings, David d'Enterria et al., CERN Conf.Proc. 1 (2018) 1, arXiv:1812.08166.
[dEnterria:2018yor]
[3-14]
High-energy neutrino-nucleus interactions, S. Kumano, EPJ Web Conf. 208 (2019) 07003, arXiv:1810.07363. 20th International Symposium on Very High Energy Cosmic Ray Interactions, May 21-25, 2018, Nagoya University, Nagoya, Japan.
[Kumano:2018bwh]
[3-15]
Comparisons and challenges of modern neutrino scattering experiments (TENSIONS2016 report), M. Betancourt et al., Phys.Rept. 773-774 (2018) 1-28, arXiv:1805.07378.
[Betancourt:2018bpu]
[3-16]
The Muon g-2 in Progress, Fred Jegerlehner, Acta Phys.Polon. B49 (2018) 1157, arXiv:1804.07409. XXIV Cracow EPIPHANY Conference on Advances in Heavy Flavour Physics, 9-12 January 2018, Crakow, Poland.
[Jegerlehner:2018zrj]
[3-17]
Neutrino Cross Sections: Status and Prospects, M. F. Carneiro, arXiv:1804.03238, 2018. NuPhys2017 (London, 20-22 December 2017).
[Carneiro:2018rdm]
[3-18]
Facets of Neutrino-Nucleus Interactions, A.B. Balantekin, Acta Phys.Polon. B49 (2018) 221, arXiv:1711.03667. XXXV Mazurian Lakes Conference on Physics, Piaski, Poland, September 3-9, 2017.
[Balantekin:2017yyp]
[3-19]
Status and challenges of neutrino cross sections, Marco Martini, arXiv:1704.08903, 2017. NuPhys2016 (London, 12-14 December 2016).
[Martini:2017iax]
[3-20]
Recent status of the understanding of neutrino-nucleus cross section, H. Haider, M. Sajjad Athar, S. K. Singh, Springer Proc.Phys. 203 (2018) 43-47, arXiv:1703.02677. DAE-HEP Symposium, Delhi, 12-16 December, 2016.
[Haider:2017qmm]
[3-21]
Prospects for neutrino oscillation parameters, Patrick Huber, PoS NOW2016 (2017) 025, arXiv:1612.04843. NOW2016.
[Huber:2016mki]
[3-22]
Neutrino Interactions and Long-Baseline Experiments, Ulrich Mosel, PoS ICHEP2016 (2016) 504, arXiv:1611.00373. ICHEP 16, Chicago, Aug. 3-10, 2016.
[Mosel:2016inz]
[3-23]
Experimental status of neutrino scattering, Sara Bolognesi, arXiv:1610.04435, 2016. NuFact2015.
[Bolognesi:2016gui]
[3-24]
Recent Developments in Neutrino-Nucleus Scattering (Theory), Satoshi X. Nakamura, arXiv:1610.02639, 2016. 18th International Workshop on Neutrino Factories, Super beams and Beta beams (NuFact2016), August 21-27 2016, Quy Nhon, Vietnam.
[Nakamura:2016xjy]
[3-25]
The physics of neutrino cross sections: theoretical studies, Luis Alvarez-Ruso, arXiv:1605.04861, 2016. NuPhys2015 (London, 16-18 December 2015).
[Alvarez-Ruso:2016gcj]
[3-26]
Neutrino-nucleon cross sections at energies of Megaton-scale detectors, A. Gazizov, M. Kowalski, K. S. Kuzmin, V. A. Naumov, Ch. Spiering, EPJ Web Conf. 116 (2016) 08003, arXiv:1604.02092. VLVnT-2015.
[Gazizov:2016dhn]
[3-27]
Neutrino Cross section Future, Sowjanya Gollapinni, arXiv:1602.05299, 2016. NuPhys2015 (London, 16-18 December 2015). http://inspirehep.net/record/1422050/files/arXiv:1602.05299.pdf.
[Gollapinni:2016wfl]
[3-28]
Progress on nuclear modifications of structure functions, S. Kumano, EPJ Web Conf. 112 (2016) 03003, arXiv:1601.06499. Sixth International Conference on Physics Opportunities at an Electron-Ion Collider (POETIC6), Ecole Polytechnique, Palaiseau, France, September 7-11, 2015.
[Kumano:2016qkk]
[3-29]
The State of the Art of Neutrino Cross Section Measurements, Deborah A. Harris, arXiv:1506.02748, 2015. Prospects in Neutrino Physics Conference, 15 - 17 December, 2014, held at Queen Mary University of London, UK.
[Harris:2015mma]
[3-30]
Neutrino Interactions and Long Baseline Physics, Ulrich Mosel, arXiv:1504.08204, 2015. Prospects in Neutrino Physics Conference, 15 - 17 December, 2014, Queen Mary University of London, UK.
[Mosel:2015yaa]
[3-31]
Electroweak Corrections, Riccardo Barbieri, Adv.Ser.Direct.High Energy Phys. 26 (2016) 79-92, arXiv:1503.08153. The Standard Theory up to the Higgs discovery - 60 years of CERN.
[Barbieri:2015maa]
[3-32]
TASI-2013 Lectures on Flavor Physics, Benjamin Grinstein, arXiv:1501.05283, 2015.
[Grinstein:2015nya]
[3-33]
Recent Advances and Open Questions in Neutrino-induced Quasi-elastic Scattering and Single Photon Production, G. T. Garvey, D. A. Harris, H. A. Tanaka, R. Tayloe, G. P. Zeller, Phys.Rept. 580 (2015) 1-45, arXiv:1412.4294. Institute of Nuclear Theory workshop INT-13-54W.
[Garvey:2014exa]
[3-34]
TASI 2013 lectures on Higgs physics within and beyond the Standard Model, Heather E. Logan, arXiv:1406.1786, 2014.
[Logan:2014jla]
[3-35]
Charged Leptons, J. Albrecht et al. (C. R. Group), arXiv:1311.5278, 2013. 2013 Snowmass Community Summer Study Intensity Frontier Charged Lepton Working Group.
[IntensityFrontierChargedLeptonWorkingGroup:2013lml]
[3-36]
Introduction to the STANDARD MODEL of the Electro-Weak Interactions, Jean Iliopoulos, 2012 CERN Summer School of Particle Physics, Angers : France (2012), arXiv:1305.6779.
[Iliopoulos:2013rna]
[3-37]
The GIM Mechanism: origin, predictions and recent uses, Luciano Maiani, arXiv:1303.6154, 2013. Rencontres de Moriond, EW Interactions and Unified Theories, La Thuile, Valle d'Aosta, Italia, 2-9 March, 2013.
[Maiani:2013fpa]
[3-38]
Universality of the Weak Interactions, Cabibbo theory and where they led us, Luciano Maiani, Rivista del Nuovo Cimento, 34, 679 (2011) 679-692, arXiv:1303.5000.
[Maiani:2011zz]
[3-39]
Neutrino Cross Sections, L. Fields, arXiv:1212.0060, 2012. Physics in Collision, Slovakia, 2012.
[Fields:2012mi]
[3-40]
Neutrino-nucleus interactions, U. Mosel, O. Lalakulich, arXiv:1211.1977, 2012. NUFACT 2012. International Workshop on Neutrino Factories, Super Beams and Beta Beams, July 23-28, 2012. Williamsburg, VA US.
[Mosel:2012kt]
[3-41]
Higgs Physics: Theory, Abdelhak Djouadi, Pramana 79 (2012) 513-539, arXiv:1203.4199. XXV International Symposium on Lepton Photon Interactions at High Energies (Lepton Photon 11), 22-27 August 2011, Mumbai, India.
[Djouadi:2012ua]
[3-42]
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.
[Grojean:2012wp]
[3-43]
Neutrino Interactions, Ronald D. Ransome, arXiv:1111.1154, 2011. Particles in Collision 2011.
[Ransome:2011dx]
[3-44]
The Determination of $\sin^2 \theta_W$ in Neutrino Scattering: no more anomaly, A. W. Thomas, AIP Conf. Proc. 1418 (2011) 147-153, arXiv:1111.0122. Pacific Spin 2011, Cairns Australia.
[Thomas:2011cm]
[3-45]
Charged-Current and Neutral-Current Coherent Pion Productions -- Theoretical Status, Satoshi X. Nakamura, J. Phys. Conf. Ser. 408 (2013) 012043, arXiv:1109.4443. NUFACT 11, XIIIth International Workshop on Neutrino Factories, Super beams and Beta beams, 1-6 August 2011, CERN and University of Geneva.
[Nakamura:2011rt]
[3-46]
Quasi-elastic Neutrino Scattering - an Overwiew, Jan T. Sobczyk, AIP Conf. Proc. 1405 (2011) 59-64, arXiv:1108.0506. NuInt11 Workshop, Dehradun, March 7-11, 2011.
[Sobczyk:2011bi]
[3-47]
Recent Measurements of Neutrino-Nucleus Quasi-Elastic Scattering, M.O. Wascko, Nucl. Phys.B, Proc.Suppl.229-232 2012 (2012) 179-183, arXiv:1107.3400. Neutrino 2010.
[Wascko:2011hy]
[3-48]
Neutrino interactions: challenges in the current theoretical picture, Luis Alvarez-Ruso, Nucl. Phys. Proc. Suppl. 229-232 (2012) 167-173, arXiv:1012.3871. XXIV International Conference on Neutrino Physics and Astrophysics (Neutrino 2010), Athens, Greece, June 14-19, 2010.
[Alvarez-Ruso:2010fye]
[3-49]
The Challanges of Flavour Physics, Gino Isidori, PoS ICHEP2010 (2010) 543, arXiv:1012.1981. ICHEP 2010 (Paris, July 22-28, 2010).
[Isidori:2010je]
[3-50]
Novel QCD Phenomenology, Stanley J. Brodsky, arXiv:1010.1503, 2010. Gribov-80 Memorial Workshop on Quantum Chromodynamics and Beyond, May, 2010, Abdus Salam International Centre for Theoretical Physics. Trieste, Italy.
[Brodsky:2010mk]
[3-51]
TASI Lectures on Effective Field Theory and Precision Electroweak Measurements, Witold Skiba, arXiv:1006.2142, 2010. TASI 2009.
[Skiba:2010xn]
[3-52]
Recent developments in modeling neutrino interactions in 1 GeV energy region, Jan T. Sobczyk, Acta Phys. Polon. B41 (2010) 1491-1507, arXiv:1005.3401. Cracow Epiphany Conference, On Physics in Underground Laboratories and its Connection with LHC, Cracow, January 6-8, 2010.
[Sobczyk:2010zt]
[3-53]
Neutrino physics beyond neutrino masses, F. del Aguila, J. de Blas, A. Carmona, J. Santiago, Fortsch. Phys. 58 (2010) 675-681, arXiv:1003.5799. 9th Hellenic School and Workshops on Elementary Particle Physics and Gravity (CORFU2009), Corfu, Greece, August 30-September 20, 2009.
[delAguila:2010zh]
[3-54]
LHC Detectors and Early Physics, Guenther Dissertori, arXiv:1003.2222, 2010. 65th Scottish Universities Summer School in Physics: LHC Physics (16 August to 29 August 2009), St. Andrews.
[Dissertori:2010xe]
[3-55]
Higgs and Electroweak Physics, S. Heinemeyer, arXiv:0912.0361, 2009. SUSSP65, August 2009, St. Andrews, UK.
[Heinemeyer:2014uoa]
[3-56]
Non-standard Neutrino Interactions, D. Hernandez, arXiv:0911.4764, 2009. 44th Rencontres de Moriond on Electroweak Interactions and Unified Theories.
[Hernandez:2009fr]
[3-57]
Beyond the Standard Model for Montaneros, M. Bustamante, L. Cieri, John Ellis, arXiv:0911.4409, 2009. 2009 Latin-American CERN School of High-Energy Physics, Medellin, Colombia.
[Bustamante:2009us]
[3-58]
Theoretical highlights of neutrino-nucleus interactions, Luis Alvarez-Ruso, AIP Conf. Proc. 1222 (2010) 42-46, arXiv:0911.4112. NuFact09, Chicago, July 20-25, 2009.
[Alvarez-Ruso:2009ict]
[3-59]
A Pedagogical Review of Electroweak Symmetry Breaking Scenarios, Gautam Bhattacharyya, Rept. Prog. Phys. 74 (2011) 026201, arXiv:0910.5095.
[Bhattacharyya:2009gw]
[3-60]
Status of the global electroweak fit of the Standard Model, Andreas Hoecker (Gfitter), PoS EPS-HEP2009 (2009) 366, arXiv:0909.0961. 2009 Europhysics Conference on High Energy Physics, Krakow, Poland, July 16-22, 2009.
[Hoecker:2009gd]
[3-61]
Significance of neutrino cross-sections for astrophysics, A.B. Balantekin, AIP Conf. Proc. 1189 (2009) 11-15, arXiv:0909.0226. NUINT2009 (6th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region), May 18-22, 2009, Sitges, Barcelona, Spain.
[Balantekin:2009qq]
[3-62]
Introduction to the Standard Model and Electroweak Physics, Paul Langacker, arXiv:0901.0241, 2009. TASI2008.
[Langacker:2009my]
[3-63]
Electroweak radiative corrections and heavy top, M. I. Vysotsky, arXiv:0812.2540, 2008. II Helmholtz International Summer School 'Heavy Quark Physics', Dubna, 11-21 August 2008.
[Vysotsky:2008wi]
[3-64]
Electroweak Physics, Jens Erler, Paul Langacker, Acta Phys. Polon. B39 (2008) 2595-2610, arXiv:0807.3023. XXXVI International Meeting on Fundamental Physics, Baeza, Spain, February 2008.
[Erler:2008ek]
[3-65]
Opportunities for Neutrino Physics at the Spallation Neutron Source (SNS), Yu Efremenko, W R Hix, J. Phys. Conf. Ser. 173 (2009) 012006, arXiv:0807.2801. 2008 Carolina International Symposium on Neutrino Physics.
[Efremenko:2008an]
[3-66]
Tau Physics: Theory Overview, A. Pich, Nucl. Phys. Proc. Suppl. 181-182 (2008) 300-305, arXiv:0806.2793. 2008 International Workshop on e+e- collisions from Phi to Psi (PhiPsi08, Frascati, Italy, 7-10 April 2008).
[Pich:2008ni]
[3-67]
Neutrino Interactions, Kevin McFarland, arXiv:0804.3899, 2008. 61st Scottish Universities Summer School in Physics.
[McFarland:2008xd]
[3-68]
Progress in measuring neutrino quasielastic interactions, Richard Gran, AIP Conf. Proc. 967 (2007) 141-148, arXiv:0711.3024. 5th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt07).
[Gran:2007kn]
[3-69]
Overview of progress in neutrino scattering measurements, M. Sorel, AIP Conf. Proc. 967 (2007) 17-24, arXiv:0710.3966. 5th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt07), Batavia, Illinois, 30 May - 3 Jun 2007.
[Sorel:2007iv]
[3-70]
Ten Lectures on the ElectroWeak Interactions, Riccardo Barbieri, arXiv:0706.0684, 2007.
[Barbieri:2007gi]
[3-71]
The Standard Model of Electroweak Interactions, Antonio Pich, arXiv:0705.4264, 2007. 2006 European School of High Energy Physics (Aronsborg, Sweden, 18 June - 1 July 2006) and 4th CERN - CLAF School of High Energy Physics (Vina del Mar, Chile, 18 February - 3 March 2007).
[Pich:2007vu]
[3-72]
Introduction to the Terascale, Guido Altarelli, arXiv:hep-ph/0611025, 2006. SLAC Summer Institute, July 2006.
[Altarelli:2006wv]
[3-73]
Electroweak Physics: Theoretical Overview, Doreen Wackeroth, arXiv:hep-ph/0610058, 2006. Hadron Collider Physics Symposium 2006 (HCP 2006) at Duke University, Durham, North Carolina.
[Wackeroth:2006pj]
[3-74]
Theoretical overview of atomic parity violation, Andrei Derevianko, Sergey G. Porsev, Eur. Phys. J. A32 (2007) 517-523, arXiv:hep-ph/0608178. 3rd International Workshop on From parity violation to hadronic structure and more (PAVI 2006), Milos, Greece, May 16-20, 2006.
[Derevianko:2006sf]
[3-75]
Electroweak Physics at LHC, Jens Erler, arXiv:hep-ph/0607323, 2006. 3rd International Workshop 'From Parity Violation to Hadronic Structure and more...' (PAVI06), Milos Island, Greece, May 16-20, 2006.
[Erler:2006su]
[3-76]
Electroweak physics and physics beyond the Standard Model, L. Bellagamba, E. Sauvan, H. Spiesberger, arXiv:hep-ph/0607273, 2006. XIV International Workshop on Deep Inelastic Scattering, DIS2006, Tsukuba, Japan, 2006, April 20 - 24.
[Bellagamba:2006ax]
[3-77]
NuInt05 Session Two Summary: New Experimental Results in Neutrino Scattering Physics, L. Ludovici, K.S. McFarland, M. Shiozawa, G.P. Zeller, Nucl. Phys. Proc. Suppl. 159 (2006) 35-37, arXiv:hep-ph/0603002. 4th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt05), Okayama, Japan, September 26-29, 2005.
[Ludovici:2006bm]
[3-78]
NuFact05 Working Group 2 Summary: Experimental Results in Neutrino Scattering Physics, G.P. Zeller, Nucl. Phys. Proc. Suppl. 155 (2006) 111, arXiv:hep-ph/0603001. 7th International Workshop on Neutrino Factories and Superbeams (NuFact05), Rome, Italy, June 21-26, 2005.
[Zeller:2006bk]
[3-79]
Low-Energy Hadron Production Data and Current Status of CERN Measurements, Giles Barr, Ralph Engel, Nucl. Phys. Proc. Suppl. 151 (2006) 175, arXiv:astro-ph/0504356. XIII ISVHECRI, Pylos (Greece), Sept. 2004.
[Barr:2005gd]
[3-80]
The LEP legacy, Giorgio Giacomelli, Roberto Giacomelli, arXiv:hep-ex/0503050, 2005.
[Giacomelli:2005sw]
[3-81]
Polarized structure functions with neutrino beams, Stefano Forte, arXiv:hep-ph/0501020, 2005. SPIN2004.
[Forte:2005pv]
[3-82]
Symmetries of the Standard Model, Scott Willenbrock, arXiv:hep-ph/0410370, 2004. TASI 2004.
[Willenbrock:2004hu]
[3-83]
Neutrino-nucleus interactions: open questions and future projects, Cristina Volpe, Nucl. Phys. Proc. Suppl. 143 (2005) 43, arXiv:hep-ph/0409249. Neutrino2004, 14-19 June 2004, Paris.
[Volpe:2004dg]
[3-84]
ElectroWeak Symmetry Breaking as of 2003, on the way to the Large Hadron Collider, Riccardo Barbieri, arXiv:hep-ph/0312253, 2003. Cargese School of Physics and Cosmology - August 2003 - Cargese - France.
[Barbieri:2003dd]
[3-85]
Lepton Dipole Moments, B. Lee Roberts, Aip Conf. Proc. 698 (2004) 13, arXiv:hep-ex/0309010. Conference on the Intersections of Particle And Nuclear Physics (CIPANP2003).
[Roberts:2003je]
[3-86]
Heavy flavour electroweak physics review, Wolfgang Liebig (DELPHI), arXiv:hep-ex/0307044, 2003. XXXVIII-th Rencontres de Moriond: Electroweak Interactions and Unified Theories.
[Liebig:2003vx]
[3-87]
Electroweak Physics, Martin W. Grunewald, Nucl. Phys. Proc. Suppl. 117 (2003) 280, arXiv:hep-ex/0210003. 31st ICHEP, Amsterdam, The Netherlands, July 24-31, 2002.
[Grunewald:2002wg]
[3-88]
Thirty Years of Precision Electroweak Physics, Alberto Sirlin, J. Phys. G29 (2003) 213, arXiv:hep-ph/0209079. J.J.Sakurai Prize Talk, APS Meeting, Albuquerque, N.M., April 2002.
[Sirlin:2002vp]
[3-89]
The Electroweak Theory, Chris Quigg, arXiv:hep-ph/0204104, 2002. Flavor Physics for the Millennium: TASI 2000.
[Quigg:2002td]
[3-90]
Coherent neutrino nucleus scattering, L. Oberauer, Prog. Part. Nucl. Phys. 48 (2002) 301-304. International School of Nuclear Physics, 23rd Course, Erice, Italy, September 18-26, 2001.
[Oberauer:2002kk]
[3-91]
Standard model: An introduction, S. F. Novaes, arXiv:hep-ph/0001283, 2000. 10th Jorge Andre Swieca Summer School: Particle and Fields, Sao Paulo, Brazil, 31 Jan - 12 Feb 1999.
[Novaes:1999yn]
[3-92]
The standard model and the neutron beta-decay, H. Abele, Nucl. Instrum. Meth. A440 (2000) 499-510. Workshop on Particle Physics with Slow Neutrons, Grenoble, France, 22-24 Oct 1998.
[Abele:2000ar]
[3-93]
A Practical introduction to electroweak radiative corrections, Manuel Drees, 1991. Workshop on High-energy Physics Phenomenology II Calcutta, India, January 2-15, 1991. http://www-library.desy.de/cgi-bin/showprep.pl?DESY-91-045.
[Drees:1991rd]

4 - Habilitation, PhD and Master Theses

[4-1]
Particle physics in the sub-keV energy regime, Charles Mark Lewis, arXiv:2310.01314, 2023.
[Lewis:2023sbl]
[4-2]
Neutrino properties from the laboratory and the cosmos, Pablo Martinez-Mirave, arXiv:2309.15446, 2023.
[Martinez-Mirave:2023fyb]
[4-3]
Development of energy calibration and data analysis systems for the NUCLEUS experiment, Giorgio Del Castello, arXiv:2302.02843, 2023.
[DelCastello:2021bwi]
[4-4]
Lepton-Nucleus Scattering Measurements for Neutrino Interactions and Oscillations, Afroditi Papadopoulou, arXiv:2301.03114, 2023.
[Papadopoulou:2022obh]
[4-5]
Leptonic CP Violation and its Origin, Ivan Esteban, arXiv:2010.00440, 2020.
[Esteban:2020opq]
[4-6]
New constraints for nuclear parton distribution functions from hadron-nucleus collision processes, Petja Paakkinen, arXiv:1912.08156, 2019.
[Paakkinen:2019vql]
[4-7]
Neutrino interactions in neutron matter, Andrea Cipollone, arXiv:1212.5849, 2012.
[Cipollone:2012rb]

5 - V-A Interaction - Original Papers

[5-1]
Theory of the Fermi interaction, R. P. Feynman, Murray Gell-Mann, Phys. Rev. 109 (1958) 193-198.
[Feynman:1958ty]
[5-2]
Mass reversal and weak interactions, J. J. Sakurai, Nuovo Cim. 7 (1958) 649-660.
[Sakurai:1958zz]
[5-3]
Chirality invariance and the universal Fermi interaction, E. C. G. Sudarshan, R. E. Marshak, Phys. Rev. 109 (1958) 1860-1862.
[Sudarshan:1958vf]
[5-4]
S.S. Gerstein, Y.B. Zeldovich, Sov. Phys. JETP 2 (1956) 576.
[Gerstein-Zeldovich-CVC-1956]

6 - Fundamental Papers - Experiment

[6-1]
Observation of muonless neutrino induced inelastic interactions, A. C. Benvenuti et al., Phys. Rev. Lett. 32 (1974) 800-803.
[Benvenuti:1974xq]
[6-2]
Observation of neutrino like interactions without muon or electron in the Gargamelle neutrino experiment, F. J. Hasert et al. (Gargamelle), Nucl. Phys. B73 (1974) 1.
[GargamelleNeutrino:1974khg]
[6-3]
Observation of neutrino-like interactions without muon or electron in the Gargamelle neutrino experiment, F. J. Hasert et al. (Gargamelle), Phys. Lett. B46 (1973) 138-140.
[GargamelleNeutrino:1973jyy]
[6-4]
Search for elastic muon neutrino electron scattering, F. J. Hasert et al. (Gargamelle), Phys. Lett. B46 (1973) 121-124.
[Hasert:1973cr]
[6-5]
Detection of the free anti-neutrino, F. Reines, C. L. Cowan, F. B. Harrison, A. D. McGuire, H. W. Kruse, Phys. Rev. 117 (1960) 159-173.
[Reines:1960pr]
[6-6]
Free anti-neutrino absorption cross-section. 2: Expected cross-section from measurements of fission fragment electron spectrum, R. E. Carter, F. Reines, J. J. Wagner, M. E. Wyman, Phys. Rev. 113 (1959) 280-286.
[Carter:1959qm]
[6-7]
Free anti-neutrino absorption cross-section. 1: Measurement of the free anti-neutrino absorption cross-section by protons, F. Reines, C. L. Cowan, Phys. Rev. 113 (1959) 273.
[Reines:1959nc]
[6-8]
Search for anti-neutrino interaction with deuterons, C. L. Cowan, F. Reines, Phys. Rev. 107 (1957) 1609-1611.
[Cowan:1957pj]
[6-9]
Experimental test of parity conservation in beta decay, C. S. Wu, E. Ambler, R. W. Hayward, D. D. Hoppes, R. P. Hudson, Phys. Rev. 105 (1957) 1413-1414.
[Wu:1957my]
[6-10]
C. L. Cowan, F. Reines, F. B. Harrison, H. W. Kruse, A. D. McGuire, Science 125 (1956) 103.
[Cowan-Reines-Harrison-Kruse-McGuire-Science-125-103-1956]
[6-11]
Attempt to Detect the Antineutrinos from a Nuclear Reactor by the $ {}^{37}\text{Cl} ( \bar\nu, e^{-} ) {}^{37}\text{Ar} $ Reaction, R. Davis, Phys. Rev. 97 (1955) 766-769.
[Davis-PR-97-766-1955]
[6-12]
Detection of the free neutrino, F. Reines, C. L. Cowan, Phys. Rev. 92 (1953) 830-831.
Comment: Nobel Prize in Physics 1995.
[Reines:1953pu]
[6-13]
Note on the nature of cosmic ray particles, S. H. Neddermeyer, C. D. Anderson, Phys. Rev. 51 (1937) 884-886.
[Neddermeyer:1937md]
[6-14]
New evidence for the existence of a particle of mass intermediate between the proton and electron, J. C. Street, E. C. Stevenson, Phys. Rev. 52 (1937) 1003-1004.
[Street:1937me]
[6-15]
Possible existence of a neutron, J. Chadwick, Nature 129 (1932) 312.
Comment: Nobel Prize in Physics 1935.
[Chadwick:1932ma]

7 - Fundamental Papers - Theory

[7-1]
Radiative corrections to $\pi_{l2}$ decays, William J. Marciano, A. Sirlin, Phys. Rev. Lett. 71 (1993) 3629-3632.
[Marciano:1993sh]
[7-2]
Tests for neutral currents in neutrino reactions, E. A. Paschos, L. Wolfenstein, Phys. Rev. D7 (1973) 91-95.
[Paschos:1972kj]
[7-3]
High-energy neutrino - nucleon scattering, current algebra and partons, David J. Gross, Chris H. Llewellyn Smith, Nucl. Phys. B14 (1969) 337-347.
[Gross:1969jf]
[7-4]
Inequality for backward electron - nucleon and muon - nucleon scattering at high momentum transfer, J. D. Bjorken, Phys. Rev. 163 (1967) 1767-1769.
Comment: Bjorken sum rule.
[Bjorken:1967px]
[7-5]
Sum rules giving tests of local current commutation relations in high-energy neutrino reactions, Stephen L. Adler, Phys. Rev. 143 (1966) 1144-1155.
Comment: Adler sum rule.
[Adler:1965ty]
[7-6]
The axial vector current in beta decay, Murray Gell-Mann, M Levy, Nuovo Cim. 16 (1960) 705.
[Gell-Mann:1960np]
[7-7]
Decay of the pi meson, M. L. Goldberger, S. B. Treiman, Phys. Rev. 110 (1958) 1178-1184.
[Goldberger:1958tr]
[7-8]
Form-factors in Beta decay and muon capture, M. L. Goldberger, S. B. Treiman, Phys. Rev. 111 (1958) 354-361.
[Goldberger:1958vp]
[7-9]
Charge symmetry of weak interactions, Steven Weinberg, Phys. Rev. 112 (1958) 1375-1379.
[Weinberg:1958ut]
[7-10]
Selection rules for the $\beta$-disintegration, G. Gamow, E. Teller, Phys. Rev. 49 (1936) 895-899.
[Gamow:1936jk]
[7-11]
Attempt at a theory of $\beta$ rays, E. Fermi, Z. Phys. 88 (1934) 161-177. In German.
[Fermi:1934hr]
[7-12]
Attempt at a theory of $\beta$ rays, E. Fermi, Nuovo Cim. 11 (1934) 1-19. In Italian.
[Fermi:1934sk]
[7-13]
Attempt at a theory of the emission of $\beta$ rays, E. Fermi, Ricerca Scientifica 4 (1933) 491. In Italian.
[Fermi-1933]

8 - Fundamental Papers - Phenomenology

[8-1]
Atomic Effects in Coherent Neutrino Scattering, L. M. Sehgal, M. Wanninger, Phys. Lett. B171 (1986) 107-112.
[Sehgal:1986gn]
[8-2]
Principles and Applications of a Neutral Current Detector for Neutrino Physics and Astronomy, A. Drukier, Leo Stodolsky, Phys. Rev. D30 (1984) 2295.
[Drukier:1984vhf]
[8-3]
Coherent neutrino nucleus scattering as a probe of the weak neutral current, Daniel Z. Freedman, Phys. Rev. D9 (1974) 1389-1392.
[Freedman:1973yd]
[8-4]
Electron and muon neutrinos, B. Pontecorvo, Sov. Phys. JETP 10 (1960) 1236-1240.
[Pontecorvo:1959sn]
[8-5]
Feasibility of using high-energy neutrinos to study the weak interactions, M. Schwartz, Phys. Rev. Lett. 4 (1960) 306-307.
[Schwartz:1960hg]

9 - Experiment

[9-1]
First simultaneous measurement of differential muon-neutrino charged-current cross sections on argon for final states with and without protons using MicroBooNE data, P. Abratenko et al. (MicroBooNE), arXiv:2402.19281, 2024.
[MicroBooNE:2024klj]
[9-2]
Inclusive cross section measurements in final states with and without protons for charged-current $\nu_\mu$-Ar scattering in MicroBooNE, P. Abratenko et al. (MicroBooNE), arXiv:2402.19216, 2024.
[MicroBooNE:2024xod]
[9-3]
Charged-current non-standard neutrino interactions at Daya Bay, F. P. An et al. (Daya Bay), arXiv:2401.02901, 2024.
[DayaBay:2024hya]
[9-4]
Measurement of Electron Neutrino and Antineutrino Cross Sections at Low Momentum Transfer, S. Henry et al. (MINERvA), arXiv:2312.16631, 2023.
[MINERvA:2023ner]
[9-5]
Measurement of the neutrino-oxygen neutral-current quasielastic cross section using atmospheric neutrinos in the SK-Gd experiment, S. Sakai et al., Phys.Rev.D 109 (2024) L011101, arXiv:2311.03842.
[Super-Kamiokande:2023oxd]
[9-6]
Measurement of the Multi-Neutron $\bar{\nu}_{\mu}$ Charged Current Differential Cross Section at Low Available Energy on Hydrocarbon, A. Olivier et al. (MINERvA), Phys.Rev.D 108 (2023) 112010, arXiv:2310.17014.
[MINERvA:2023ikp]
[9-7]
Measurement of nuclear effects in neutrino-argon interactions using generalized kinematic imbalance variables with the MicroBooNE detector, P. Abratenko et al. (MicroBooNE), arXiv:2310.06082, 2023.
[MicroBooNE:2023wzy]
[9-8]
Measurements of the $\nu_{\mu}$ and $\bar{\nu}_{\mu}$-induced Coherent Charged Pion Production Cross Sections on $^{12}C$ by the T2K experiment, K. Abe et al. (T2K), Phys.Rev.D 108 (2023) 092009, arXiv:2308.16606.
[T2K:2023xlh]
[9-9]
Measurement of triple-differential inclusive muon-neutrino charged-current cross section on argon with the MicroBooNE detector, P. Abratenko et al., arXiv:2307.06413, 2023.
[MicroBooNE:2023foc]
[9-10]
New Measurements of $^{71}$Ge Decay: Impact on the Gallium Anomaly, J. I. Collar, S. G. Yoon, Phys.Rev.C 108 (2023) L021602, arXiv:2307.05353.
[Collar:2023yew]
[9-11]
Measurement of $\nu_\mu$ Charged-Current Inclusive $\pi^0$ Production in the NOvA Near Detector, M. A. Acero et al. (NOvA), Phys.Rev.D 107 (2023) 112008, arXiv:2306.04028.
[NOvA:2023uxq]
[9-12]
Potential Constraints to Neutrino-Nucleus Interactions Based on Electron Scattering Data, V. Pandey, Phys. Sci. Forum 2023 (2023) 8, arXiv:2306.03896.
[Pandey:2023xlm]
[9-13]
Measurements of $\pi^+$, $\pi^-$, $p$, $\bar{p}$, $K^+$ and $K^-$ production in 120 GeV/$c$ p + C interactions, H. Adhikary et al., Phys.Rev.D 108 (2023) 072013, arXiv:2306.02961.
[NA61SHINE:2023bqo]
[9-14]
Observation of collider muon neutrinos with the SND@LHC experiment, Catherine L. Albanese, Jerald C. Brauer (SND@LHC), Phys.Rev.Lett. 131 (2023) 031802, arXiv:2305.09383.
[SNDLHC:2023pun]
[9-15]
First measurement of muon neutrino charged-current interactions on hydrocarbon without pions in the final state using multiple detectors with correlated energy spectra at T2K, K. Abe et al. (T2K), Phys.Rev.D 108 (2023) 112009, arXiv:2303.14228.
[T2K:2023qjb]
[9-16]
First Direct Observation of Collider Neutrinos with FASER at the LHC, Henso Abreu et al. (FASER), Phys.Rev.Lett. 131 (2023) 031801, arXiv:2303.14185.
[FASER:2023zcr]
[9-17]
First double-differential measurement of kinematic imbalance in neutrino interactions with the MicroBooNE detector, P. Abratenko et al. (MicroBooNE), arXiv:2301.03706, 2023.
[MicroBooNE:2023jyj]
[9-18]
Multi-Differential Cross Section Measurements of Muon-Neutrino-Argon Quasielastic-like Reactions with the MicroBooNE Detector, P. Abratenko et al. (MicroBooNE), Phys.Rev.D 108 (2023) 053002, arXiv:2301.03700.
[MicroBooNE:2023cmw]
[9-19]
Simultaneous measurement of muon neutrino quasielastic-like cross sections on CH, C, water, Fe, and Pb as a function of muon kinematics at MINERvA, J. Kleykamp et al. (MINERvA), Phys.Rev.Lett. 130 (2023) 161801, arXiv:2301.02272.
[MINERvA:2023kuz]
[9-20]
Measurement of ${}^{nat}$Pb($\nu_e$,X$n$) production with a stopped-pion neutrino source, P. An et al. (COHERENT), arXiv:2212.11295, 2022.
[COHERENT:2022eoh]
[9-21]
First measurement of quasi-elastic $\Lambda$ baryon production in muon anti-neutrino interactions in the MicroBooNE detector, P. Abratenko et al. (MicroBooNE), Phys.Rev.Lett. 130 (2023) 231802, arXiv:2212.07888.
[MicroBooNE:2022cls]
[9-22]
First measurement of the strange axial coupling constant using neutral-current quasi-elastic interactions of atmospheric neutrinos at KamLAND, S. Abe et al. (KamLAND), Phys.Rev.D 107 (2023) 072006, arXiv:2211.13911.
[KamLAND:2022ptk]
[9-23]
High-Statistics Measurement of Antineutrino Quasielastic-like scattering at $E_\nu \sim$ 6\textasciitilde{}GeV on a Hydrocarbon Target, A. Bashyal et al. (MINERvA), Phys.Rev.D 108 (2023) 032018, arXiv:2211.10402.
[MINERvA:2022bno]
[9-24]
First Measurement of Differential Cross Sections for Muon Neutrino Charged Current Interactions on Argon with a Two-proton Final State in the MicroBooNE Detector, P. Abratenko et al. (MicroBooNE), arXiv:2211.03734, 2022.
[MicroBooNE:2022emb]
[9-25]
Neutrino-induced coherent $\pi^{+}$ production in C, CH, Fe and Pb at $\langle E_{\nu}\rangle \sim 6$ GeV, M. A. Ramirez et al. (MINERvA), arXiv:2210.01285, 2022.
[MINERvA:2022fiv]
[9-26]
Simultaneous measurement of muon neutrino $\nu_\mu$ charged-current single $\pi^+$ production in CH, C, H$_2$O, Fe, and Pb targets in MINERvA, A. Bercellie et al. (MINERvA), Phys.Rev.Lett. 131 (2023) 011801, arXiv:2209.07852.
[MINERvA:2022djk]
[9-27]
Improved constraint on the MINERvA medium energy neutrino flux using $\bar{\nu}e^{-} \!\rightarrow \bar{\nu}e^{-}$ data, L. Zazueta et al. (MINERvA), Phys.Rev.D 107 (2023) 012001, arXiv:2209.05540.
[MINERvA:2022vmb]
[9-28]
Differential cross section measurement of charged current $\nu_{e}$ interactions without final-state pions in MicroBooNE, P. Abratenko et al. (MicroBooNE), Phys.Rev.D 106 (2022) L051102, arXiv:2208.02348.
[MicroBooNE:2022hun]
[9-29]
Measurement of the $\nu_e-$Nucleus Charged-Current Double-Differential Cross Section at $\left < E_{\nu} \right > = $ 2.4 GeV using NOvA, M. A. Acero et al. (NOvA), Phys.Rev.Lett. 130 (2023) 051802, arXiv:2206.10585.
[NOvA:2022see]
[9-30]
Measurement of neutral current single $\pi^0$ production on argon with the MicroBooNE detector, P. Abratenko et al. (MicroBooNE), Phys.Rev.D 107 (2023) 012004, arXiv:2205.07943.
[MicroBooNE:2022zhr]
[9-31]
Measurements of protons and charged pions emitted from $\nu_\mu$ charged-current interactions on iron at a mean neutrino energy of 1.49$\,$GeV using a nuclear emulsion detector, H. Oshima et al. (NINJA), Phys.Rev.D 106 (2022) 032016, arXiv:2203.08367.
[NINJA:2022zbi]
[9-32]
Simultaneous measurement of proton and lepton kinematics in quasielastic-like $\nu_{\mu}$-hydrocarbon interactions from 2 to 20 GeV, D. Ruterbories et al. (MINERvA), Phys.Rev.Lett. 129 (2022) 021803, arXiv:2203.08022.
[MINERvA:2022mnw]
[9-33]
Determination of the argon spectral function from $(e,e'p)$ data, L. Jiang et al. (Jefferson Lab Hall A), Phys.Rev.D 105 () 112002, arXiv:2203.01748.
[JeffersonLabHallA:2022cit]
[9-34]
New Theory-driven GENIE Tune for MicroBooNE, P. Abratenko et al. (MicroBooNE), Phys.Rev.D 105 (2022) 072001, arXiv:2110.14028.
[MicroBooNE:2021ccs]
[9-35]
First Measurement of Energy-dependent Inclusive Muon Neutrino Charged-Current Cross Sections on Argon with the MicroBooNE Detector, P. Abratenko et al. (MicroBooNE), Phys.Rev.Lett. 128 (2022) 151801, arXiv:2110.14023.
[MicroBooNE:2021sfa]
[9-36]
Measurement of inclusive charged-current $\nu_{\mu}$ scattering on hydrocarbon at $\langle E_\nu \rangle \sim 6$ GeV with low three-momentum transfer, M. V. Ascencio et al. (MINERvA), Phys.Rev.D 106 (2022) 032001, arXiv:2110.13372.
[MINERvA:2021wjs]
[9-37]
Search for Neutrino-Induced Neutral Current $\Delta$ Radiative Decay in MicroBooNE and a First Test of the MiniBooNE Low Energy Excess Under a Single-Photon Hypothesis, P. Abratenko et al. (MicroBooNE), Phys.Rev.Lett. 128 (2022) 111801, arXiv:2110.00409.
[MicroBooNE:2021zai]
[9-38]
Measurement of the double-differential muon-neutrino charged-current inclusive cross section in the NOvA near detector, M. A. Acero et al. (NOvA), Phys. Rev. D 107 (2023) 052011, arXiv:2109.12220.
[NOvA:2021eqi]
[9-39]
First Measurement of Inclusive Electron-Neutrino and Antineutrino Charged Current Differential Cross Sections in Charged Lepton Energy on Argon in MicroBooNE, P. Abratenko et al. (MicroBooNE), Phys.Rev.D 105 (2022) L051102, arXiv:2109.06832.
[MicroBooNE:2021ppm]
[9-40]
Measurement of inclusive charged-current $\nu_\mu$ cross sections as a function of muon kinematics at $ < E_\nu > \sim6~GeV$ on hydrocarbon, D. Ruterbories et al. (MINERvA), Phys.Rev.D 104 (2021) 092007, arXiv:2106.16210.
[MINERvA:2021owq]
[9-41]
First neutrino interaction candidates at the LHC, Henso Abreu et al. (FASER), Phys.Rev.D 104 (2021) L091101, arXiv:2105.06197.
[FASER:2021mtu]
[9-42]
First T2K measurement of transverse kinematic imbalance in the muon-neutrino charged-current single-$\pi^+$ production channel containing at least one proton, K. Abe et al. (T2K), Phys.Rev. D103 (2021) 112009, arXiv:2102.03346.
[T2K:2021naz]
[9-43]
Search for three body pion decays ${\pi}^+{\to}l^+{\nu}X$, A. Aguilar-Arevalo et al. (PIENU), Phys.Rev. D103 (2021) 052006, arXiv:2101.07381.
[PIENU:2021clt]
[9-44]
Measurement of the Flux-Averaged Inclusive Charged-Current Electron Neutrino and Antineutrino Cross Section on Argon using the NuMI Beam and the MicroBooNE Detector, P. Abratenko et al. (MicroBooNE), Phys.Rev.D 104 (2021) 052002, arXiv:2101.04228.
[MicroBooNE:2021gfj]
[9-45]
First measurement using a nuclear emulsion detector of the $\nu_\mu$ charged-current cross section on iron around the 1$\,$GeV energy region, H. Oshima et al. (NINJA), PTEP 2021 (2021) 033C01, arXiv:2012.05221.
[NINJA:2020bvx]
[9-46]
Measurement of the high-energy all-flavor neutrino-nucleon cross section with IceCube, R. Abbasi et al., arXiv:2011.03560, 2020.
[IceCube:2020rnc]
[9-47]
Measurement of Differential Cross Sections for $\nu_\mu$-Ar Charged-Current Interactions with Protons and no Pions in the Final State with the MicroBooNE Detector, P. Abratenko et al. (MicroBooNE), Phys.Rev. D102 (2020) 112013, arXiv:2010.02390.
[MicroBooNE:2020akw]
[9-48]
First measurement of $\overline{\nu}_{\mu}$ and $\nu_{\mu}$ charged-current inclusive interactions on water using a nuclear emulsion detector, A. Hiramoto et al., Phys.Rev. D102 (2020) 072006, arXiv:2008.03895.
[NINJA:2020gbg]
[9-49]
Adjusting Neutrino Interaction Models and Evaluating Uncertainties using NOvA Near Detector Data, M.A. Acero et al. (NOvA), Eur.Phys.J. C80 (2020) 1119, arXiv:2006.08727.
[NOvA:2020rbg]
[9-50]
First Measurement of Differential Charged Current Quasielastic-like $\nu_\mu$-Argon Scattering Cross Sections with the MicroBooNE Detector, P. Abratenko et al. (MicroBooNE), Phys.Rev.Lett. 125 (2020) 201803, arXiv:2006.00108.
[MicroBooNE:2020fxd]
[9-51]
Measurements of $\bar\nu_\mu$ and $\bar\nu_\mu + \nu_\mu$ charged-current cross-sections without detected pions nor protons on water and hydrocarbon at mean antineutrino energy of 0.86 GeV, K. Abe et al. (T2K), PTEP 2021 (2021) 043C01, arXiv:2004.13989.
[T2K:2020txr]
[9-52]
Simultaneous measurement of the muon neutrino charged-current cross section on oxygen and carbon without pions in the final state at T2K, K. Abe et al. (T2K), Phys.Rev. D101 (2020) 112004, arXiv:2004.05434.
[T2K:2020jav]
[9-53]
First Measurement of Electron Neutrino Scattering Cross Section on Argon, R. Acciarri et al. (ArgoNeuT), Phys.Rev. D102 (2020) 011101, arXiv:2004.01956.
[ArgoNeuT:2020kir]
[9-54]
Double-Differential Inclusive Charged-Current $\nu_\mu$ Cross Sections on Hydrocarbon in MINERvA at $\langle E_\nu \rangle \sim$ 3.5 GeV, A. Filkins et al. (MINERvA), Phys.Rev.D 101 (2020) 112007, arXiv:2002.12496.
[MINERvA:2020zzv]
[9-55]
First combined measurement of the muon neutrino and antineutrino charged-current cross section without pions in the final state at T2K, K. Abe et al. (T2K), Phys.Rev. D101 (2020) 112001, arXiv:2002.09323.
[T2K:2020sbd]
[9-56]
Probing Nuclear Effects with Neutrino-induced Charged-Current Neutral Pion Production, D. Coplowe et al. (MINERvA), Phys.Rev. D102 (2020) 072007, arXiv:2002.05812.
[MINERvA:2020anu]
[9-57]
First observation of a tau neutrino charged current interaction with charm production in the Opera experiment, N. Agafonova et al. (OPERA), Eur.Phys.J. C80 (2020) 699, arXiv:1912.11012.
[OPERA:2019soy]
[9-58]
High-statistics measurement of neutrino quasielastic-like scattering at < E_nu > =~6 GeV on a hydrocarbon target, M. F. Carneiro et al. (MINERvA), Phys.Rev.Lett. 124 (2020) 121801, arXiv:1912.09890.
[MINERvA:2019gsf]
[9-59]
Measurement of neutrino and antineutrino neutral-current quasielastic-like interactions on oxygen by detecting nuclear de-excitation $\gamma$-rays, K. Abe et al. (T2K), Phys.Rev. D100 (2019) 112009, arXiv:1910.09439.
[T2K:2019zqh]
[9-60]
Light vector mediator search in the low-energy data of the CONNIE reactor neutrino experiment, Alexis Aguilar-Arevalo et al. (CONNIE), JHEP 2004 (2020) 054, arXiv:1910.04951.
[CONNIE:2019xid]
[9-61]
Measurement of the muon neutrino charged-current single $\pi^+$ production on hydrocarbon % C$_8$H$_8$ using the T2K off-axis near detector ND280, K. Abe et al. (T2K), Phys.Rev. D101 (2020) 012007, arXiv:1909.03936.
[T2K:2019yqu]
[9-62]
Measurement of $\bar{\nu}_{\mu}$ charged-current single $\pi^{-}$ production on hydrocarbon in the few-GeV region using MINERvA, T. Le et al. (MINERvA), Phys.Rev. D100 (2019) 052008, arXiv:1906.08300.
[MINERvA:2019rhx]
[9-63]
First Measurement of Inclusive Muon Neutrino Charged Current Differential Cross Sections on Argon at $E_\nu \sim 0.8$ GeV with the MicroBooNE Detector, C. Adams et al. (MicroBooNE), Phys.Rev.Lett. 123 (2019) 131801, arXiv:1905.09694.
[MicroBooNE:2019nio]
[9-64]
Measurement of the $\nu_\mu$ charged-current cross sections on water, hydrocarbon, iron, and their ratios with the T2K on-axis detectors, K. Abe et al. (T2K), PTEP 2019 (2019) 093C02, arXiv:1904.09611.
[T2K:2019dgm]
[9-65]
Search for neutral-current induced single photon production at the ND280 near detector in T2K, K. Abe et al. (T2K), J.Phys. G46 (2019) 08LT01, arXiv:1902.03848.
[T2K:2019odo]
[9-66]
Measurement of Neutrino-Induced Neutral-Current Coherent $\pi^0$ Production in the NOvA Near Detector, M. A. Acero et al. (NOvA), Phys.Rev. D102 (2020) 012004, arXiv:1902.00558.
[NOvA:2019bdw]
[9-67]
Measurement of neutrino-oxygen neutral-current quasi-elastic cross section using atmospheric neutrinos at Super-Kamiokande, L. Wan et al. (Super-Kamiokande), Phys.Rev. D99 (2019) 032005, arXiv:1901.05281.
[Super-Kamiokande:2019hga]
[9-68]
Neutron measurements from anti-neutrino hydrocarbon reactions, M. Elkins et al. (MINERvA), Phys.Rev. D100 (2019) 052002, arXiv:1901.04892.
[MINERvA:2019wqe]
[9-69]
Measurement of Quasielastic-Like Neutrino Scattering at $\left < E_\nu \right > \sim 3.5$~ GeV on a Hydrocarbon Target, D. Ruterbories et al. (MINERvA), Phys.Rev. D99 (2019) 012004, arXiv:1811.02774.
[MINERvA:2018hqn]
[9-70]
First Measurement of $\nu_\mu$ Charged-Current $\pi^{0}$ Production on Argon with a LArTPC, C. Adams et al. (MicroBooNE), Phys.Rev. D99 (2019) 091102, arXiv:1811.02700.
[MicroBooNE:2018neo]
[9-71]
Demonstration of MeV-Scale Physics in Liquid Argon Time Projection Chambers Using ArgoNeuT, R. Acciarri et al. (ArgoNeuT), Phys.Rev. D99 (2019) 012002, arXiv:1810.06502.
[ArgoNeuT:2018tvi]
[9-72]
Comparison of $\nu_\mu$-Ar multiplicity distributions observed by MicroBooNE to GENIE model predictions, C. Adams et al., Eur.Phys.J. C79 (2019) 248, arXiv:1805.06887.
[MicroBooNE:2018xad]
[9-73]
Measurement of final-state correlations in neutrino muon-proton mesonless production on hydrocarbon at $\langle E_\nu\rangle=3$ GeV, X. -G. Lu et al. (MINERvA), Phys. Rev. Lett. 121 (2018) 022504, arXiv:1805.05486.
[MINERvA:2018hba]
[9-74]
Measurements of total production cross sections for $\pi^{+}$+C, $\pi^{+}$+Al, $K^{+}$+C, and $K^{+}$+Al at 60 GeV/c and $\pi^{+}$+C and $\pi^{+}$+Al at 31 GeV/c, A. Aduszkiewicz et al., Phys.Rev. D98 (2018) 052001, arXiv:1805.04546.
[NA61SHINE:2018hif]
[9-75]
First measurement of the cross section for $\nu_\mu$ and $\bar{\nu}_\mu$ induced single charged pion production on argon using ArgoNeuT, R. Acciarri et al. (ArgoNeuT), Phys.Rev. D98 (2018) 052002, arXiv:1804.10294.
[ArgoNeuT:2018und]
[9-76]
Anti-neutrino charged-current reactions on scintillator with low momentum transfer, R. Gran et al. (MINERvA), Phys.Rev.Lett. 120 (2018) 221805, arXiv:1803.09377.
[MINERvA:2018nab]
[9-77]
First Measurement of the {Ti}$(e,e^\prime){\rm X}$ Cross Section at Jefferson Lab, H. Dai et al., Phys.Rev. C98 (2018) 014617, arXiv:1803.01910.
[JeffersonLabHallA:2018zyx]
[9-78]
Characterisation of nuclear effects in muon-neutrino scattering on hydrocarbon with a measurement of final-state kinematics and correlations in charged-current pionless interactions at T2K, K. Abe et al. (T2K), Phys.Rev. D98 (2018) 032003, arXiv:1802.05078.
[T2K:2018rnz]
[9-79]
Measurement of inclusive double-differential $\nu_\mu$ charged-current cross section with improved acceptance in the T2K off-axis near detector, K. Abe et al. (T2K), arXiv:1801.05148, 2018.
[Abe:2018eno]
[9-80]
First Measurement of Monoenergetic Muon Neutrino Charged Current Interactions, A. A. Aguilar-Arevalo et al. (MiniBooNE), Phys.Rev.Lett. 120 (2018) 141802, arXiv:1801.03848.
[MiniBooNE:2018dus]
[9-81]
Measurement of the muon anti-neutrino double-differential cross section for quasi-elastic scattering on hydrocarbon at~$E_\nu\sim 3.5$ GeV, C. E. Patrick et al., Phys.Rev. D97 (2018) 052002, arXiv:1801.01197.
[MINERvA:2018vjb]
[9-82]
Neutron lifetime measurements with the big gravitational trap for ultracold neutrons, A. P. Serebrov et al., Phys.Rev. C97 (2018) 055503, arXiv:1712.05663.
[Serebrov:2017bzo]
[9-83]
A Measurement of the Tau Neutrino Cross Section in Atmospheric Neutrino Oscillations with Super-Kamiokande, Z. Li et al. (Super-Kamiokande), Phys.Rev. D98 (2018) 052006, arXiv:1711.09436.
[Super-Kamiokande:2017edb]
[9-84]
Measurement of the multi-TeV neutrino cross section with IceCube using Earth absorption, M. G. Aartsen et al. (IceCube), Nature 551 (2017) 596-600, arXiv:1711.08119.
[IceCube:2017roe]
[9-85]
Measurement of Total and Differential Cross Sections of Neutrino and Antineutrino Coherent $\pi^\pm$ Production on Carbon, A. Mislivec et al. (Minerva), Phys.Rev. D97 (2018) 032014, arXiv:1711.01178.
[MINERvA:2017ipy]
[9-86]
Accelerator Neutrino Neutron Interaction Experiment (ANNIE): Preliminary Results and Physics Phase Proposal, A. R. Back et al., arXiv:1707.08222, 2017.
[ANNIE:2017nng]
[9-87]
Measurement of $\bar\nu_\mu$ and $\nu_\mu$ charged current inclusive cross sections and their ratio with the T2K off-axis near detector, K. Abe et al., Phys.Rev. D96 (2017) 052001, arXiv:1706.04257.
[T2K:2017bvo]
[9-88]
Direct Measurement of Nuclear Dependence of Charged Current Quasielastic-like Neutrino Interactions using MINERvA, M. Betancourt et al. (Minerva), Phys.Rev.Lett. 119 (2017) 082001, arXiv:1705.03791.
[MINERvA:2017dzh]
[9-89]
Measurement of the single $\pi^0$ production rate in neutral current neutrino interactions on water, K. Abe et al. (T2K), Phys.Rev. D97 (2018) 032002, arXiv:1704.07467.
[T2K:2017epu]
[9-90]
First neutrino event detection with nuclear emulsion at J-PARC neutrino beamline, T. Fukuda et al., PTEP 2017 (2017) 063C02, arXiv:1703.03659.
[Fukuda:2017clt]
[9-91]
aCORN: an experiment to measure the electron-antineutrino correlation coefficient in free neutron decay, B. Collett et al., Rev.Sci.Instrum. 88 (2017) 083503, arXiv:1701.05184.
[Collett:2017myx]
[9-92]
Measurement of the antineutrino to neutrino charged-current interaction cross section ratio in MINERvA, L. Ren et al. (Minerva), Phys.Rev. D95 (2017) 072009, arXiv:1701.04857.
[MINERvA:2017ozn]
[9-93]
New measurement of the neutron lifetime with a large gravitational trap, A. P. Serebrov et al., JETP Lett. 106 (2017) 623-629. [Pisma Zh. Eksp. Teor. Fiz.106,no.10,599(2017)].
[Serebrov:2017jvb]
[9-94]
Measurement of neutral-current $K^+$ production by neutrinos using MINERvA, C.M. Marshall et al. (MINERvA), Phys.Rev.Lett. 119 (2017) 011802, arXiv:1611.02224.
[MINERvA:2016ymg]
[9-95]
Measurements of the Inclusive Neutrino and Antineutrino Charged Current Cross Sections in MINERvA Using the Low-$\nu$ Flux Method, J. DeVan et al. (MINERvA), Phys. Rev. D94 (2016) 112007, arXiv:1610.04746.
[MINERvA:2016ing]
[9-96]
First Observation of Low Energy Electron Neutrinos in a Liquid Argon Time Projection Chamber, R. Acciarri et al. (ArgoNeuT), Phys.Rev. D95 (2017) 072005, arXiv:1610.04102.
[ArgoNeuT:2016wjb]
[9-97]
First evidence of coherent $K^{+}$ meson production in neutrino-nucleus scattering, Z. Wang et al. (MINERvA), Phys.Rev.Lett. 117 (2016) 061802, arXiv:1606.08890.
[MINERvA:2016cun]
[9-98]
Cross sections for neutrino and antineutrino induced pion production on hydrocarbon in the few-GeV region using MINERvA, C.L. McGivern et al. (MINERvA), Phys. Rev. D94 (2016) 052005, arXiv:1606.07127.
[MINERvA:2016sfc]
[9-99]
First Measurement of the Muon Neutrino Charged Current Single Pion Production Cross Section on Water with the T2K Near Detector, K. Abe et al. (T2K), Phys. Rev. D95 (2017) 012010, arXiv:1605.07964.
[T2K:2016cbz]
[9-100]
Measurement of coherent $\pi^{+}$ production in low energy neutrino-Carbon scattering, K. Abe et al. (T2K), Phys. Rev. Lett. 117 (2016) 192501, arXiv:1604.04406.
[T2K:2016soz]
[9-101]
Measurement of $K^{+}$ production in charged-current $\nu_\mu$ interactions, C.M. Marshall et al. (MINERvA), Phys. Rev. D94 (2016) 012002, arXiv:1604.03920.
[MINERvA:2016zyp]
[9-102]
Evidence for neutral-current diffractive neutral pion production from hydrogen in neutrino interactions on hydrocarbon, J. Wolcott et al. (MINERvA), Phys. Rev. Lett. 117 (2016) 111801, arXiv:1604.01728.
[MINERvA:2016uck]
[9-103]
Measurement of double-differential muon neutrino charged-current interactions on C$_8$H$_8$ without pions in the final state using the T2K off-axis beam, K. Abe et al. (T2K), Phys. Rev. D93 (2016) 112012, arXiv:1602.03652.
[T2K:2016jor]
[9-104]
Measurement of Partonic Nuclear Effects in Deep-Inelastic Neutrino Scattering using MINERvA, J. Mousseau et al. (MINERvA), Phys. Rev. D93 (2016) 071101, arXiv:1601.06313.
[MINERvA:2016oql]
[9-105]
Precision ${}^{71}\text{Ga}-{}^{71}\text{Ge}$ mass-difference measurement, M. Alanssari et al., Int. J. Mass Spectrometry 406 (2016) 1-3.
[Alanssari:2016itw]
[9-106]
Measurement of Neutrino Flux from Neutrino-Electron Elastic Scattering, J. Park et al. (MINERvA), Phys. Rev. D93 (2016) 112007, arXiv:1512.07699.
[MINERvA:2015nqi]
[9-107]
Identification of nuclear effects in neutrino-carbon interactions at low three-momentum transfer, P. A. Rodrigues et al. (MINERvA), Phys. Rev. Lett. 116 (2016) 071802, arXiv:1511.05944.
[MINERvA:2015ydy]
[9-108]
Measurement of muon neutrino and anti-muon neutrino Neutral Current $\pi^{0} - > \gamma\gamma$ Production in the ArgoNeuT Detector, R. Acciarri et al. (ArgoNeuT), Phys.Rev. D96 (2017) 012006, arXiv:1511.00941.
[ArgoNeuT:2015ldo]
[9-109]
Measurement of the muon neutrino inclusive charged-current cross section in the energy range of 1-3 GeV with the T2K INGRID detector, K. Abe et al. (T2K), Phys. Rev. D93 (2016) 072002, arXiv:1509.06940.
[T2K:2015cxp]
[9-110]
Measurement of electron neutrino quasielastic and quasielastic-like scattering on hydrocarbon at $\langle E_\nu \rangle $ = 3.6 GeV, J. Wolcott et al. (MINERvA), Phys. Rev. Lett. 116 (2016) 081802, arXiv:1509.05729.
[MINERvA:2015jih]
[9-111]
Measurement of the Electron Neutrino Charged-current Interaction Rate on Water with the T2K ND280 pi-zero Detector, K. Abe et al. (T2K), Phys. Rev. D91 (2015) 112010, arXiv:1503.08815.
[T2K:2015ydf]
[9-112]
Measurement of the $\nu_\mu$ charged current quasi-elastic cross-section on carbon with the T2K on-axis neutrino beam, K. Abe et al. (T2K), Phys. Rev. D91 (2015) 112002, arXiv:1503.07452.
[T2K:2015ujp]
[9-113]
Single neutral pion production by charged-current $\bar\nu_\mu$ interactions on hydrocarbon at $\langle E_\nu\rangle = $ 3.6 GeV, L. Aliaga et al., Phys. Lett. B749 (2015) 130-136, arXiv:1503.02107.
[MINERvA:2015slz]
[9-114]
Precision evaluation of the $^{71}$Ga($\nu_e,e^-$) solar neutrino capture rate from the ($^3$He,$t$) charge-exchange reaction, D. Frekers et al., Phys. Rev. C91 (2015) 034608.
[Frekers:2015wga]
[9-115]
Measurement of the $\nu_\mu$ CCQE cross section on carbon with the ND280 detector at T2K, K. Abe et al. (T2K), Phys. Rev. D92 (2015) 112003, arXiv:1411.6264.
[T2K:2014hih]
[9-116]
Study of quasielastic scattering using charged-current $\nu_\mu$-iron interactions in the MINOS Near Detector, P. Adamson et al. (MINOS), Phys. Rev. D91 (2015) 012005, arXiv:1410.8613.
[MINOS:2014axb]
[9-117]
Upper limit on the cross section for reactor antineutrinos changing 22Na decay rates, R.J. de Meijer, S.W. Steyn, arXiv:1409.6969, 2014.
[deMeijer:2014kxa]
[9-118]
Measurement of muon plus proton final states in $\nu_{\mu}$ interactions on hydrocarbon at $ < E_{\nu} > = $ 4.2 GeV, T. Walton et al. (MINERvA), Phys. Rev. D91 (2015) 071301, arXiv:1409.4497.
[MINERvA:2014ypj]
[9-119]
Measurement of Coherent Production of $\pi^\pm$ in Neutrino and Anti-Neutrino Beams on Carbon from $E_\nu$ of $1.5$ to $20$ GeV, A. Higuera et al. (MINERvA), Phys. Rev. Lett. 113 (2014) 261802, arXiv:1409.3835.
[MINERvA:2014ani]
[9-120]
First Measurement of Neutrino and Antineutrino Coherent Charged Pion Production on Argon, R. Acciarri et al. (ArgoNeuT), Phys. Rev. Lett. 113 (2014) 261801, arXiv:1408.0598.
[ArgoNeuT:2014uwh]
[9-121]
Measurement of the Inclusive Electron Neutrino Charged Current Cross Section on Carbon with the T2K Near Detector, K. Abe et al. (T2K), Phys. Rev. Lett. 113 (2014) 241803, arXiv:1407.7389.
[T2K:2014lbi]
[9-122]
Measurement of the inclusive $\nu_\mu$ charged current cross section on iron and hydrocarbon in the T2K on-axis neutrino beam, K. Abe et al. (T2K), Phys. Rev. D90 (2014) 052010, arXiv:1407.4256.
[T2K:2014axs]
[9-123]
Charged Pion Production in $\nu_\mu$ Interactions on Hydrocarbon at $\langle E_\nu\rangle$= 4.0 GeV, B. Eberly et al. (MINERvA), Phys. Rev. D92 (2015) 092008, arXiv:1406.6415.
[MINERvA:2014ogb]
[9-124]
The detection of back-to-back proton pairs in Charged-Current neutrino interactions with the ArgoNeuT detector in the NuMI low energy beam line, R. Acciarri et al. (ArgoNeuT), Phys. Rev. D90 (2014) 012008, arXiv:1405.4261.
[ArgoNeuT:2014ihi]
[9-125]
Measurements of Inclusive Muon Neutrino and Antineutrino Charged Current Differential Cross Sections on Argon in the NuMI Antineutrino Beam, R. Acciarri et al. (ArgoNeuT), Phys. Rev. Lett. (2014), arXiv:1404.4809.
[ArgoNeuT:2014rlj]
[9-126]
Measurement of the neutrino-oxygen neutral-current interaction cross section by observing nuclear de-excitation $\gamma$-rays, K. Abe et al. (T2K), Phys. Rev. D90 (2014) 072012, arXiv:1403.3140.
[T2K:2014vog]
[9-127]
Measurement of the intrinsic electron neutrino component in the T2K neutrino beam with the ND280 detector, K. Abe et al. (T2K), Phys. Rev. D89 (2014) 092003, arXiv:1403.2552.
[T2K:2014djs]
[9-128]
Measurement of Ratios of $\nu_\mu$ Charged-Current Cross Sections on C, Fe, and Pb to CH at Neutrino Energies 2-20 GeV, B. G. Tice et al. (MINERvA), Phys. Rev. Lett. (2014), arXiv:1403.2103.
[MINERvA:2014rdw]
[9-129]
Precision Penning-trap measurement to investigate the role of the ${}^{51}\text{Cr} (e^{-},\nu_{e}) {}^{51}\text{V}$ Q value in the gallium anomaly, T. D. Macdonald et al., Phys. Rev. C 89 (2014) 044318.
[Macdonald:2014qza]
[9-130]
The yields of different states of $\Delta(1232)$ in neutrino-induced reactions at $E_\nu= 10 \, \text{GeV}$, N.M. Agababyan, N. Grigoryan, H. Gulkanyan, A.A. Ivanilov, V.A. Korotkov, arXiv:1311.1019, 2013.
[Agababyan:2013dxa]
[9-131]
Measurement of the Antineutrino Neutral-Current Elastic Differential Cross Section, A. A. Aguilar-Arevalo et al. (MiniBooNE), Phys. Rev. D91 (2015) 012004, arXiv:1309.7257.
[MiniBooNE:2013dds]
[9-132]
Improved Determination of the Neutron Lifetime, A.T. Yue, M.S. Dewey, D.M. Gilliam, G.L. Greene, A.B. Laptev et al., Phys. Rev. Lett. 111, 222501 (2013) 222501, arXiv:1309.2623.
[Yue:2013qrc]
[9-133]
A Precision Measurement of Charm Dimuon Production in Neutrino Interactions from the NOMAD Experiment, O. Samoylov et al. (NOMAD), Nucl. Phys. B876 (2013) 339-375, arXiv:1308.4750.
[NOMAD:2013hbk]
[9-134]
Measurement of Muon Neutrino Quasi-Elastic Scattering on a Hydrocarbon Target at $E_\nu \sim 3.5 \, \text{GeV}$, G. A. Fiorentini et al. (MINERvA), Phys. Rev. Lett. 111, 022502 (2013) 022502, arXiv:1305.2243.
[MINERvA:2013kdn]
[9-135]
Measurement of Muon Antineutrino Quasi-Elastic Scattering on a Hydrocarbon Target at $E_\nu \sim 3.5 \, \text{GeV}$, L. Fields et al. (MINERvA), Phys. Rev. Lett. 111, 022501 (2013) 022501, arXiv:1305.2234.
[MINERvA:2013bcy]
[9-136]
Measurement of the Inclusive $\nu_\mu$ Charged Current Cross Section on Carbon in the Near Detector of the T2K Experiment, K. Abe (T2K), Phys. Rev. D87 (2013) 092003, arXiv:1302.4908.
[T2K:2013nor]
[9-137]
First Measurement of the Muon Anti-Neutrino Double-Differential Charged Current Quasi-Elastic Cross Section, A. A. Aguilar-Arevalo et al. (MiniBooNE), Phys. Rev. D 88, 032001 (2013) 032001, arXiv:1301.7067.
[AguilarArevalo:2013hm]
[9-138]
Penning-trap Q-value determination of the reaction using threshold charge breeding of on-line produced isotopes, D. Frekers et al., Phys. Lett. B722 (2013) 233-237.
[Frekers:2013hsa]
[9-139]
Study of the $\delta^{++}(1232)$ inclusive neutrinoproduction on protons and neutrons, N. M. Agababyan, N. Grigoryan, H. Gulkanyan, A. A. Ivanilov, V. A. Korotkov, arXiv:1206.4193, 2012.
[Agababyan:2013bea]
[9-140]
Analysis of a Large Sample of Neutrino-Induced Muons with the ArgoNeuT Detector, C. Anderson et al., JINST 7 (2012) P10020, arXiv:1205.6702.
[Anderson:2012uk]
[9-141]
Demonstration of Communication using Neutrinos, D.D. Stancil et al., Mod. Phys. Lett. A27 (2012) 1250077, arXiv:1203.2847.
[MINERvA:2012rrj]
[9-142]
A Search for Single Photon Events in Neutrino Interactions, C. T. Kullenberg et al. (NOMAD), Phys. Lett. B706 (2012) 268-275, arXiv:1111.3713.
[NOMAD:2011gyy]
[9-143]
First Measurements of Inclusive Muon Neutrino Charged Current Differential Cross Sections on Argon, C. Anderson et al. (ArgoNeuT), Phys. Rev. Lett. 108 (2012) 161802, arXiv:1111.0103.
[ArgoNeuT:2011bms]
[9-144]
Nuclear attenuation of three-hadron systems in neutrino-induced reactions, N. M. Agababyan et al., arXiv:1108.1623, 2011.
[Agababyan:2011ds]
[9-145]
Measurement of charm production in neutrino charged-current interactions, A. Kayis-Topaksu et al., New J. Phys. 13 (2011) 093002, arXiv:1107.0613.
[Kayis-Topaksu:2011ols]
[9-146]
Measurement of K+ production cross section by 8 GeV protons using high energy neutrino interactions in the SciBooNE detector, G. Cheng et al. (SciBooNE), Phys. Rev. D84 (2011) 012009, arXiv:1105.2871.
[SciBooNE:2011sjq]
[9-147]
Precise measurement of parity violation in polarized muon decay, J.F. Bueno et al. (TWIST), Phys. Rev. D84 (2011) 032005, arXiv:1104.3632.
[TWIST:2011egd]
[9-148]
Study of neutrino interactions with the electronic detectors of the OPERA experiment, N. Agafonova et al. (OPERA), New J. Phys. 13 (2011) 053051, arXiv:1102.1882.
[OPERA:2011bgx]
[9-149]
Nuclear effects in Reactions $\nu p - > \mu^- p \pi^+$ and $\nu p - > \mu^- \Delta^{++}(1232)$ on Bound Protons, N.M.Agababyan et al., arXiv:1101.2950, 2011.
[Agababyan:2011wm]
[9-150]
The $^{71}\text{Ga}(^{3}\text{He},t)$ reaction and the low-energy neutrino response, D. Frekers, H. Ejiri, H. Akimune, T. Adachi, B. Bilgier et al., Phys. Lett. B706 (2011) 134-138.
[Frekers:2011zz]
[9-151]
Measurement of Neutrino-Induced Charged-Current Charged Pion Production Cross Sections on Mineral Oil at $E_{\nu}\sim 1~\text{GeV}$, A. A. Aguilar-Arevalo et al. (MiniBooNE), Phys. Rev. D83 (2011) 052007, arXiv:1011.3572.
[MiniBooNE:2010eis]
[9-152]
Measurement of inclusive charged current interactions on carbon in a few-GeV neutrino beam, Y. Naka jima et al. (SciBooNE), Phys. Rev. D83 (2011) 012005, arXiv:1011.2131.
[SciBooNE:2010slc]
[9-153]
New Experimental Constraints for the Standard Model from Muon Decay, R. Bayes et al. (TWIST), arXiv:1010.4998, 2010.
[TWIST:2010uqs]
[9-154]
Measurement of $\nu_\mu$-induced charged-current neutral pion production cross sections on mineral oil at $E_\nu\in0.5-2.0\,\text{GeV}$, A.A.Aguilar-Arevalo et al. (MiniBooNE), Phys. Rev. D83 (2011) 052009, arXiv:1010.3264.
[MiniBooNE:2010cxl]
[9-155]
Measurement of the Positive Muon Lifetime and Determination of the Fermi Constant to Part-per-Million Precision, D.M. Webber et al. (MuLan), Phys. Rev. Lett. 106 (2011) 041803, arXiv:1010.0991.
[MuLan:2010shf]
[9-156]
Measurement of the Neutrino Neutral-Current Elastic Differential Cross Section, A. A. Aguilar-Arevalo et al. (MiniBooNE), Phys. Rev. D82 (2010) 092005, arXiv:1007.4730.
[MiniBooNE:2010xqw]
[9-157]
Measurement of neutral current coherent neutral pion production on carbon in a few-GeV neutrino beam, Y. Kurimoto et al. (SciBooNE), Phys. Rev. D81 (2010) 111102, arXiv:1005.0059.
[SciBooNE:2010lca]
[9-158]
First Measurement of the Muon Neutrino Charged Current Quasielastic Double Differential Cross Section, A. A. Aguilar-Arevalo et al. (MiniBooNE), Phys. Rev. D81 (2010) 092005, arXiv:1002.2680.
From the article: The reported cross section is significantly larger ($\approx 30$\% at the flux average energy) than what is commonly assumed for this process assuming a relativistic Fermi Gas model (RFG) and the world-average value for the axial mass, $M_A=1.03\,\text{GeV}$. In addition, the $Q^2_{QE}$ distribution of this data shows a significant excess of events over this expectation at higher $Q^2_{QE}$ even if the data is normalized to the prediction over all $Q^2_{QE}$. This leads to an extracted axial mass from a 'shape-only' fit of the $Q^2_{QE}$ distribution of $M_{A}^{\text{eff}}=1.35\pm0.17\,\text{GeV}$, significantly higher than the historical world-average value.
[MiniBooNE:2010bsu]
[9-159]
Measurement of $\nu_\mu$ and $\bar\nu_\mu$ induced neutral current single $\pi^0$ production cross sections on mineral oil at $E_\nu \sim \text{O(1 GeV)}$, A. A. Aguilar-Arevalo et al. (MiniBooNE), Phys. Rev. D81 (2010) 013005, arXiv:0911.2063.
[MiniBooNE:2009dxl]
[9-160]
Measurement of Neutrino-Electron Scattering Cross-Section with a CsI(Tl) Scintillating Crystal Array at the Kuo-Sheng Nuclear Power Reactor, M. Deniz et al. (TEXONO), Phys. Rev. D81 (2010) 072001, arXiv:0911.1597.
[TEXONO:2009knm]
[9-161]
Measurement of Inclusive Neutral Current Neutral Pion Production on Carbon in a Few-GeV Neutrino Beam, Y. Kurimoto et al. (SciBooNE), Phys. Rev. D81 (2010) 033004, arXiv:0910.5768.
[SciBooNE:2009nlf]
[9-162]
Neutrino and Antineutrino Inclusive Charged-current Cross Section Measurements with the MINOS Near Detector, P. Adamson et al. (MINOS), Phys. Rev. D81 (2010) 072002, arXiv:0910.2201.
[MINOS:2009ugl]
[9-163]
A Measurement of Coherent Neutral Pion Production in Neutrino Neutral Current Interactions in NOMAD, C.T. Kullenberg et al. (NOMAD), Phys. Lett. B682 (2009) 177-184, arXiv:0910.0062.
[NOMAD:2009idt]
[9-164]
A study of the neutrinoproduction of Phi and $D_s^+$ mesons, N.M. Agababyan et al., Phys. Atom. Nucl. 74 (2011) 239-245, arXiv:0908.0874.
[Agababyan:2009ek]
[9-165]
Measurement of the $\nu_\mu$ charged current $\pi^+$ to quasi-elastic cross section ratio on mineral oil in a 0.8 GeV neutrino beam, A. A. Aguilar-Arevalo et al. (MiniBooNE), Phys. Rev. Lett. 103 (2009) 081801, arXiv:0904.3159.
[MiniBooNE:2009koj]
[9-166]
A study of quasi-elastic muon neutrino and antineutrino scattering in the NOMAD experiment, V. Lyubushkin et al. (NOMAD), Eur. Phys. J. C63 (2009) 355-381, arXiv:0812.4543.
[NOMAD:2009qmu]
[9-167]
Unexplained Excess of Electron-Like Events From a 1-GeV Neutrino Beam, A. A. Aguilar-Arevalo et al. (MiniBooNE), Phys. Rev. Lett. 102 (2009) 101802, arXiv:0812.2243.
[MiniBooNE:2008yuf]
[9-168]
Search for Charged Current Coherent Pion Production on Carbon in a Few-GeV Neutrino Beam, K. Hiraide (SciBooNE), Phys. Rev. D78 (2008) 112004, arXiv:0811.0369.
[SciBooNE:2008bzb]
[9-169]
A Precision Measurement of the Muon Decay Parameters $\rho$ and $\delta$, R. P. MacDonald, for the TWIST Collaboration (TWIST), Phys. Rev. D78 (2008) 032010, arXiv:0807.1125.
[TWIST:2008myj]
[9-170]
Measurement of the Beta-Neutrino Correlation of Sodium-21 using Shakeoff Electrons, P. A. Vetter, J. R. Abo-Shaeer, S. J. Freedman, R. Maruyama, Phys. Rev. C77 (2008) 035502, arXiv:0805.1212.
[Vetter:2008zz]
[9-171]
Measurement of single charged pion production in the charged-current interactions of neutrinos in a 1.3 GeV wide band beam, A. Rodriguez, L. Whitehead, for the K2K Collaboration (K2K), Phys. Rev. D78 (2008) 032003, arXiv:0805.0186.
[K2K:2008tus]
[9-172]
First Observation of Coherent $\pi^0$ Production in Neutrino Nucleus Interactions with $ E_{\nu} < 2 \, \text{GeV}$, D. Schmitz et al. (MiniBooNE), Phys. Lett. B664 (2008) 41-46, arXiv:0803.3423.
[MiniBooNE:2008mmr]
[9-173]
Charged rho meson production in neutrino-induced reactions at $ E_{\nu} = 10 \, \text{GeV} $, N.M. Agababyan et al., Phys. Atom. Nucl. 74 (2011) 221-228, arXiv:0801.3590.
[Agababyan:2008gg]
[9-174]
Precision Electroweak Measurements and Constraints on the Standard Model, J. Alcaraz et al. (LEP), arXiv:0712.0929, 2007.
[ALEPH:2007brf]
[9-175]
A Precise measurement of the muon neutrino-nucleon inclusive charged current cross-section off an isoscalar target in the energy range 2.5 < E(nu) < 40-GeV by NOMAD, Q. Wu et al. (NOMAD), Phys.Lett. B660 (2008) 19-25, arXiv:0711.1183.
[NOMAD:2007krq]
[9-176]
A first measurement of the interaction cross section of the tau neutrino, K. Kodama et al. (The DONuT), Phys. Rev. D78 (2008) 052002, arXiv:0711.0728.
[DONuT:2007bsg]
[9-177]
Associated Charm Production in Neutrino-Nucleus Interactions, A. Kayis-Topaksu et al. (CHORUS), Eur. Phys. J. C52 (2007) 543-552, arXiv:0708.2820.
[CHORUS:2007wan]
[9-178]
Charged Particle Multiplicities in Neutrino Interactions, A. Kayis-Topaksu et al. (CHORUS), Eur. Phys. J. C51 (2007) 775-785, arXiv:0707.1586.
[CHORUS:2007nlc]
[9-179]
Measurement of the Neutrino Asymmetry Parameter B in Neutron Decay, M. Schumann et al., Phys. Rev. Lett. 99 (2007) 191803, arXiv:0706.3788.
[Schumann:2007qe]
[9-180]
Measurement of Muon Neutrino Quasi-Elastic Scattering on Carbon, A. A. Aguilar-Arevalo et al. (MiniBooNE), Phys. Rev. Lett. 100 (2008) 032301, arXiv:0706.0926.
From the abstract: ... effective axial mass $ M_A = 1.23 \pm 0.20 \text{GeV} $.
[MiniBooNE:2007iti]
[9-181]
Improved Measurement of the Positive Muon Lifetime and Determination of the Fermi Constant, D.B. Chitwood et al. (MuLan), Phys. Rev. Lett. 99 (2007) 032001, arXiv:0704.1981.
From the abstract: The new world average $ \tau_{\mu} = 2.197 019(21) \mu\text{s} $ determines the Fermi constant $ G_{\text{F}} = 1.166 371(6) \times 10^{-5} \, \text{GeV}^{-2} $ (5 ppm).
[MuLan:2007qkz]
[9-182]
Neutron lifetime measurements using gravitationally trapped ultracold neutrons, A. P. Serebrov et al., Phys. Rev. C78 (2008) 035505, arXiv:nucl-ex/0702009.
From the abstract: The neutron lifetime obtained, $878.5\pm 0.7(stat) \pm 0.3(syst)$ s, is the most accurate one to date.
Comment: The measured value is 6.5 $\sigma$ away from the world averaged value (M.L.).
[Serebrov:2007ve]
[9-183]
Measurement of $P_{\mu}\xi$ in Polarized Muon Decay, TWIST Collaboration et al. (TWIST), Phys. Rev. D74 (2006) 072007, arXiv:hep-ex/0605100.
[TWIST:2006zjk]
[9-184]
Measurement of the quasi-elastic axial vector mass in neutrino-oxygen interactions, R. Gran et al. (K2K), Phys. Rev. D74 (2006) 052002, arXiv:hep-ex/0603034.
From the abstract: Our best fit result for the axial mass is $ M_A = 1.20 \pm 0.12 \text{GeV} $.
[K2K:2006odf]
[9-185]
Measurement of P(mu)xi in polarized muon decay, B. Jamieson et al., Phys. Rev. D74 (2006) 072007.
[Jamieson:2006gf]
[9-186]
Precise measurement of neutrino and anti-neutrino differential cross sections, M. Tzanov et al. (NuTeV), Phys. Rev. D74 (2006) 012008, arXiv:hep-ex/0509010.
[NuTeV:2005wsg]
[9-187]
Upper Limit on the Branching Ratio for the Decay $\pi^0 \to \nu \bar\nu$, E949 (E949), Phys. Rev. D72 (2005) 091102, arXiv:hep-ex/0506028.
[E949:2005efl]
[9-188]
Search for coherent charged pion production in neutrino carbon interactions, M. Hasegawa et al. (K2K), Phys. Rev. Lett. 95 (2005) 252301, arXiv:hep-ex/0506008.
From the abstract: ...an upper limit of $0.60 \times 10^{-2}$ is set on the cross section ratio of coherent pion production to the total charged-current interaction at 90% confidence level. This is the first experimental limit for coherent charged pion production in the energy region of a few GeV.
[K2K:2005uiu]
[9-189]
First observation of the decay K+ - > e+ nu mu+ mu-, H. Ma et al., Phys. Rev. D73 (2006) 037101, arXiv:hep-ex/0505011.
[Ma:2005iv]
[9-190]
Study of the tau- - > 3h-2h+nu Decay, B. Aubert et al. (BABAR), Phys. Rev. D72 (2005) 072001, arXiv:hep-ex/0505004.
[BaBar:2005ass]
[9-191]
The total yields of $K^+$(892), $Sigma^+$(1385) and $Sigma^0$ in neutrino-induced reactions at $ < E_\nu > $ = 10 GeV, N.M. Agababyan et al., Phys. Atom. Nucl. 70 (2007) 1739-1742, arXiv:hep-ex/0504040.
[Agababyan:2005rk]
[9-192]
Muon decay: Measurement of the transverse polarization of the decay positrons and its implications for the Fermi coupling constant and time reversal invariance, N. Danneberg et al., Phys. Rev. Lett. 94 (2005) 021802.
[Danneberg:2005xv]
[9-193]
A measurement of the antineutrino asymmetry B in free neutron decay, M. Kreuz et al., Phys. Lett. B619 (2005) 263-270.
[Kreuz:2005jz]
[9-194]
Measurement of the muon decay parameter delta, A. Gaponenko et al. (TWIST), Phys. Rev. D71 (2005) 071101, arXiv:hep-ex/0410045.
[TWIST:2004lzd]
[9-195]
Measurement of the Michel Parameter $\rho$ in Muon Decay, J.R. Musser et al. (TWIST), Phys. Rev. Lett. 94 (2005) 101805, arXiv:hep-ex/0409063.
[TWIST:2004hce]
[9-196]
A study of strange particles produced in neutrino neutral current interactions in the NOMAD experiment, D. Naumov et al. (NOMAD), Nucl. Phys. B700 (2004) 51, arXiv:hep-ex/0409037.
[NOMAD:2004djf]
[9-197]
Measurement of single pi0 production in neutral current neutrino interactions with water by a 1.3-GeV wide band muon neutrino beam, S. Nakayama (K2K), Phys. Lett. B619 (2005) 255, arXiv:hep-ex/0408134.
[K2K:2004qpv]
[9-198]
Design, Commissioning and Performance of the PIBETA Detector at PSI, E. Frlez et al., Nucl. Instrum. Meth. A526 (2004) 300, arXiv:hep-ex/0312017.
[Frlez:2003vg]
[9-199]
Evidence for formation of a narrow pKshort resonance with mass near 1533 MeV in neutrino interactions, A. E. Asratyan, A. G. Dolgolenko, M. A. Kubantsev, Phys. Atom. Nucl. 67 (2004) 682, arXiv:hep-ex/0309042.
[Asratyan:2003cb]
[9-200]
Determination of the $\bar{B} \to D^* l \bar\nu$ Decay Width and $|V_{cb}|$, N. E. Adam et al. (CLEO), Phys. Rev. D67 (2003) 032001, arXiv:hep-ex/0210040.
[CLEO:2002fch]
[9-201]
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.
[Abele:2002wc]
[9-202]
Measurements of charged current reactions of muon neutrinos on C-12, L. B. Auerbach et al. (LSND), Phys. Rev. C66 (2002) 015501, arXiv:nucl-ex/0203011.
[LSND:2002oco]
[9-203]
A study of nuclear effects in $\nu$ interactions with the NOMAD detector, M. Veltri (NOMAD), Nucl. Phys. Proc. Suppl. 112 (2002) 124-131, arXiv:hep-ex/0202038.
[Veltri:2002jm]
[9-204]
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 sin2thetaW from the measurement of the ratios of neutral current to charged current neutrino and anti-neutrino cross-sections. Our value, sin2thetaW(on-shell)=0.2277±0.0013(stat)±0.0009(syst), is three standard deviations above the standard model prediction.
[NuTeV:2001whx]
[9-205]
Neutrino absorption efficiency of an Ar-40 detector from the beta decay of Ti-40, M. Bhattacharya et al., Phys. Rev. C58 (1998) 3677-3687.
[Bhattacharya:1998hc]
[9-206]
A measurement of the beta asymmetry A in the decay of free neutrons, H. Abele et al., Phys. Lett. B407 (1997) 212-218.
[Abele:1997yn]
[9-207]
Ti-40 beta decay and the neutrino capture cross-section of Ar-40, W. Trinder et al., Phys. Lett. B415 (1997) 211-216.
[Trinder:1997xr]
[9-208]
Total cross-section measurements for muon-neutrino, anti-muon-neutrino interactions in 3-GeV - 30-GeV energy range with IHEP-JINR neutrino detector, V. B. Anikeev et al., Z. Phys. C70 (1996) 39-46.
[Anikeev:1995dj]
[9-209]
Determination of the Michel parameters xi and delta in leptonic tau decays, H. Albrecht et al. (ARGUS), Phys. Lett. B349 (1995) 576-584.
[ARGUS:1995bpe]
[9-210]
Determination of the parton distributions and structure functions of the proton from neutrino and anti-neutrino reactions on hydrogen and deuterium, G. T. Jones et al. (College London, Birmingham-CERN-Imperial College-Muenchen(MPI)-Oxford-University), Z. Phys. C62 (1994) 575-600.
[Birmingham-CERN-ImperialCollege-MuenchenMPI-Oxford-University:1994ayz]
[9-211]
Determination of the ratio r(v) = d(v) / u(v) of the valence quark distributions in the proton from neutrino and anti-neutrino reactions on hydrogen and deuterium, G. T. Jones et al. (Birmingham-CERN-Imperial College-Munich(MPI)-Oxford), Z. Phys. C62 (1994) 601-607.
[Birmingham-CERN-ImperialCollege-MunichMPI-Oxford:1994pnp]
[9-212]
Study of interference correlations effects for identical particles in neutrino nucleus interactions, V. V. Ammosov et al., Sov. J. Nucl. Phys. 53 (1991) 609-612. [Yad. Fiz.53,986(1991)].
[Ammosov:1990ew]
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Investigation of exclusive channels in neutrino / anti-neutrino deuteron charged current interactions, D. Allasia et al., Nucl. Phys. B343 (1990) 285-309.
[Allasia:1990uy]
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Quasielastic Nucleon and Hyperon Production by Neutrinos and Anti-neutrinos With Energies Below 30 GeV, J. Brunner et al. (SKAT), Z. Phys. C45 (1990) 551.
[SKAT:1989nel]
[9-215]
The Nonsinglet Valence Quark Distribution From Neutrino - Deuterium Deep Inelastic Scattering, J. B. Cole et al., Phys. Rev. D37 (1988) 1105.
[Cole:1987pd]
[9-216]
Bose-Einstein Correlations in Neutrino and Anti-neutrino Interactions in Deuterium, D. Allasia et al. (WA25), Z. Phys. C37 (1988) 527.
[WA25:1987hne]
[9-217]
Search for Fractionally Charged Particles in (Anti)-neutrino - Deuterium Interactions, D. Allasia et al. (WA25), Phys. Rev. D37 (1988) 219.
[WA25:1987yhu]
[9-218]
Measurement of neutrino - proton and anti-neutrino - proton elastic scattering, L. A. Ahrens et al., Phys. Rev. D35 (1987) 785.
[Ahrens:1986xe]
[9-219]
Intermediate vector boson cross-sections at the CERN Super Proton Synchrotron collider and the number of neutrino types, C. Albajar et al. (UA1), Phys. Lett. B198 (1987) 271.
[UA1:1987dfv]
[9-220]
Search for a $\Delta(1236) - \Delta(1236)$ Structure of the Deuteron, D. Allasia et al., Phys. Lett. B174 (1986) 450-452.
[Allasia:1986kg]
[9-221]
Fragmentation into strange particles in high-energy neutrino p, neutrino n, anti-neutrino p and anti-neutrino n interactions, D. Allasia et al. (Amsterdam-Bergen-Bologna-Padua-Pisa-Saclay-Turin), Phys. Lett. 154B (1985) 231-235.
[AMSTERDAM-BERGEN-BOLOGNA-PADUA-PISA-SACLAY-TURIN:1985iir]
[9-222]
$Q^2$ Dependence of the Proton and Neutron Structure Functions from Neutrino and anti-neutrinos Scattering in Deuterium, D. Allasia et al., Z. Phys. C28 (1985) 321.
[Allasia:1985hw]
[9-223]
Search for mu-+ pi+- mass enhancements in neutrino and anti-neutrinos deuterium charged current interactions, D. Allasia et al. (Amsterdam-Bergen-Bologna-Padua-Pisa-Saclay-Turin), Phys. Rev. D31 (1985) 2996.
[Amsterdam-Bergen-Bologna-Padua-Pisa-Saclay-Turin:1984plg]
[9-224]
Transverse Momentum of Charged Hadrons Produced in Neutrino and Anti-neutrino Deuterium Charged Current Interactions, D. Allasia et al. (Amsterdam-Bergen-Bologna-Padua-Pisa-Saclay-Turin), Z. Phys. C27 (1985) 239.
[Amsterdam-Bergen-Bologna-Padua-Pisa-Saclay-Turin:1984qld]
[9-225]
Quasielastic Neutrino and Anti-neutrinos Scattering: Total Cross-sections, Axial Vector Form-factor, S. V. Belikov et al., Z. Phys. A320 (1985) 625.
[Belikov:1983kg]
[9-226]
A Comparison of Cross-Sections from Deep Inelastic Neutrino Scattering on Neon and Deuterium, J. Hanlon et al., Phys. Rev. D32 (1985) 2441.
[Hanlon:1985yg]
[9-227]
Fragmentation in neutrino and anti-neutrinos charged current interactions on proton and neutron, D. Allasia et al. (AMSTERDAM-BERGEN-BOLOGNA-PADUA-PISA-SACLAY-TURIN), Z. Phys. C24 (1984) 119-131.
[AMSTERDAM-BERGEN-BOLOGNA-PADUA-PISA-SACLAY-TURIN:1984stg]
[9-228]
Nucleon Structure Functions from High-Energy Neutrino Interactions with Iron and QCD Results, D. MacFarlane et al., Z. Phys. C26 (1984) 1.
[MacFarlane:1983ax]
[9-229]
Measurement of the Rate of Increase of Neutrino Cross-Sections with Energy, R. Blair et al., Phys. Rev. Lett. 51 (1983) 343-346.
[Blair:1983su]
[9-230]
A Study of Diquark Fragmentation into Lambda and Y*+ in neutrino n and neutrino p Interactions, C. C. Chang et al., Phys. Rev. D27 (1983) 2776.
[Chang:1983rc]
[9-231]
High-Energy Quasielastic Muon-neutrino n -- > mu- p Scattering in Deuterium, T. Kitagaki et al., Phys. Rev. D28 (1983) 436-442.
[Kitagaki:1983px]
[9-232]
Quasielastic Charmed Baryon Production and Exclusive Strange Particle Production by High-energy Neutrinos, D. Son et al., Phys. Rev. D28 (1983) 2129.
[Son:1983xh]
[9-233]
Charged Particle Multiplicity Distributions in neutrino n and neutrino p Charged Current Interactions, Daria Zieminska et al., Phys. Rev. D27 (1983) 47-57.
[Zieminska:1983bs]
[9-234]
Proton and neutron structure functions from anti-neutrinos interactions in deuterium, D. Allasia et al., Phys. Lett. 117B (1982) 262-266.
[Allasia:1982sb]
[9-235]
Total Cross-sections for Muon-neutrino $N$ and Muon-neutrino $P$ Charged Current Interactions in the 7-ft Bubble Chamber, N. J. Baker, P. L. Connolly, S. A. Kahn, M. J. Murtagh, R. B. Palmer, N. P. Samios, M. Tanaka, Phys. Rev. D25 (1982) 617-623.
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Study of Neutrino Interactions in Hydrogen and Deuterium: Inelastic Charged Current Reactions, S. J. Barish et al., Phys. Rev. D19 (1979) 2521.
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Comparison of Jet Size in Anti-neutrino $p$ Interactions With That in $e^+ e^-$ Annihilation, M. Derrick et al., Phys. Lett. B88 (1979) 177-180.
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Experimental mean y values and integrated structure functions for neutrino and anti-neutrino scattering at high-energy., B. C. Barish et al., Phys. Rev. Lett. 40 (1978) 1414-1417.
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Possible Deviations from Simple Quark-Parton Models in High-Energy anti-neutrino Differential Distributions., B. C. Barish et al., Phys. Rev. Lett. 38 (1977) 314-317.
[Barish:1977ay]
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Observation of Trimuon Production by Neutrinos., B. C. Barish et al., Phys. Rev. Lett. 38 (1977) 577-580.
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Measurements of Muon-neutrino n and anti-Muon-neutrino n Charged Current Total Cross-Sections, B. C. Barish et al., Phys. Rev. Lett. 39 (1977) 1595.
[Barish:1977ny]
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Study of Neutrino Interactions in Hydrogen and Deuterium: Description of the Experiment and Study of the Reaction $\nu + d \to \mu^{-} + p + p_{s}$, S. J. Barish et al., Phys. Rev. D16 (1977) 3103.
[Barish:1977qk]
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[Barish:1977uc]
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[Cline:1976in]
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Measurement of Neutrino and anti-neutrino Total Cross-Sections at High-Energy, B. C. Barish et al., Phys. Rev. Lett. 35 (1975) 1316.
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10 - Experiment - Talks

[10-1]
The Scattering and Neutrino Detector at the LHC, A. Iuliano (SND@LHC), arXiv:2308.00097, 2023. DIS23.
[Iuliano:2023qyx]
[10-2]
Neutrino deep-inelastic scattering cross sections from 100 GeV to 1000 EeV, Daniel R. Stump, arXiv:2306.12591, 2023.
[Stump:2023otx]
[10-3]
Search for a Low Energy Excess in MicroBooNE, Nicolo Foppiani (MicroBooNE), arXiv:1905.05325, 2019. 2019 EW/QCD/Gravitation session of the 54th Rencontres de Moriond.
[Foppiani:2019sgs]
[10-4]
Deep Learning for Vertex Reconstruction of Neutrino-Nucleus Interaction Events with Combined Energy and Time Data, Linghao Song, Fan Chen, Steven R. Young, Catherine D. Schuman, Gabriel Perdue, Thomas E. Potok, arXiv:1902.00743, 2019. 2019 International Conference on Acoustics, Speech, and Signal Processing (ICASSP 2019).
[Song:2019rau]
[10-5]
Studying Neutral Current Elastic Scattering and the Strange Axial Form Factor in MicroBooNE, Katherine Woodruff (MicroBooNE), PoS SPIN2018 (2019) 029, arXiv:1901.04071. 23rd International Symposium on Spin Physics (Spin18).
[Woodruff:2019ylg]
[10-6]
Impact of cross section uncertainties on NOvA oscillation analyses, Jeremy Wolcott (NOvA), PoS NuFACT2018 (2019) 098, arXiv:1812.05653. 20th International Workshop on Neutrinos From Accelerators, 12-18 August, 2018, Blacksburg, VA, USA.
[Wolcott:2018crq]
[10-7]
Neutrino Scattering Studies in MicroBooNE, Vassili Papavassiliou (MicroBooNE), arXiv:1810.05299, 2018. CIPANP2018.
[Papavassiliou:2018mdh]
[10-8]
Hadron Production Measurements for Long-Baseline Neutrino Experiments with NA61/SHINE, Yoshikazu Nagai, arXiv:1810.01366, 2018. CIPANP2018.
[Nagai:2018yiu]
[10-9]
Measurement of the electron-antineutrino correlation in neutron beta decay: aCORN experiment, F. E. Wietfeldt et al., arXiv:1810.00857, 2018. CIPANP2018.
[Wietfeldt:2018ddb]
[10-10]
TeV-PeV neutrino-nucleon cross section measurement with 5 years of IceCube data, Yiqian Xu (IceCube), PoS DIS2018 (2018) 019, arXiv:1809.06782. DIS2018, Kobe, 16-20 April 2018.
[Xu:2018zyc]
[10-11]
Study of the Neutral-Current interactions with production of neutral pions in the T2K off-axis near detector, Anna Dabrowska, arXiv:1804.05032, 2018. NuPhys2016 (London, 12-14 December 2016).
[Dabrowska:2018fms]
[10-12]
Constraining the T2K Neutrino Flux Prediction with 2009 NA61/SHINE Replica-Target Data, Tomislav Vladisavljevic (T2K), arXiv:1804.00272, 2018. NuPhys2016 (London, 12-14 December 2016).
[Vladisavljevic:2018prd]
[10-13]
Observation of Coherent Elastic Neutrino-Nucleus Scattering by COHERENT, Kate Scholberg, PoS NuFact2017 (2018) 020, arXiv:1801.05546. NUFACT2017.
[Scholberg:2018vwg]
[10-14]
Status of a Deep Learning Based Measurement of the Inclusive Muon Neutrino Charged-current Cross Section in the NOvA Near Detector, Biswaranjan Behera, arXiv:1710.03766, 2017. APS Division of Particles and Fields Meeting (DPF 2017), July 31-August 4, 2017, Fermilab.
[Behera:2017nlz]
[10-15]
Measurement of Neutrino-Electron Elastic Scattering at NOvA Near Detector, Jianming Bian, arXiv:1710.03428, 2017. APS Division of Particles and Fields Meeting (DPF 2017), July 31-August 4, 2017, Fermilab.
[Bian:2017axs]
[10-16]
Progress of the Charged Pion Semi-Inclusive Neutrino Charged Current Cross Section in NOvA, Aristeidis Tsaris, arXiv:1710.03212, 2017. APS Division of Particles and Fields Meeting (DPF 2017), July 31-August 4, 2017, Fermilab.
[Tsaris:2017wrk]
[10-17]
Current Status for the Inclusive Neutral Current $\pi^{0}$ production Cross Section Measurement with the NOvA Near Detector, Daisy Kalra, arXiv:1710.02601, 2017. APS Division of Particles and Fields Meeting (DPF 2017), July 31-August 4, 2017, Fermilab.
[Kalra:2017tpy]
[10-18]
Measurement of Neutral Current Coherent $\pi^0$ Production In The NOvA Near Detector, Hongyue Duyang, arXiv:1710.00449, 2017. APS Division of Particles and Fields Meeting (DPF 2017), July 31-August 4, 2017, Fermilab.
[Duyang:2017eot]
[10-19]
Measurement of Reconstructed Charged Particle Multiplicities of Neutrino Interactions in MicroBooNE, Aleena Rafique (MicroBooNE), arXiv:1709.00146, 2017. APS Division of Particles and Fields Meeting (DPF 2017), July 31-August 4, 2017, Fermilab.
[Rafique:2017pls]
[10-20]
MicroBooNE and its Cross Section Measurement, Yun-Tse Tsai, arXiv:1705.07800, 2017. NuPhys2016 (London, 12-14 December 2016).
[Tsai:2017pta]
[10-21]
Hadron Production Experiments, Yoshikazu Nagai (NA61/SHINE), arXiv:1705.00532, 2017. NuPhys2016 (London, 12-14 December 2016).
[Nagai:2017sep]
[10-22]
Muon antineutrino charged-current cross sections without pions in the final state at T2K, Ciro Riccio (T2K), arXiv:1705.00067, 2017. NuPhys2016 (London, 12-14 December 2016).
[Riccio:2017zez]
[10-23]
Results and prospects of the latest $\nu_\mu$CC0$\pi$ analyses from the T2K near detectors, Stephen Dolan (T2K), arXiv:1703.04004, 2017. NuFact 2016 (Quy Nhon, 21-27 August 2016).
[Dolan:2017blv]
[10-24]
Exploring nucleon spin structure through neutrino neutral-current interactions in MicroBooNE, Katherine Woodruff (MicroBooNE), arXiv:1702.00854, 2017.
[Woodruff:2017kex]
[10-25]
Progress On Neutrino-Proton Neutral-Current Scattering In MicroBooNE, Stephen Pate (MicroBooNE), PoS INPC2016 (2017) 260, arXiv:1701.04483. 26th International Nuclear Physics Conference (INPC2016) Adelaide, Australia, September 11-16, 2016.
[Pate:2017grp]
[10-26]
Recent Results from MINERvA, L. Fields, J.Phys.Conf.Ser. 888 (2017) 012015, arXiv:1612.07348. Neutrino 2016, XXVII International Conference on Neutrino Physics and Astrophysics, London, UK, 4 - 9 July 2016.
[Fields:2016yik]
[10-27]
Measurement of the muon-neutrino charged-current cross section on water with zero pions, Tianlu Yuan (T2K), PoS ICHEP2016 (2017) 1094, arXiv:1611.03536. 38th International Conference on High Energy Physics (ICHEP 2016).
[Yuan:2016vie]
[10-28]
Recent Cross Section Work From NOvA, J. Wolcott (NOvA), arXiv:1611.02600, 2016. 18th International Workshop on Neutrino Factories, Super beams and Beta beams (NuFact2016), August 21-27 2016, Quy Nhon, Vietnam.
[Wolcott:2016oxu]
[10-29]
First Measurement of Neutrino Interactions in MicroBooNE, Pip Hamilton, arXiv:1611.00820, 2016. NuFact 2016.
[Hamilton:2016tuo]
[10-30]
Probing Nuclear Effects at the T2K Near Detector Using Single-Transverse Kinematic Imbalance, Stephen Dolan et al. (T2K), J.Phys.Conf.Ser. 888 (2017) 012203, arXiv:1610.05077. Neutrino2016 (London, 4-9 July 2016).
[Dolan:2016xyu]
[10-31]
Measurement of neutrino interactions in gaseous argon with T2K, Lukas Koch (T2K), J.Phys.Conf.Ser. 888 (2017) 012169, arXiv:1610.00706. Neutrino 2016.
[Koch:2016axn]
[10-32]
Probing Nuclear Effects at the T2K Near Detector Using Transverse Kinematic Imbalance, Stephen Dolan (T2K), arXiv:1605.00179, 2016. NuPhys2015 (London, 16-18 December 2015).
[Dolan:2016anp]
[10-33]
Isolating neutrino interactions on hydrogen in composite nuclear targets using the T2K Near Detector, D. Coplowe (T2K), arXiv:1605.00154, 2016. NuPhys2015 (London, 16-18 December 2015).
[Coplowe:2016yas]
[10-34]
Using the T2K near detector to study electron neutrino charged current quasi-elastic-like interactions on carbon, Sophie King (T2K), arXiv:1605.00141, 2016. NuPhys2015 (London, 16-18 December 2015).
[King:2016dco]
[10-35]
A neutrino interaction with two vertices topology detected by OPERA, Eduardo Medinaceli (OPERA), arXiv:1604.08249, 2016. NuPhys2015 (London, 16-18 December 2015).
[Medinaceli:2016vwh]
[10-36]
Light-quark baryon spectroscopy within ANL-Osaka dynamical coupled-channels approach, Hiroyuki Kamano, Few Body Syst. 57 (2016) 933-940, arXiv:1602.02511. ECT' Workshop on Nucleon Resonances: From Photoproduction to High Photon Virtualities, Trento, Italy, October 12-16, 2015.
[Kamano:2016qiu]
[10-37]
A Search for Neutral Current Single Gamma with ND280 at T2K, Pierre Lasorak (T2K), JPS Conf.Proc. 12 (2016) 010050, arXiv:1602.00084. 10th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt15) Osaka, Japan, November 16-21, 2015.
[Lasorak:2016acm]
[10-38]
Measurement of Electron Neutrino Charged-Current Inclusive Cross Section in 1-3 GeV energy region with the NOvA Near Detector, Xuebing Bu, arXiv:1601.01213, 2016. NuInt15.
[Bu:2016grw]
[10-39]
Electron Neutrino Charged-Current Quasielastic Scattering in the MINERvA Experiment, J. Wolcott (MINERvA), JPS Conf.Proc. 12 (2016) 010015, arXiv:1512.09312. 10th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt15).
[Wolcott:2015cgk]
[10-40]
Electron neutrino charged-current quasielastic scattering in the MINERvA experiment, Jeremy Wolcott (MINERvA), arXiv:1510.08342, 2015. DPF 2015 Meeting of the American Physical Society Division of Particles and Fields, Ann Arbor, Michigan, August 4-8, 2015.
[Wolcott:2015gva]
[10-41]
Measurement of electron neutrino CCQE-like cross-section in MINERvA, Jeremy Wolcott (MINERvA), PoS NUFACT2014 (2015) 058, arXiv:1501.05214. 16th International Workshop on Neutrino Factories and Future Neutrino Beam Facilities, 25-30 August, 2014, University of Glasgow, United Kingdom.
[Wolcott:2015lya]
[10-42]
Implications of recent MINER$\nu$A results for neutrino energy reconstruction, Jeremy Wolcott (MINERvA), PoS NUFACT2014 (2015) 105, arXiv:1501.05210. 16th International Workshop on Neutrino Factories and Future Neutrino Beam Facilities, 25-30 August, 2014, University of Glasgow, United Kingdom.
[Wolcott:2015kya]
[10-43]
$\sin^2\theta^{\rm lept}_{\rm eff}$ and $M_W$(indirect) extracted from 9 fb$^{-1}$ $\mu^+\mu^-$ event sample at CDF, A. Bodek (CDF), Nucl.Part.Phys.Proc. 273-275 (2016) 2253-2258, arXiv:1411.5549. 37th International Conference on High-Energy Physics, ICHEP 2014.
[Bodek:2014vxa]
[10-44]
Nuclear Target Cross Section Ratios at MINERvA, Brian G. Tice (MINERvA), arXiv:1405.3960, 2014. 49th Rencontres de Moriond on QCD and High Energy Interactions, La Thuile, Italy, March 2014.
[Tice:2014foa]
[10-45]
Measurement of the $\nu_\mu$ flux and inclusive charged current cross section at T2K's near detector, Melody Ravonel Salzgeber (T2K), PoS ICHEP2012 (2013) 378, arXiv:1311.4800. ICHEP2012.
[RavonelSalzgeber:2013nmu]
[10-46]
New Results from ArgoNeuT, Tingjun Yang (ArgoNeuT), arXiv:1311.2096, 2013. NuFact2013.
[Yang:2013ebq]
[10-47]
Neutrino induced charged-current coherent $\rho$ production, Xinchun Tian (NOMAD), arXiv:1310.8547, 2013. NuFact 2013.
[Tian:2013ogd]
[10-48]
Results from NA61/SHINE, M. Unger (NA61/SHINE), EPJ Web Conf. 52 (2013) 01009, arXiv:1305.5281. International Symposium on Very High Energy Cosmic Ray Interactions (ISVHECRI 2012), Berlin, Germany.
[Unger:2013ken]
[10-49]
New Anti-Neutrino Cross-Section Results from MiniBooNE, Joseph Grange (Ranjan Dharmapalan for the MiniBooNE), AIP Conf.Proc. 1663 (2015) 080003, arXiv:1304.7395. Eighth International Workshop on Neutrino-Nucleus Neutrino Interactions in the Few-GeV Region.
[Grange:2013qxa]
[10-50]
Cross section analyses in MiniBooNE and SciBooNE experiments, Teppei Katori (MiniBooNE Collaboration, SciBooNE), AIP Conf.Proc. 1663 (2015) 020001, arXiv:1304.5325. 8th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt12), Rio de Janeiro, Brazil, 22-27 October 2012.
[Katori:2013nca]
[10-51]
MuLan Measurement of the Positive Muon Lifetime and Determination of the Fermi Constant, T. P. Gorringe, arXiv:1301.0504, 2013. CKM 2012, the 7th International Workshop on the CKM Unitarity Triangle, University of Cincinnati, USA, 28 September - 2 October 2012.
[Gorringe:2013ry]
[10-52]
Final results of nu-e-bar electron scattering cross-section measurements and constraints on new physics, Muhammed Deniz, Selcuk Bilmis, Henry T. Wong (TEXONO), J. Phys. Conf. Ser. 375 (2012) 042044, arXiv:1201.4675. TAUP-2011.
[Deniz:2012fi]
[10-53]
Neutral Current Elastic Interactions in MiniBooNE, Ranjan Dharmapalan (MiniBooNE), AIP Conf. Proc. 1405 (2011) 89-94, arXiv:1110.6574. 7th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region, Dehradun, Uttarakhand (India).
[Dharmapalan:2011sa]
[10-54]
Neutrino and Antineutrino Cross sections at MiniBooNE, Ranjan Dharmapalan (MiniBooNE), AIP Conf. Proc. 1382 (2011) 271-273, arXiv:1110.4603. XII International Workshop on Neutrino Factories, Super beams and Beta beams. (NuFact 2010, Tata Institute of Fundamental Research, Mumbai, India).
[Dharmapalan:2011ps]
[10-55]
MINERvA Status and Event Reconstruction, Gabriel N. Perdue (MINERvA), J. Phys. Conf. Ser. 408 (2013) 012037, arXiv:1110.3727. NUFACT 11, XIIIth International Workshop on Neutrino Factories, Super beams and Beta beams, 1-6 August 2011, CERN and University of Geneva.
[Perdue:2011up]
[10-56]
Neutrino detection in the ArgoNeuT LAr TPC, O. Palamara (ArgoNeuT), J. Phys. Conf. Ser. 408 (2013) 012039, arXiv:1110.3070. NUFACT 11, XIIIth International Workshop on Neutrino Factories, Super beams and Beta beams, 1-6 August 2011, CERN and University of Geneva.
[Palamara:2011jy]
[10-57]
Neutrino cross section measurements @ SciBooNE, C. Mariani (SciBooNE), J. Phys. Conf. Ser. 408 (2013) 012038, arXiv:1110.1506. NUFACT 11, XIIIth International Workshop on Neutrino Factories, Super beams and Beta beams, 1-6 August 2011, CERN and University of Geneva.
[Mariani:2011xm]
[10-58]
The ArgoNeuT experiment, Roxanne Guenette, arXiv:1110.0443, 2011. DPF-2011 Conference, Providence, RI, August 8-13, 2011.
[Guenette:2011zj]
[10-59]
Neutrino Interaction Measurements Using the T2K Near Detectors, Daniel G. Brook-Roberge (T2K), J. Phys. Conf. Ser. 408 (2013) 012045, arXiv:1109.6728. NUFACT 11.
[Brook-Roberge:2011nke]
[10-60]
MINERvA Detector: Description and Performance, Bari Osmanov (MINERvA), arXiv:1109.2855, 2011.
[Osmanov:2011ig]
[10-61]
SciNO$nu$A: A measurement of neutrino-nucleus scattering in a narrow-band beam, X. C. Tian (SciNOnA), arXiv:1109.2552, 2011. Meeting of the Division of Particles and Fields of the American Physical Society, August 9-13, 2011, Brown University, Providence, Rhode Island.
[Tian:2011cv]
[10-62]
Quasi-Elastic Scattering in MINERvA, Kevin S. McFarland (MINERvA), AIP Conf. Proc. 1405 (2011) 95-100, arXiv:1108.0702. NuInt11, The Seventh International Workshop on Neutrino-Nucleus Interactions in the Few GeV Region, Dehradun, India, March 2011.
[McFarland:2011jd]
[10-63]
New Results from MiniBooNE Charged-Current Quasi-Elastic Anti-Neutrino Data, Joseph Grange (MiniBooNE), AIP Conf. Proc. 1405 (2011) 83-88, arXiv:1107.5327. NuInt 2011.
[Grange:2011zi]
[10-64]
Status Update for the MINER$\nu$A Experiment, Gabriel Perdue (MINERvA), arXiv:1105.1698, 2011. Moriond Electroweak 2011.
[Perdue:2011rg]
[10-65]
Precision Electroweak Measurements and Constraints on the Standard Model, ALEPH et al. (ALEPH), arXiv:1012.2367, 2010.
[ALEPH:2010aa]
[10-66]
ArgoNeuT and the Neutrino-Argon Charged Current Quasi-Elastic Cross Section, Joshua Spitz (ArgoNeuT), J. Phys. Conf. Ser. 312 (2011) 072017, arXiv:1009.2515. International Nuclear Physics Conference, Vancouver, Canada, July 4-9, 2010.
[Spitz:2010dj]
[10-67]
Toward a sub-ppm measurement of the Fermi constant, David M. Webber (MuLan), arXiv:1006.3982, 2010. MORIOND Electroweak 2010 proceedings.
[Webber:2010xa]
[10-68]
$\pi^{0}$ and the T2K Experiment, Benjamin Still (T2K), arXiv:1006.1034, 2010. 25th Lake Louise Winter Institute.
[Still:2010uv]
[10-69]
Blind analysis results of the TWIST experiment, A. Hillairet et al. (TWIST), arXiv:1006.1007, 2010. Lake Louise Winter Institute 2010.
[TWIST:2010jvc]
[10-70]
Precision Electroweak Measurements and Constraints on the Standard Model, ALEPH et al. (ALEPH), arXiv:0911.2604, 2009.
[ALEPH:2009ogm]
[10-71]
Charged-Current Neutral Pion production at SciBooNE, J. Catala-Perez, AIP Conf. Proc. 1189 (2009) 347-350, arXiv:0910.5627. NuInt09.
[Catala-Perez:2009ahn]
[10-72]
Search for Antineutrino Charged Current Coherent Pion Production at SciBooNE, Hide-Kazu Tanaka, AIP Conf. Proc. 1189 (2009) 255-260, arXiv:0910.4754. NuInt09.
[Tanaka:2009ag]
[10-73]
Challenges in Extracting Charged Current Quasi-Elastic Model Information in MiniBooNE's Anti-Neutrino Data, Joseph Grange (MiniBooNE), AIP Conf. Proc. 1189 (2009) 331-334, arXiv:0910.1802. NuInt '09.
[Grange:2009du]
[10-74]
Measurement of the muon-neutrino charged-current quasi-elastic cross-section in the SciBooNE experiment, Jose Luis Alcaraz-Aunion, Joseph Walding (SciBooNE), AIP Conf. Proc. 1189 (2009) 145-150, arXiv:0909.5647. NuInt'09.
[Alcaraz-Aunion:2009pzm]
[10-75]
Search for neutrino charged current coherent pion production at SciBooNE, K. Hiraide (SciBooNE), AIP Conf. Proc. 1189 (2009) 249-254, arXiv:0909.5127. 6th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt09).
[Hiraide:2009ag]
[10-76]
Measurement of neutral current neutral pion production on Carbon in a Few-GeV Neutrino Beam, Y.Kurimoto (SciBooNE), AIP Conf. Proc. 1189 (2009) 189-194, arXiv:0909.4993. Nuint2009.
[Kurimoto:2009yb]
[10-77]
Measurement of Neutrino-Nucleon Neutral Current Elastic Scattering in MiniBooNE, Denis Perevalov, Rex Tayloe (MiniBooNE), AIP Conf. Proc. 1189 (2009) 175-180, arXiv:0909.4617. 6th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt09).
[Perevalov:2009mn]
[10-78]
Measurement of the $\nu_\mu$ Charged Current $\pi^+$ Production to Quasi-elastic Scattering Cross Section, Jaroslaw A. Nowak (MiniBooNE), AIP Conf. Proc. 1189 (2009) 351-354, arXiv:0909.2915. Sixth International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt 2009).
[Nowak:2009ch]
[10-79]
First Measurement of Muon Neutrino Charged Current Quasielastic (CCQE) Double Differential Cross Section, Teppei Katori (MiniBooNE), AIP Conf. Proc. 1189 (2009) 139-144, arXiv:0909.1996. 6th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt09).
[Katori:2009du]
[10-80]
CCpi0 Event Reconstruction at MiniBooNE, Robert H. Nelson (MiniBooNE), AIP Conf. Proc. 1189 (2009) 201-206, arXiv:0909.1238. Sixth International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt 2009).
[Nelson:2009jx]
[10-81]
Measurement of Charged Current Charged Single Pion Production in SciBooNE, K. Hiraide (SciBooNE), arXiv:0810.3903, 2008. 34th International Conference on High Energy Physics (ICHEP08), Philadelphia, USA, July 2008.
[Hiraide:2008yu]
[10-82]
TWIST: Precision Measurement of the Muon Decay Parameters, R.E. Mischke (TWIST), J. Phys. Conf. Ser. 312 (2011) 102004, arXiv:0810.3181. ICHEP08.
[Mischke:2008ed]
[10-83]
NC Coherent pi0 Production in the MiniBooNE Antineutrino Data, V. T. Nguyen, arXiv:0806.2347, 2008. 43rd Rencontres de Moriond on Electroweak Interactions and Unified Theories, La Thuile, Italy, March 1-8, 2008.
[Nguyen:2008fh]
[10-84]
Status of FNAL SciBooNE experiment, : Yasuhiro Nakajima (SciBooNE), J. Phys. Conf. Ser. 120 (2008) 052043, arXiv:0712.4271. 10th International Conference on Topics in Astroparticle and Underground Physics (TAUP) 2007, Sendai, Japan, September 11-15, 2007.
[Nakajima:2007ed]
[10-85]
Charged-Current Interaction Measurements in MiniBooNE, Teppei Katori (MiniBooNE), AIP Conf. Proc. 967 (2007) 123-129, arXiv:0709.4498. 5th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt07).
[Katori:2007uf]
[10-87]
The NuMI Beam at FNAL and its use for Cross Section Measurements, Sacha E. Kopp, arXiv:0709.2737, 2007. Fifth International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt07), May 30 - June 2, 2007.
[Kopp:2007iq]
[10-88]
Na61/Shine at the CERN SPS, Andras Laszlo et al. (NA61), PoS CPOD07 (2007) 054, arXiv:0709.1867. CPOD07, Darmstadt, Germany.
[NA61:2007oau]
[10-89]
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.
[Schumann:2007mu]
[10-90]
Experimental study of quasi-elastic neutrino interactions on Ar with a liquid Ar TPC exposed to the WANF neutrino beam, A. Curioni (ICARUS-Milano), Nucl. Phys. Proc. Suppl. 159 (2006) 69-75, arXiv:hep-ex/0603009. NuInt05.
[Curioni:2006bu]
[10-91]
Charged Current Single Pion Cross Section Measurement at MiniBooNE, M.O. Wascko (MiniBooNE), Nucl. Phys. Proc. Suppl. 159 (2006) 50-55, arXiv:hep-ex/0602050. NuInt05.
[Wascko:2006tx]
[10-92]
Cross-section measurements in the NOMAD experiment, R. Petti (NOMAD), Nucl. Phys. Proc. Suppl. 159 (2006) 56-62, arXiv:hep-ex/0602022. NuInt05, Okayama September 2005.
[Petti:2006tu]
[10-93]
A study of quasielastic neutrino interactions $ \nu_\mu n \to \mu^- p $ in the NOMAD experiment, V. V. Lyubushkin, B. A. Popov, Phys. Atom. Nucl. 69 (2006) 1876-1882.
[Lyubushkin:2006dv]
[10-94]
Research Program towards Observation of Neutrino-Nucleus Coherent Scattering, Henry T. Wong et al., J. Phys. Conf. Ser. 39 (2006) 266-268, arXiv:hep-ex/0511001. TAUP-2005 Workshop, Spain, 2005.
[Wong:2005vg]
[10-95]
Electroweak Measurements, Cristinel Diaconu, Int. J. Mod. Phys. A21 (2006) 1604-1616, arXiv:hep-ex/0510035. 'Lepton-Photon 2005', Upsalla, Sweden.
[Diaconu:2005mb]
[10-96]
NuTeV Structure Function Measurement, M. Tzanov, NuTeV (NuTeV), Aip Conf. Proc. 792 (2005) 241, arXiv:hep-ex/0507040. XIII international workshop on Deep Inelastic Scattering DIS 2005.
[Tzanov:2005fu]
[10-97]
Measuring Charged-Current Muon Neutrino Interactions in MiniBooNE, M. O. Wascko, Int. J. Mod. Phys. A20 (2005) 3065, arXiv:hep-ex/0412008. DPF2004.
[Wascko:2004uk]
[10-98]
Precision measurements from the NOMAD experiment, R. Petti et al. (NOMAD), arXiv:hep-ex/0411032, 2004. 32nd International Conference on High-Energy Physics (ICHEP04), Beijing, China, 16-22 Aug 2004.
[Petti:2004wy]
[10-99]
Neutrino cross sections for astrophysics, C. Broggini, 2004. Neutrino 2004, 13-19 June 2004, Paris, France. http://neutrino2004.in2p3.fr/slides/monday/broggini.ppt.
[Broggini-Nu2004]
[10-100]
Precision measurements in neutrino interactions (NuTeV, Nomad, Chorus), L. Camilleri, 2004. Neutrino 2004, 13-19 June 2004, Paris, France. http://neutrino2004.in2p3.fr/slides/tuesday/camilleri.ps.
[Camilleri-Nu2004]
[10-101]
NOMAD electroweak mixing angle, R. Petti, 2004. 32nd International Conference on High Energy Physics August 16 - 22, 2004, Beijing, China. http://www.ihep.ac.cn/data/ichep04/ppt/4_ew/413-petti-r.ps.
Comment: The neutrino QEL cross section measured by NOMAD is 25$\%$ lower than the world average.
[Petti:ICHEP2004]
[10-102]
NuTeV Cross Section and Structure Function Measurements, D. Naples, NuTeV (NuTeV), arXiv:hep-ex/0307005, 2003. DIS03, St. Petersburg, Russia, April 2003.
[NuTeV:2003crs]
[10-103]
Hadronic structure in $\tau^- \to \pi^- \pi^- \pi^+$ neutrino decays, Edward I. Shibata (CLEO), eConf C0209101 (2002) TU05, arXiv:hep-ex/0210039. Seventh International Workshop on Tau Lepton Physics (TAU02), Santa Cruz, CA, USA, September 2002.
[Shibata:2002uv]
[10-104]
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.
[Zeller:2002dx]
[10-105]
A departure from prediction: Electroweak physics at NuTeV, K. S. McFarland et al. (NuTeV), Frascati Phys.Ser. 27 (2002) 283-289, arXiv:hep-ex/0205080. Rencontres de la Vallee d'Aoste, March 2002.
[NuTeV:2002vma]
[10-106]
Electroweak physics results from NuTeV, Tim Bolton (NuTeV), arXiv:hep-ex/0205079, 2002. QCD and High Energy Interactions, 2002 Recontres de Moriond.
[Bolton:2002rj]
[10-107]
Study of neutrino interaction in the K2K and the JHF-Kamioka long baseline neutrino oscillation experiments, Y. Itow, Nucl. Phys. Proc. Suppl. 112 (2002) 3-8.
[Itow:2002rk]
[10-108]
Measurement of Neutron Decay Parameters with the Spectrometer PERKEO, M. Kreuz (PERKEO), 2002. Physics beyond the Standard Model - BEYOND THE DESERT 02 - Oulu, Finland, 2-7 June 2002. http://cupp.oulu.fi/trans/Kreuz.pdf.
[Kreuz-talk:2002a]

11 - Experiment - Coherent Elastic Neutrino-Nucleus Scattering (CEvNS)

[11-1]
Final CONUS results on coherent elastic neutrino nucleus scattering at the Brokdorf reactor, N. Ackermann et al. (CONUS), arXiv:2401.07684, 2024.
[Ackermann:2024kxo]
[11-2]
A First Search for Solar $^8$B Neutrino in the PandaX-4T Experiment using Neutrino-Nucleus Coherent Scattering, Wenbo Ma et al. (PandaX), Phys.Rev.Lett. 130 (2023) 021802, arXiv:2207.04883.
[PandaX:2022aac]
[11-3]
First results of the nuGeN experiment on coherent elastic neutrino-nucleus scattering, I. Alekseev et al. (the nuGeN), Phys.Rev.D 106 (2022) L051101, arXiv:2205.04305.
[nGeN:2022uje]
[11-4]
Suggestive evidence for Coherent Elastic Neutrino-Nucleus Scattering from reactor antineutrinos, J. Colaresi, J.I. Collar, T.W. Hossbach, C.M. Lewis, K.M. Yocum, Phys.Rev.Lett. 129 (2022) 211802, arXiv:2202.09672.
[Colaresi:2022obx]
[11-5]
First limits on neutrino electromagnetic properties from the CONUS experiment, H. Bonet et al. (CONUS), Eur.Phys.J.C 82 (2022) 813, arXiv:2201.12257.
[CONUS:2022qbb]
[11-6]
Search for coherent elastic neutrino-nucleus scattering at a nuclear reactor with CONNIE 2019 data, Alexis Aguilar-Arevalo et al. (CONNIE), JHEP 22 (2020) 017, arXiv:2110.13033.
[CONNIE:2021ggh]
[11-7]
Measurement of the Coherent Elastic Neutrino-Nucleus Scattering Cross Section on CsI by COHERENT, D. Akimov et al. (COHERENT), Phys.Rev.Lett. 129 (2022) 081801, arXiv:2110.07730.
[COHERENT:2021xmm]
[11-8]
Novel constraints on neutrino physics beyond the standard model from the CONUS experiment, H. Bonet et al. (CONUS), JHEP 05 (2022) 085, arXiv:2110.02174.
[CONUS:2021dwh]
[11-9]
First results from a search for coherent elastic neutrino-nucleus scattering (CE$\nu$NS) at a reactor site, J. Colaresi, J. I. Collar, T. W. Hossbach, A. R. L. Kavner, C. M. Lewis, A. E. Robinson, K. M. Yocum, Phys.Rev.D 104 (2021) 072003, arXiv:2108.02880.
[Colaresi:2021kus]
[11-10]
Search for coherent elastic scattering of solar $^8$B neutrinos in the XENON1T dark matter experiment, E. Aprile et al. (XENON), Phys.Rev.Lett. 126 (2021) 091301, arXiv:2012.02846.
[XENON:2020gfr]
[11-11]
First constraints on elastic neutrino nucleus scattering in the fully coherent regime from the Conus experiment, H. Bonet et al., Phys.Rev.Lett. 126 (2021) 041804, arXiv:2011.00210.
[CONUS:2020skt]
[11-12]
COHERENT Collaboration data release from the first detection of coherent elastic neutrino-nucleus scattering on argon, D. Akimov et al. (COHERENT), arXiv:2006.12659, 2020.
[COHERENT:2020ybo]
[11-13]
First Detection of Coherent Elastic Neutrino-Nucleus Scattering on Argon, D. Akimov et al. (COHERENT), Phys.Rev.Lett. 126 (2021) 012002, arXiv:2003.10630.
[COHERENT:2020iec]
[11-14]
First Constraint on Coherent Elastic Neutrino-Nucleus Scattering in Argon, D. Akimov et al. (COHERENT), Phys.Rev. D100 (2019) 115020, arXiv:1909.05913.
[COHERENT:2019iyj]
[11-15]
Exploring low-energy neutrino physics with the Coherent Neutrino Nucleus Interaction Experiment (CONNIE), Alexis Aguilar-Arevalo et al. (CONNIE), Phys.Rev. D100 (2019) 092005, arXiv:1906.02200.
[CONNIE:2019swq]
[11-16]
COHERENT Collaboration data release from the first observation of coherent elastic neutrino-nucleus scattering, D. Akimov et al. (COHERENT), arXiv:1804.09459, 2018.
[COHERENT:2018imc]
[11-17]
Observation of Coherent Elastic Neutrino-Nucleus Scattering, D. Akimov et al. (COHERENT), Science 357 (2017) 1123-1126, arXiv:1708.01294.
[COHERENT:2017ipa]

12 - Experiment - Non-Standard Interactions

[12-1]
Search for CP-violating Neutrino Non-Standard Interactions with the NOvA Experiment, M. A. Acero et al. (NOvA), arXiv:2403.07266, 2024.
[NOvA:2024lti]
[12-2]
Testing Non-Standard Interactions Between Solar Neutrinos and Quarks with Super-Kamiokande, P. Weatherly et al. (Super-Kamiokande), arXiv:2203.11772, 2022.
[Super-Kamiokande:2022lyl]
[12-3]
Strong constraints on neutrino nonstandard interactions from TeV-scale $\nu_\mu$ disappearance at IceCube, R. Abbasi et al. (IceCube), Phys.Rev.Lett. 129 (2022) 011804, arXiv:2201.03566.
[IceCube:2022ubv]
[12-4]
Search for non-standard neutrino interactions with 10 years of ANTARES data, A. Albert et al. (ANTARES), JHEP 07 (2022) 048, arXiv:2112.14517.
[ANTARES:2021crm]
[12-5]
All-flavor constraints on nonstandard neutrino interactions and generalized matter potential with three years of IceCube DeepCore data, R. Abbasi et al. (IceCube), Phys.Rev.D 104 (2021) 072006, arXiv:2106.07755.
[IceCubeCollaboration:2021euf]
[12-6]
Search for Nonstandard Neutrino Interactions with IceCube DeepCore, M. G. Aartsen et al. (IceCube), Phys.Rev. D97 (2018) 072009, arXiv:1709.07079.
[IceCube:2017zcu]
[12-7]
A search for flavor-changing non-standard neutrino interactions using $\nu_{e}$ appearance in MINOS, P. Adamson et al. (MINOS), Phys. Rev. D95 (2017) 012005, arXiv:1605.06169.
[MINOS:2016sbv]
[12-8]
A search for flavor-changing non-standard neutrino interactions by MINOS, P. Adamson et al. (MINOS), Phys. Rev. D88 (2013) 072011, arXiv:1303.5314.
[MINOS:2013hmj]
[12-9]
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.
[Super-Kamiokande:2011dam]
[12-10]
Constraints on Non-Standard Neutrino Interactions and Unparticle Physics with Neutrino-Electron Scattering at the Kuo-Sheng Nuclear Power Reactor, M. Deniz er al. (TEXONO), Phys. Rev. D82 (2010) 033004, arXiv:1006.1947.
[TEXONO:2010tnr]

13 - Experiment - Non-Standard Interactions - Talks

[13-1]
Search for Non-standard Interactions with the MINOS Experiment, Zeynep Isvan (MINOS), arXiv:1110.1900, 2011. DPF 2011.
[Isvan:2011fa]

14 - Experiment - Universality

[14-1]
Test of lepton flavour universality using $B^0 \to D^{*-}\tau^+\nu_{\tau}$ decays with hadronic $\tau$ channels, Roel Aaij et al. (LHCb), Phys.Rev.D 108 (2023) 012018, arXiv:2305.01463.
[LHCb:2023uiv]
[14-2]
Test of lepton universality in beauty-quark decays, Roel Aaij et al. (LHCb), Nature Phys. 18 (2022) 277-282, arXiv:2103.11769.
[LHCb:2021trn]
[14-3]
Measurement of the $\pi \to e \nu$ branching ratio, A.Aguilar-Arevalo et al. (PiENu), Phys. Rev. Lett. 115 (2015) 071801, arXiv:1506.05845.
[PiENu:2015seu]

15 - Experiment - Universality - Talks

[15-1]
Test of lepton flavour universality in $b\to s\ell^+\ell^-$ decays, R.D. Moise (LHCb), arXiv:2105.06921, 2021. Electroweak session of the 55th Rencontres de Moriond, 21-27 March 2021.
[Moise:2021nje]
[15-2]
Measurements of |Vus| and Searches for Violation of Lepton Universality and CPT in Tau Decays at BaBar, Alberto Lusiani (BaBar), PoS ICHEP2010 (2010) 251, arXiv:1012.3734. 2010 ICHEP.
[Lusiani:2010eh]
[15-3]
Lepton flavour universality test at the CERN NA62 experiment, Evgueni Goudzovski (NA62), Nucl. Phys. Proc. Suppl. 210-211 (2011) 163-168, arXiv:1008.1219. BEACH 2010 (Perugia, June 2010).
[Goudzovski:2010uk]
[15-4]
Lepton universality test with Kl2 decays at NA62 experiment, Spasimir Balev, arXiv:1006.1201, 2010. Lake Louise Winter Institute 2010 proceedings.
[Balev:2010wu]
[15-5]
Tets of lepton universality and searches for lepton flavor violation at BaBar, Elisa Guido (BaBar), arXiv:1005.2333, 2010. 45th Rencontres de Moriond on Electroweak Interactions and Unified Theories, La Thuile, Italy, 06 - 13 Mar 2010.
[Guido:2010yn]
[15-6]
A Lepton Universality Test at CERN NA62 Experiment, Evgueni Goudzovski, arXiv:1005.1192, 2010. Moriond EW 2010, La Thuile, March 6-13, 2010.
[Goudzovski:2010sw]

16 - Experiment - Detector

[16-1]
Waveform Simulation for Scintillation Characteristics of NaI(Tl) Crystal, J. J. Choi et al., arXiv:2402.17125, 2024.
[Choi:2024ziz]
[16-2]
Measurements of low energy nuclear recoil quenching factors for Na and I recoils in the NaI(Tl) scintillator, S. H. Lee et al., arXiv:2402.15122, 2024.
[Lee:2024unz]
[16-3]
A measurement of the sodium and iodine scintillation quenching factors across multiple NaI(Tl) detectors to identify systematics, D. Cintas et al., arXiv:2402.12480, 2024.
[Cintas:2024pdu]
[16-4]
On the determination of the interaction time of GeV neutrinos in large argon gas TPCs, A. Saa-Hernandez et al., arXiv:2401.09920, 2024.
[Saa-Hernandez:2024tvl]
[16-5]
Prototyping a High Purity Germanium cryogenic veto system for a bolometric detection experiment, Chloe Goupy, Stefanos Marnieros, Beatrice Mauri, Claudia Nones, Matthieu Vivier, arXiv:2401.09837, 2024.
[Goupy:2024zfq]
[16-6]
Deep-learning-based decomposition of overlapping-sparse images: application at the vertex of neutrino interactions, Saul Alonso-Monsalve, Davide Sgalaberna, Xingyu Zhao, Adrien Molines, Clark McGrew, Andre Rubbia, arXiv:2310.19695, 2023.
[Alonso-Monsalve:2023xgh]
[16-7]
A Plastic Scintillation Muon Veto for Sub-Kelvin Temperatures, A. Erhart et al., Eur.Phys.J.C 84 (2024) 70, arXiv:2310.08457.
[Erhart:2023vam]
[16-8]
Low-energy spectrum of the BULLKID detector array operated on surface, D. Delicato et al., arXiv:2308.14399, 2023.
[Delicato:2023wrg]
[16-9]
Performance of a liquid nitrogen cryostat for the study of nuclear recoils in undoped CsI crystals, K. Ding, J. Liu, Y. Yang, K. Scholberg, D.M. Markoff, arXiv:2303.05437, 2023.
[Ding:2023pqe]
[16-10]
A method to measure the quenching factor for recoil energy of oxygen in bismuth germanium oxide scintillators, Yuga Ommura, Hiroshi Ito, Takatomi Yano, Akihiro Minamino, Masaki Ishitsuka, JINST 18 (2023) T04006, arXiv:2302.02111.
[Ommura:2023dec]
[16-11]
An Oxygen Target for (Anti)neutrinos, R. Petti, arXiv:2301.04744, 2023.
[Petti:2023osk]
[16-12]
Reactor neutrino physics potentials of cryogenic pure-CsI crystal, L. Wang, G. d. Li, Z. Y. Yu, X. H. Liang, T. A. Wang, X. L. Sun, C. Gu, arXiv:2212.11515, 2022.
[Wang:2022ekc]
[16-13]
Application of Transfer Learning to Neutrino Interaction Classification, Andrew Chappell, Leigh H. Whitehead, Eur.Phys.J.C 82 (2022) 1099, arXiv:2207.03139.
[Chappell:2022yxd]
[16-14]
Large-mass, low-threshold sapphire detector for rare event searches, S. Verma et al., Nucl.Instrum.Meth.A 1046 (2023) 167634, arXiv:2203.15903.
[Verma:2022tkq]
[16-15]
A low-threshold diamond cryogenic detector for sub-GeV Dark Matter searches, A. H. Abdelhameed et al., Eur.Phys.J.C 82 (2022) 851, arXiv:2203.11999.
[Abdelhameed:2022skh]
[16-16]
New Physics searches in a low threshold scintillating argon bubble chamber measuring coherent elastic neutrino-nucleus scattering in reactors, E. Alfonso-Pita, L. J. Flores, Eduardo Peinado, E. Vazquez-Jauregui, Phys.Rev.D 105 (2022) 113005, arXiv:2203.05982.
[Alfonso-Pita:2022eli]
[16-17]
Recoil imaging for dark matter, neutrinos, and physics beyond the Standard Model, C. A. J. O'Hare et al., arXiv:2203.05914, 2022.
[OHare:2022jnx]
[16-18]
A backing detector for order-keV neutrons, A. Biekert et al., Nucl.Instrum.Meth.A 1039 (2022) 166981, arXiv:2203.04896.
[Biekert:2022qtk]
[16-19]
Comments on 'Direct measurement of the ionization quenching factor of nuclear recoils in germanium in the keV energy range', J.I. Collar, C.M. Lewis, arXiv:2203.00750, 2022.
[Collar:2022ibv]
[16-20]
Constraints on the electron-hole pair creation energy and Fano factor below 150 eV from Compton scattering in a Skipper-CCD, A. M. Botti et al., Phys.Rev.D 106 (2022) 072005, arXiv:2202.03924.
[Botti:2022lkm]
[16-21]
Direct measurement of the ionization quenching factor of nuclear recoils in germanium in the keV energy range, A. Bonhomme et al., arXiv:2202.03754, 2022.
[Bonhomme:2022lcz]
[16-22]
NuSD: A Geant4 based simulation framework for segmented anti-neutrino detectors, Mustafa Kandemir, Emrah Tiras, Vincent Fischer, Comput.Phys.Commun. 277 (2022) 108387, arXiv:2201.03689.
[Kandemir:2022ftk]
[16-23]
Identification of the anomalous fast bulk events in a p-type point contact germanium detector, Renmingjie Li et al., Nucl.Sci.Tech. 33 (2022) 57, arXiv:2201.02961.
[Li:2022fho]
[16-24]
First operation of undoped CsI directly coupled with SiPMs at 77 Kelvin, Keyu Ding, Jing Liu, Eur.Phys.J.C 82 (2022) 344, arXiv:2201.00483.
[Ding:2022jjm]
[16-25]
Wide angle acceptance and high-speed track recognition in nuclear emulsion, Y. Suzuki, T. Fukuda, H. Kawahara, R. Komatani, M. Naiki, T. Nakano, T. Odagawa, M. Yoshimoto, PTEP 2022 (2022) 063H01, arXiv:2112.02887.
[Suzuki:2021euh]
[16-26]
Novel Approach for Evaluating Detector-Related Uncertainties in a LArTPC Using MicroBooNE Data, P. Abratenko et al. (MicroBooNE), Eur.Phys.J.C 82 (2022) 454, arXiv:2111.03556.
[MicroBooNE:2021roa]
[16-27]
Measurement of scintillation response of CsI[Na] to low-energy nuclear recoils by COHERENT, D. Akimov et al. (COHERENT), JINST 17 (2022) P10034, arXiv:2111.02477.
[COHERENT:2021pcd]
[16-28]
Application of CNN to a fine segmented scintillator detector for a single particle and neutrino-nucleon event, Tomohisa Ogawa, arXiv:2106.09628, 2021.
[Ogawa:2021jod]
[16-29]
Surface characterization of p-type point contact germanium detectors, F. Edzards, L. Hauertmann, I. Abt, C. Gooch, B. Lehnert, X. Liu, S. Mertens, D. C. Radford, O. Schulz, M. Willers, Particles 4 (2021) 489-511, arXiv:2105.14487.
[Edzards:2021gmi]
[16-30]
Passive low-energy nuclear recoil detection with color centers, Bernadette K. Cogswell, Apurva Goel, Patrick Huber, Phys.Rev.Applied 16 (2021) 064060, arXiv:2104.13926.
[Cogswell:2021qlq]
[16-31]
A D$_{2}$O detector for flux normalization of a pion decay-at-rest neutrino source, D. Akimov et al. (COHERENT), JINST 16 (2021) P08048, arXiv:2104.09605.
[COHERENT:2021xhx]
[16-32]
$\texttt{nrCascadeSim}$ - A simulation tool for nuclear recoil cascades resulting from neutron capture, Anthony Villano, Kitty Harris, Staci Brown, J.Open Source Softw. 7 (2022) 3993, arXiv:2104.02742.
[Villano:2021wus]
[16-33]
Germanium response to sub-keV nuclear recoils: a multipronged experimental characterization, J.I. Collar, A.R.L. Kavner, C.M. Lewis, Phys.Rev. D103 (2021) 122003, arXiv:2102.10089.
[Collar:2021fcl]
[16-34]
Response of undoped cryogenic CsI to low-energy nuclear recoils, C.M. Lewis, J.I. Collar, Phys.Rev.C 104 (2021) 014612, arXiv:2101.03264.
[Lewis:2021cjv]
[16-35]
Measurement of the ionization yield from nuclear recoils in liquid xenon between 0.3 - 6 keV with single-ionization-electron sensitivity, Brian Lenardo et al., arXiv:1908.00518, 2019.
[Lenardo:2019fcn]
[16-36]
Response of CsI[Na] to Nuclear Recoils: Impact on Coherent Elastic Neutrino-Nucleus Scattering (CE$\nu$NS), J. I. Collar, A. R. L. Kavner, C. M. Lewis, Phys.Rev. D100 (2019) 033003, arXiv:1907.04828.
[Collar:2019ihs]
[16-37]
Measurement of the low-energy quenching factor in germanium using an $^{88}$Y/Be photoneutron source, B. J. Scholz, A. E. Chavarria, J. I. Collar, P. Privitera, A. E. Robinson, Phys. Rev. D 94 (2016) 122003, arXiv:1608.03588.
[Scholz:2016qos]
[16-38]
Germanium Detector Response to Nuclear Recoils in Searching for Dark Matter, D. Barker, D. M. Mei, Astropart. Phys. 38 (2012) 1-6, arXiv:1203.4620.
[Barker:2012ek]
[16-39]
Semi-empirical calculation of quenching factors for ions in scintillators, V. I. Tretyak, Astropart. Phys. 33 (2010) 40-53, arXiv:0911.3041.
[Tretyak:2009sr]

17 - Theory

[17-1]
Invariant amplitudes, unpolarized cross sections, and polarization asymmetries in (anti)neutrino-nucleon elastic scattering, Kaushik Borah, Minerba Betancourt, Richard J. Hill, Thomas Junk, Oleksandr Tomalak, arXiv:2403.04687, 2024.
[Borah:2024hvo]
[17-2]
Medium-induced photon bremsstrahlung in (anti)neutrino-nucleus and electron-nucleus scattering from multiple QED interactions, Oleksandr Tomalak, Ivan Vitev, arXiv:2402.16851, 2024.
[Tomalak:2024lme]
[17-3]
Exploring semi-inclusive two-nucleon emission in neutrino scattering: a factorized approximation approach, V. L. Martinez-Consentino, J. E. Amaro, Symmetry 16 (2024) 247, arXiv:2402.09301.
[Martinez-Consentino:2024mdr]
[17-4]
Wake Forces, Ken Van Tilburg, arXiv:2401.08745, 2024.
[VanTilburg:2024tst]
[17-5]
QED corrections to the thermal neutrino interaction rate, G. Jackson, M. Laine, arXiv:2312.07015, 2023.
[Jackson:2023zkl]
[17-6]
Antineutrino Opacity in Neutron Stars in the Models Constrained by Recent Terrestrial Experiments and Astrophysical Observations, Parada T. P. Hutauruk, arXiv:2311.09986, 2023.
[Hutauruk:2023nqc]
[17-7]
Elastic and resonance structures of the nucleon from hadronic tensor in lattice QCD: implications for neutrino-nucleon scattering and hadron physics, Jian Liang, Raza Sabbir Sufian, Bigeng Wang, Terrence Draper, Tanjib Khan, Keh-Fei Liu, Yi-Bo Yang, arXiv:2311.04206, 2023.
[Liang:2023uai]
[17-8]
Semi-inclusive two-nucleon emission in (anti) neutrino CC scattering within the relativistic mean field framework, V. L. Martinez-Consentino, A. M. Cantizani, J. E. Amaro, Phys.Rev.C 109 (2024) 015502, arXiv:2310.12642.
[Martinez-Consentino:2023hcx]
[17-9]
Nuclear deexcitation simulator for neutrino interactions and nucleon decays of $^{12}\text{C}$ and $^{16}\text{O}$ based on TALYS, Seisho Abe, Phys.Rev.D 109 (2024) 036009, arXiv:2310.10394.
[Abe:2023iwq]
[17-10]
Reduced cross sections of electron and neutrino charged current quasielastic scattering on nuclei, A.V. Butkevich, arXiv:2310.04061, 2023.
[Butkevich:2023vjf]
[17-11]
Broadening of particle distributions in electron- and (anti)neutrino-nucleus scattering from QED interactions, Oleksandr Tomalak, Ivan Vitev, Phys.Rev.D 108 (2023) 093003, arXiv:2310.01414.
[Tomalak:2023kwl]
[17-12]
$^{16}$O spectral function from coupled-cluster theory: applications to lepton-nucleus scattering, Joanna E. Sobczyk, Sonia Bacca, arXiv:2309.00355, 2023.
[Sobczyk:2023mey]
[17-13]
Fast evaluation of heavy-quark contributions to DIS in APFEL++, P. Risse, V. Bertone, T. Jezo, M. Klasen, K. Kovarik, F. I. Olness, I. Schienbein, arXiv:2307.08269, 2023.
[Risse:2023rxd]
[17-14]
Chiral EFT calculation of neutrino reactions in warm neutron-rich matter, Eunkyoung Shin, Ermal Rrapaj, Jeremy W. Holt, Sanjay K. Reddy, Phys.Rev.C 109 (2024) 015804, arXiv:2306.05280.
[Shin:2023sei]
[17-15]
Effective field theory for radiative corrections to charged-current processes I: Vector coupling, Vincenzo Cirigliano, Wouter Dekens, Emanuele Mereghetti, Oleksandr Tomalak, Phys.Rev.D 108 (2023) 053003, arXiv:2306.03138.
[Cirigliano:2023fnz]
[17-16]
Neutrino-induced reactions on 18O and implications of 18O mixture in water Cherenkov detectors on supernova neutrino events, Toshio Suzuki, Ken'ichiro Nakazato, Makoto Sakuda, Nucl.Phys.A 1038 (2023) 122719, arXiv:2306.00277.
[Suzuki:2023mae]
[17-17]
Assisted neutrino pair production in combined external fields, Naser Ahmadiniaz, Rashid Shaisultanov, Ralf Schutzhold, Phys.Rev.D 108 (2023) 036003, arXiv:2304.05711.
[Ahmadiniaz:2023udn]
[17-18]
Mitigating Green's function Monte Carlo signal-to-noise problems using contour deformations, Gurtej Kanwar, Alessandro Lovato, Noemi Rocco, Michael Wagman, arXiv:2304.03229, 2023.
[Kanwar:2023otc]
[17-19]
Elastic neutrino scattering on nuclear systems as a probe of neutrino electromagnetic interactions, Konstantin Kouzakov, Fedor Lazarev, Alexander Studenikin, arXiv:2302.05358, 2023. 41st International Conference on High Energy Physics (ICHEP2022 6-13 July 2022, Bologna, Italy).
[Kouzakov:2023pum]
[17-20]
Radiative corrections to neutron beta decay and (anti)neutrino-nucleon scattering from low-energy effective field theory, Oleksandr Tomalak, Few Body Syst. 64 (2023) 23, arXiv:2302.00642.
[Tomalak:2023xgm]
[17-21]
Contribution of Nuclear Excitation Electromagnetic Form Factors in ${\rm ^{12}C}$ and ${\rm ^{16}O}$ to the Coulomb Sum Rule, A. Bodek, M. E. Christy, Phys.Rev.C 107 (2023) 054309, arXiv:2301.05650.
[Bodek:2023dsr]
[17-22]
On neutrino-mediated potentials in a neutrino background, Diego Blas, Ivan Esteban, M.C. Gonzalez-Garcia, Jordi Salvado, JHEP 04 (2023) 039, arXiv:2212.03889.
[Blas:2022ovz]
[17-23]
Relativistic elastic scattering of a muon neutrino by an electron in an elliptically polarized laser field, R. Chahri, S. El Asri, S. Mouslih, M. Jakha, B. Manaut, S. Taj, Phys.Lett.B 836 (2023) 137620, arXiv:2208.05048.
[Chahri:2022qdq]
[17-24]
QED nuclear medium effects in (anti)neutrino-nucleus and electron-nucleus scattering, Oleksandr Tomalak, Ivan Vitev, Phys.Lett.B 835 (2022) 137492, arXiv:2206.10637.
[Tomalak:2022kjd]
[17-25]
Radiative corrections to neutron and nuclear $\beta$-decays: a serious kinematics problem in the literature, Ferenc Gluck, JHEP 09 (2023) 188, arXiv:2205.05042.
[Gluck:2022ogz]
[17-26]
Spectral function for $^4$He using the Chebyshev expansion in coupled-cluster theory, J. E. Sobczyk, S. Bacca, G. Hagen, T. Papenbrock, Phys.Rev.C 106 (2022) 034310, arXiv:2205.03592.
[Sobczyk:2022ezo]
[17-27]
Theory of QED radiative corrections to neutrino scattering at accelerator energies, Oleksandr Tomalak, Qing Chen, Richard J Hill, Kevin S McFarland, Clarence Wret, Phys.Rev.D 106 (2022) 093006, arXiv:2204.11379.
[Tomalak:2022xup]
[17-28]
Laser-assisted scattering of a muon neutrino by an electron within the Electroweak theory, S. El Asri, S. Mouslih, M. Ouali, S. Taj, B Manaut, Laser Phys. 32 (2022) 126001, arXiv:2203.14955.
[Asri:2022ydw]
[17-29]
Weak pion-production and the second resonance region, D.F. Tamayo Agudelo, A. Mariano, D.E. Jaramillo Arango, Phys.Rev.D 105 (2022) 033008, arXiv:2202.04760.
[Agudelo:2022ixe]
[17-30]
Benchmarking intra-nuclear cascade models for neutrino scattering with relativistic optical potentials, Alexis Nikolakopoulos, Raul Gonzalez-Jimenez, Natalie Jachowicz, Kajetan Niewczas, Federico Sanchez, Jose Manuel Udias, Phys.Rev.C 105 (2022) 054603, arXiv:2202.01689.
[Nikolakopoulos:2022qkq]
[17-31]
On the short-range behavior of neutrino forces: from $1/r^{5}$ to $1/r^{4}$, $1/r^2$, and $1/r$, Xun-jie Xu, Bingrong Yu, JHEP 02 (2022) 008, arXiv:2112.03060.
[Xu:2021daf]
[17-32]
QED radiative corrections to neutrino-nucleon elastic scattering, Oleksandr Tomalak, Qing Chen, Richard J. Hill, Kevin S. McFarland, arXiv:2105.07939, 2021.
[Tomalak:2021qrg]
[17-33]
Ab initio computation of the longitudinal response function in $^{40}$Ca, J. E. Sobczyk, B. Acharya, S. Bacca, G. Hagen, Phys.Rev.Lett. 127 (2021) 072501, arXiv:2103.06786.
[Sobczyk:2021dwm]
[17-34]
CP-Symmetry in Scattering of Neutrinos from Nuclei, R.B. Begzhanov, R.S. Sharafiddinov, Bull.Russ.Acad.Sci.Phys. 64 (2000) 1764-1769, arXiv:2101.11912.
[Begzhanov:2000bm]
[17-35]
Quantum Entanglement and Thermal Behavior in Charged-Current Weak Interactions, G. Iskander, J. Pan, M. Tyler, C. Weber, O.K. Baker, Phys.Lett. B811 (2020) 135948, arXiv:2010.00709.
[Iskander:2020rkb]
[17-36]
Probing New Physics with Long-Range Neutrino Interactions: An Effective Field Theory Approach, Patrick D. Bolton, Frank F. Deppisch, Chandan Hati, JHEP 2007 (2020) 013, arXiv:2004.08328.
[Bolton:2020xsm]
[17-37]
The Neutrino Casimir Force, Alexandria Costantino, Sylvain Fichet, JHEP 2009 (2020) 122, arXiv:2003.11032.
[Costantino:2020bei]
[17-38]
Neutral-Current Neutrino Scattering from the Deuteron, Sabine Jeschonnek, J. W. Van Orden, T. W. Donnelly, Phys.Rev. C101 (2020) 064621, arXiv:2001.06537.
[Jeschonnek:2020hjh]
[17-39]
Absolute neutrino mass and the Dirac/Majorana distinction from the weak interaction of aggregate matter, Alejandro Segarra, Jose Bernabeu, Phys.Rev. D101 (2020) 093004, arXiv:2001.05900.
[Segarra:2020rah]
[17-40]
A Survey of Nuclear Pasta in the Intermediate Density Regime: Structure Functions for Neutrino Scattering, B. Schuetrumpf, G. Martinez-Pinedo, P.-G. Reinhard, Phys.Rev. C101 (2020) 055804, arXiv:1912.10510.
[Schuetrumpf:2019hqe]
[17-41]
Calculated solar-neutrino capture rate for a radiochemical 205 Tl-based solar-neutrino detector, Joel Kostensalo, Jouni Suhonen, Kai Zuber, Phys.Rev. C101 (2020) 031302, arXiv:1912.05334.
[Kostensalo:2019cua]
[17-42]
Neutrino-Deuteron Reactions at Solar Neutrino Energies in Pionless Effective Field Theory with Dibaryon Fields, Shung-Ichi Ando, Young-Ho Song, Chang Ho Hyun, Phys.Rev. C101 (2020) 054001, arXiv:1911.11307.
[Ando:2019yum]
[17-43]
On the effective theory of neutrino-electron and neutrino-quark interactions, Richard J. Hill, Oleksandr Tomalak, Phys.Lett. B805 (2020) 135466, arXiv:1911.01493.
[Hill:2019xqk]
[17-44]
A thermal neutrino interaction rate at NLO, G. Jackson, M. Laine, Nucl.Phys. B950 (2020) 114870, arXiv:1910.12880.
[Jackson:2019tnr]
[17-45]
Nuclear binding energy and transverse momentum imbalance in neutrino-nucleus reaction, T. Cai et al., Phys.Rev. D101 (2020) 092001, arXiv:1910.08658.
[MINERvA:2019ope]
[17-46]
Neutrino-nucleus cross sections for W-boson and trident production, Bei Zhou, John F. Beacom, Phys.Rev. D101 (2020) 036011, arXiv:1910.08090.
[Zhou:2019vxt]
[17-47]
Pion-Proton Correlation in Neutrino Interactions on Nuclei, Tejin Cai, Xianguo Lu, Daniel Ruterbories, Phys.Rev. D100 (2019) 073010, arXiv:1907.11212.
[Cai:2019jzk]
[17-48]
Theory of elastic neutrino-electron scattering, Oleksandr Tomalak, Richard Hill, Phys.Rev. D101 (2020) 033006, arXiv:1907.03379.
[Tomalak:2019ibg]
[17-49]
Electroweak pion-production on nuclei within the extended factorization scheme, Noemi Rocco, Satoshi X. Nakamura, T.-S. H. Lee, Alessandro Lovato, Phys.Rev. C100 (2019) 045503, arXiv:1907.01093.
[Rocco:2019gfb]
[17-50]
Weak production of strange $\Xi$ baryons off the nucleon, M. Rafi Alam, I. Ruiz Simo, Phys.Rev. D100 (2019) 033001, arXiv:1906.07049.
[RafiAlam:2019rft]
[17-51]
Polarization of tau in quasielastic (anti)neutrino scattering: the role of spectral functions, J.E. Sobczyk, N. Rocco, J.Nieves, Phys.Rev. C100 (2019) 035501, arXiv:1906.05656.
[Sobczyk:2019urm]
[17-52]
Towards the nucleon hadronic tensor from lattice QCD, Jian Liang, Terrence Draper, Keh-Fei Liu, Alexander Rothkopf, Yi-Bo Yang, Phys.Rev. D101 (2020) 114503, arXiv:1906.05312.
[Liang:2019frk]
[17-53]
Spin-Independent 2-Neutrino Exchange Potential with Mixing, Quan Le Thien, Dennis E. Krause, Phys.Rev. D99 (2019) 116006, arXiv:1901.05345.
[LeThien:2019lxh]
[17-54]
Non-relativistic limit of the interaction of massive neutrinos, Andre Fabiano Steklain, arXiv:1901.01835, 2019.
[Steklain:2018rre]
[17-55]
Neutral-current weak pion production off the nucleon in covariant chiral perturbation theory, De-Liang Yao, Luis Alvarez-Ruso, M. J. Vicente Vacas, Phys.Lett. B794 (2019) 109-113, arXiv:1901.00773.
[Yao:2019avf]
[17-56]
Dispersive Evaluation of the Inner Radiative Correction in Neutron and Nuclear $\beta$-decay, Chien Yeah Seng, Mikhail Gorchtein, Michael J. Ramsey-Musolf, Phys.Rev. D100 (2019) 013001, arXiv:1812.03352.
[Seng:2018qru]
[17-57]
Neutrino-nucleus cross section within the extended factorization scheme, Noemi Rocco, Carlo Barbieri, Omar Benhar, Arturo De Pace, Alessandro Lovato, Phys.Rev. C99 (2019) 025502, arXiv:1810.07647.
[Rocco:2018mwt]
[17-58]
Many-Body Neutrino-Exchange Interactions and Neutrino Mass: Comment on Phys. Rev. Lett. 120, 223202 (2018), E. Fischbach, arXiv:1809.09731, 2018.
[Fischbach:2018rfp]
[17-59]
Coulomb corrections to the bremsstrahlung and electron pair production cross section of high-energy muons on extended nuclei, Alexander Sandrock, Wolfgang Rhode, arXiv:1807.08475, 2018.
[Sandrock:2018ivj]
[17-60]
Elastic Scattering in General Relativistic Ray Tracing for Neutrinos, M. Brett Deaton et al., Phys.Rev. D98 (2018) 103014, arXiv:1806.10255.
[Deaton:2018ser]
[17-61]
Quasielastic charged-current neutrino scattering in the scaling model with relativistic effective mass, I. Ruiz Simo, V.L. Martinez-Consentino, J.E. Amaro, E. Ruiz Arriola, Phys.Rev. D97 (2018) 116006, arXiv:1804.07548.
[RuizSimo:2018kdl]
[17-62]
On the role of neutrino mixing in accelerated proton decay, Massimo Blasone, Gaetano Lambiase, Giuseppe Gaetano Luciano, Luciano Petruzziello, Phys.Rev. D97 (2018) 105008, arXiv:1803.05695.
[Blasone:2018czm]
[17-63]
Dirac and Majorana Feynman Rules with four-fermions, Michael Paraskevas, arXiv:1802.02657, 2018.
[Paraskevas:2018mks]
[17-64]
Neutrino emission from Cooper pairs at finite temperatures, Lev B. Leinson, Adv.High Energy Phys. 2018 (2018) 8963453, arXiv:1712.10214.
[Leinson:2017dlo]
[17-65]
Polarization Transfer in Weak Pion Production off the Nucleon, Krzysztof M. Graczyk, Beata E. Kowal, Phys.Rev. D97 (2018) 013001, arXiv:1711.04868.
[Graczyk:2017rti]
[17-66]
Probing 'long-range' neutrino-mediated forces with atomic and nuclear spectroscopy, Yevgeny V. Stadnik, Phys.Rev.Lett. 120 (2018) 223202, arXiv:1711.03700.
[Dzuba:2017cas]
[17-67]
Ab initio calculation of neutral-current $\nu$-$^{12}$C inclusive quasielastic scattering, A. Lovato et al., Phys.Rev. C97 (2018) 022502, arXiv:1711.02047.
[Lovato:2017cux]
[17-68]
Effects of initial spatial phase in radiative neutrino pair emission, Minoru Tanaka, Koji Tsumura, Noboru Sasao, Satoshi Uetake, Motohiko Yoshimura, Phys.Rev. D96 (2017) 113005, arXiv:1710.07136.
[Tanaka:2017juo]
[17-69]
Extraction of nucleon axial charge and radius from lattice QCD results using baryon chiral perturbation theory, De-Liang Yao, Luis Alvarez-Ruso, Manuel J. Vicente-Vacas, Phys.Rev. D96 (2017) 116022, arXiv:1708.08776.
[Yao:2017fym]
[17-70]
Effective mixing between clouds of different species of particles that are massless, or nearly massless, R. F. Sawyer, arXiv:1702.03013, 2017.
[Sawyer:2017yex]
[17-71]
Loop corrections to pion and kaon neutrinoproduction, Marat Siddikov, Ivan Schmidt, Phys. Rev. D95 (2017) 013004, arXiv:1611.07294.
[Siddikov:2016zmt]
[17-72]
Calculation of the Nucleon Axial Form Factor Using Staggered Lattice QCD, Aaron S. Meyer, Richard J. Hill, Andreas S. Kronfeld, Ruizi Li, James N. Simone, PoS LATTICE2016 (2016) 179, arXiv:1610.04593.
[Meyer:2016kwb]
[17-73]
Towards Construction of a Unified Model for the Neutrino-Nucleus Reactions, S.X. Nakamura et al., Rept.Prog.Phys. 80 (2017) 056301, arXiv:1610.01464.
[Nakamura:2016cnn]
[17-74]
Chiral Shock Waves, Srimoyee Sen, Naoki Yamamoto, Phys.Rev.Lett. 118 (2017) 181601, arXiv:1609.07030.
[Sen:2016jzl]
[17-75]
Neutrino-Pair Exchange Long-Range Force Between Aggregate Matter, A. Segarra, arXiv:1606.05087, 2016.
[Segarra:2015mqp]
[17-76]
Isospin decomposition of $\gammaN \to N^*$ transitions within a dynamical coupled-channels model, H. Kamano, S. X. Nakamura, T.-S. H. Lee, T. Sato, Phys. Rev. C94 (2016) 015201, arXiv:1605.00363.
[Kamano:2016bgm]
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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.
[Ding:2006ud]
[17-191]
Resonance production by neutrinos: The second resonance region, Olga Lalakulich, Emmanuel A. Paschos, Giorgi Piranishvili, Phys. Rev. D74 (2006) 014009, arXiv:hep-ph/0602210.
[Lalakulich:2006sw]
[17-192]
Charged Current Neutrino Nucleus Interactions at Intermediate Energies, T. Leitner, L. Alvarez-Ruso, U. Mosel, Phys. Rev. C73 (2006) 065502, arXiv:nucl-th/0601103.
[Leitner:2006ww]
[17-193]
Asymptotic neutrino-nucleon cross section and saturation effects, R. Fiore, L. L. Jenkovszky, A. V. Kotikov, F. Paccanoni, A. Papa, Phys. Rev. D73 (2006) 053012, arXiv:hep-ph/0512259.
[Fiore:2005wf]
[17-194]
Ultra-High Energy Neutrino-Nucleon Scattering and Parton Distributions at Small $x$, Ernest M. Henley, Jamal Jalilian-Marian, Phys. Rev. D73 (2006) 094004, arXiv:hep-ph/0512220.
[Henley:2005ms]
[17-195]
Random phase approximation to neutrino energy losses from a relativistic electron-positron plasma, L.B. Leinson, A. Perez, arXiv:hep-ph/0511130, 2005.
[Leinson:2005qc]
[17-196]
Radiative corrections to the neutrino deuteron reactions, Masataka Fukugita, Takahiro Kubota, Phys. Rev. D72 (2005) 071301, arXiv:hep-ph/0509123.
[Fukugita:2005hs]
[17-197]
Poincare-invariant spectator-model currents for electroweak nucleon form factors, R. F. Wagenbrunn, T. Melde, W. Plessas, arXiv:hep-ph/0509047, 2005.
[Wagenbrunn:2005wk]
[17-198]
Bremsstrahlung neutrinos from electron-electron scattering in a relativistic degenerate electron plasma, Prashanth Jaikumar, Charles Gale, Dany Page, Phys. Rev. D72 (2005) 123004, arXiv:hep-ph/0508245.
[Jaikumar:2005gm]
[17-199]
Polarized Neutron $\beta$-Decay: the Proton Asymmetry and Recoil-Order Currents, S. K. L. Sjue, Phys. Rev. C72 (2005) 045501, arXiv:nucl-th/0507041.
[Sjue:2005ks]
[17-200]
The electron energy spectrum in muon decay through $O(\alpha^2)$, Charalampos Anastasiou, Kirill Melnikov, Frank Petriello, JHEP 09 (2007) 014, arXiv:hep-ph/0505069.
[Anastasiou:2005pn]
[17-201]
High-energy limit of neutrino quasielastic cross section, Artur M. Ankowski, Acta Phys. Polon. B37 (2006) 377, arXiv:hep-ph/0503187.
[Ankowski:2005jf]
[17-202]
Semi-relativistic description of quasielastic neutrino reactions and superscaling in a continuum shell model, J. E. Amaro, M. B. Barbaro, J. A. Caballero, T. W. Donnelly, C. Maieron, Phys. Rev. C71 (2005) 065501, arXiv:nucl-th/0503062.
[Amaro:2005dn]
[17-203]
Resonance production by neutrinos: I. J=3/2 Resonances, Olga Lalakulich, Emmanuel A. Paschos, Phys. Rev. D71 (2005) 074003, arXiv:hep-ph/0501109.
[Lalakulich:2005cs]
[17-204]
Dynamical Zero in $\bar\nu_{e}$-$e^{-}$ Scattering and the Neutrino Magnetic Moment, J. Bernabeu, J. Papavassiliou, M. Passera, Phys. Lett. B613 (2005) 162, arXiv:hep-ph/0412165.
[Bernabeu:2004ay]
[17-205]
Pair production with neutrinos and high-intensity laser fields, Todd M. Tinsley, Phys. Rev. D71 (2005) 073010, arXiv:hep-ph/0412014.
[Tinsley:2004pe]
[17-206]
Analytical evolution of nucleon structure functions with power corrections at twist-4 and predictions for ultra-high energy neutrino-nucleon cross section, R. Fiore et al., Phys. Rev. D71 (2005) 033002, arXiv:hep-ph/0412003.
[Fiore:2004nt]
[17-207]
Leading Twist Amplitudes for Exclusive Neutrino Interactions in the Deeply Virtual Limit, Claudio Coriano', Marco Guzzi, Phys. Rev. D71 (2005) 053002, arXiv:hep-ph/0411253.
[Coriano:2004bk]
[17-208]
Improved low Q2 model for neutrino and electron nucleon cross sections in few GeV region, Arie Bodek, Inkyu Park, Un-ki Yang, Nucl. Phys. Proc. Suppl. 139 (2005) 113, arXiv:hep-ph/0411202.
[Bodek:2004pc]
[17-209]
Neutron Fraction and Neutrino Mean Free Path Predictions in Relativistic Mean Field Models, P.T.P. Hutauruk, C.K. Williams, A. Sulaksono, T. Mart, Phys. Rev. C70 (2004) 068801, arXiv:nucl-th/0411034.
[Hutauruk:2004uf]
[17-210]
Using electron scattering superscaling to predict charge- changing neutrino cross sections in nuclei, J. E. Amaro et al., Phys. Rev. C71 (2005) 015501, arXiv:nucl-th/0409078.
[Amaro:2004bs]
[17-211]
Radiative Corrections to Deep-Inelastic Neutrino-Nucleon Scattering in the MSSM, O. Brein, B. Koch, W. Hollik, arXiv:hep-ph/0408331, 2004.
[Brein:2004zz]
[17-212]
Polarization effects in tau production by neutrino, K. Hagiwara, K. Mawatari, H. Yokoya, Nucl. Phys. Proc. Suppl. 139 (2005) 140, arXiv:hep-ph/0408212.
[Hagiwara:2004gs]
[17-213]
Neutrino magnetic moment contribution to the neutrino deuteron reaction, K. Tsuji, S. Nakamura, T. Sato, K. Kubodera, F. Myhrer, Phys. Lett. B602 (2004) 60, arXiv:nucl-th/0408051.
[Tsuji:2004pq]
[17-214]
Radiative Corrections to Neutrino Deep Inelastic Scattering Revisited, A. B. Arbuzov, D. Yu. Bardin, L. V. Kalinovskaya, JHEP 0506 (2005) 078, arXiv:hep-ph/0407203.
[Arbuzov:2004zr]
[17-215]
Neutrino superfluidity, Joseph I. Kapusta, Phys. Rev. Lett. 93 (2004) 251801, arXiv:hep-th/0407164.
[Kapusta:2004gi]
[17-216]
Full One-Loop Radiative Corrections to the Asymmetry Parameter of Polarised Neutron Beta Decay, Masataka Fukugita, Takahiro Kubota, Phys. Lett. B598 (2004) 67, arXiv:hep-ph/0405298.
[Fukugita:2004pq]
[17-217]
Radiative Corrections to Neutrino-Nucleon Quasielastic Scattering, Masataka Fukugita, Takahiro Kubota, Acta Phys. Polon. B35 (2004) 1687, arXiv:hep-ph/0403149.
[Fukugita:2004cq]
[17-218]
Relativistic theory of inverse beta-decay of polarized neutron in strong magnetic field, Sergey Shinkevich, Alexander Studenikin, Pramana 65 (2005) 215, arXiv:hep-ph/0402154.
[Shinkevich:2004ja]
[17-219]
Neutron beta decay in effective field theory, S. Ando et al., Phys. Lett. B595 (2004) 250, arXiv:nucl-th/0402100.
[Ando:2004rk]
[17-220]
Neutrino-pasta scattering: The opacity of nonuniform neutron-rich matter, Charles J. Horowitz, M. A. Perez-Garcia, J. Piekarewicz, Phys. Rev. C69 (2004) 045804, arXiv:astro-ph/0401079.
[Horowitz:2004yf]
[17-221]
Spectrum of recoil nucleons in quasi-elastic neutrino nucleus interactions, C. Juszczak, J. A. Nowak, J. T. Sobczyk, Eur. Phys. J. C39 (2003) 195-200, arXiv:nucl-th/0311051.
[Juszczak:2003zw]
[17-222]
Charged-current neutrino Pb-208 reactions, C. Volpe, N. Auerbach, G. Colo, N. Van Giai, Phys. Rev. C65 (2002) 044603, arXiv:nucl-th/0103039.
[Volpe:2001gy]
[17-223]
Neutrino nucleus interactions and nuclear giant resonances, N. Auerbach, C. Volpe, G. Colo, T. Suzuki, N. Van Giai, Nucl. Phys. A687 (2001) 289-296.
[Auerbach:2001ex]
[17-224]
Neutrino C-12 reactions and the LSND and KARMEN experiments on neutrino oscillations, C. Volpe, N. Auerbach, G. Colo, T. Suzuki, N. Van Giai, Phys. Atom. Nucl. 64 (2001) 1165-1168.
[Volpe:2001qe]
[17-225]
Microscopic theories of neutrino C-12 reactions, C. Volpe, N. Auerbach, G. Colo, T. Suzuki, N. Van Giai, Phys. Rev. C62 (2000) 015501, arXiv:nucl-th/0001050.
[Volpe:2000zn]
[17-226]
Radiative corrections in neutrino deuterium scattering, I. S. Towner, Phys. Rev. C 58 (1998) 1288-1297.
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Radiative corrections to $\pi_{l2}$ decays, William J. Marciano, A. Sirlin, Phys. Rev. Lett. 71 (1993) 3629-3632.
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CVC and PCAC in neutrino - lepton interactions, A. Weber, L. M. Sehgal, Nucl. Phys. B359 (1991) 262-282.
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Radiative Corrections to the Neutral Current Interactions in the {Weinberg-Salam} Model, S. Sakakibara, Phys. Rev. D24 (1981) 1149.
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[17-231]
Tests for neutral currents in neutrino reactions, E. A. Paschos, L. Wolfenstein, Phys. Rev. D7 (1973) 91-95.
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[17-232]
Effects of a neutral intermediate boson in semileptonic processes, Steven Weinberg, Phys. Rev. D5 (1972) 1412-1417.
[Weinberg:1972tu]
[17-233]
On the $\bar\nu_{e} + e^{-} \to \bar\nu_{e} + e^{-}$ process, D. Yu. Bardin, Samoil M. Bilenky, B. Pontecorvo, Phys.Lett. B32 (1970) 68-70.
[Bardin:1970wr]
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High-energy neutrino - nucleon scattering, current algebra and partons, David J. Gross, Chris H. Llewellyn Smith, Nucl. Phys. B14 (1969) 337-347.
[Gross:1969jf]
[17-235]
Inequality for backward electron - nucleon and muon - nucleon scattering at high momentum transfer, J. D. Bjorken, Phys. Rev. 163 (1967) 1767-1769.
Comment: Bjorken sum rule.
[Bjorken:1967px]
[17-236]
Sum rules giving tests of local current commutation relations in high-energy neutrino reactions, Stephen L. Adler, Phys. Rev. 143 (1966) 1144-1155.
Comment: Adler sum rule.
[Adler:1965ty]
[17-237]
The axial vector current in beta decay, Murray Gell-Mann, M Levy, Nuovo Cim. 16 (1960) 705.
[Gell-Mann:1960np]
[17-238]
Theory of the Fermi interaction, R. P. Feynman, Murray Gell-Mann, Phys. Rev. 109 (1958) 193-198.
[Feynman:1958ty]
[17-239]
Decay of the pi meson, M. L. Goldberger, S. B. Treiman, Phys. Rev. 110 (1958) 1178-1184.
[Goldberger:1958tr]
[17-240]
Form-factors in Beta decay and muon capture, M. L. Goldberger, S. B. Treiman, Phys. Rev. 111 (1958) 354-361.
[Goldberger:1958vp]
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Mass reversal and weak interactions, J. J. Sakurai, Nuovo Cim. 7 (1958) 649-660.
[Sakurai:1958zz]
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Chirality invariance and the universal Fermi interaction, E. C. G. Sudarshan, R. E. Marshak, Phys. Rev. 109 (1958) 1860-1862.
[Sudarshan:1958vf]
[17-243]
Charge symmetry of weak interactions, Steven Weinberg, Phys. Rev. 112 (1958) 1375-1379.
[Weinberg:1958ut]
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S.S. Gerstein, Y.B. Zeldovich, Sov. Phys. JETP 2 (1956) 576.
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The Universal Fermi interaction, E. J. Konopinski, H. M. Mahmoud, Phys. Rev. 92 (1953) 1045-1049.
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On the Fermi Theory of Beta Radioactivity. II. The Forbidden Spectra, E. J. Konopinski, G. E. Uhlenbeck, Phys. Rev. 60 (1941) 308-320. http://prola.aps.org/pdf/PR/v60/i4/p308_1.
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Selection rules for the $\beta$-disintegration, G. Gamow, E. Teller, Phys. Rev. 49 (1936) 895-899.
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On the Fermi Theory of Beta Radioactivity, E. J. Konopinski, G. E. Uhlenbeck, Phys. Rev. 48 (1935) 7-12. http://prola.aps.org/pdf/PR/v48/i1/p7_1.
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Attempt at a theory of $\beta$ rays, E. Fermi, Z. Phys. 88 (1934) 161-177. In German.
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[17-250]
Attempt at a theory of $\beta$ rays, E. Fermi, Nuovo Cim. 11 (1934) 1-19. In Italian.
[Fermi:1934sk]
[17-251]
Attempt at a theory of the emission of $\beta$ rays, E. Fermi, Ricerca Scientifica 4 (1933) 491. In Italian.
[Fermi-1933]

18 - Theory - Talks

[18-1]
On ultrahigh-energy neutrino-nucleon deep-inelastic scattering and the Froissart bound, A. V. Kotikov, I. A. Kotikov, Phys.Atom.Nucl. 86 (2023) 1275-1280, arXiv:2307.16229. 4th International Symposium on Cosmic Rays and Astrophysics (June 27-29, Moscow, Russia).
[Kotikov:2023umj]
[18-2]
The 2-Neutrino-Exchange Potential with Mixing: A New Arena for Neutrino Mixing and CP-Violation, Q. Le Thien, D. E. Krause, arXiv:1909.07518, 2019. 3 Neutrinos and Beyond, 15th Rencontres du Vietnam.
[LeThien:2019tpj]
[18-3]
The 2-Neutrino Exchange Potential with Mixing: A Probe of Neutrino Physics and CP Violation, D. E. Krause, Q. Le Thien, arXiv:1905.10918, 2019. Eighth Meeting on CPT and Lorentz Symmetry, Bloomington, Indiana, May 12-16, 2019.
[Krause:2019dxl]
[18-4]
Meson-exchange currents and quasielastic predictions for neutrino-nucleus scattering, M.B. Barbaro et al., PoS NuFact2017 (2017) 073, arXiv:1804.03483. 19th International Workshop on Neutrinos from Accelerators-NUFACT2017, 25-30 September, 2017, Uppsala, Sweden.
[Barbaro:2017jdw]
[18-5]
The coherent weak charge of matter, Alejandro Segarra, arXiv:1712.01049, 2017. 18th Lomonosov.
[Segarra:2017rbl]
[18-6]
Axial-Current Matrix Elements in Light Nuclei from Lattice QCD, Martin J. Savage et al., PoS ICHEP2016 (2016) 506, arXiv:1611.00344. 38th International Conference on High Energy Physics, 3-10 August 2016, Chicago, USA.
[Savage:2016mlr]
[18-7]
Isospin decomposition of the $\gamma^{(*)} N \to N^*$ transitions as input for constructing models of neutrino-induced reactions in the nucleon resonance region, H. Kamano, S. X. Nakamura, T.-S. H. Lee, T. Sato, arXiv:1610.01710, 2016. 18th International Workshop on Neutrino Factories and Future Neutrino Facilities Search (NuFact16), Quy Nhon, Vietnam, August 21-27, 2016.
[Kamano:2016bko]
[18-8]
Neutrino-Nucleon Cross section in Ultra High Energy Regime, Kalpana Bora, Neelakshi Sarma, Springer Proc. Phys. 174 (2016) 345-351, arXiv:1511.02676. XXI DAE HEP symposium, IIT Guwahati, December 2014, Assam, India.
[Bora:2015vwi]
[18-9]
Neutrino photoproduction on electron in dense magnetized medium, M.V. Chistyakov, A.V. Kuznetsov, N.V. Mikheev, D.A. Rumyantsev, D.M. Shlenev, arXiv:1410.5566, 2014. XVIII International Seminar Quarks'2014, Suzdal, Russia, June 2-8, 2014.
[Chistyakov:2014cga]
[18-10]
Neutrino production of electron-positron pairs at excited Landau levels in a strong magnetic field, A.V. Kuznetsov, D.A. Rumyantsev, V.N. Savin, arXiv:1408.6985, 2014. XVIII International Seminar Quarks'2014, Suzdal, Russia, June 2-8, 2014.
[Kuznetsov:2014iga]
[18-11]
The Relativistic Green's Function Model for Quasielastic Neutrino-Nucleus Scattering, Carlotta Giusti, Andrea Meucci, Nucl.Theor. 32 (2013) 50-60, arXiv:1309.4267. IWNT-32, 23-29 June 2013, Rila Mountains (Bulgaria).
[Giusti:2013gsa]
[18-12]
Radiative corrections to anti-neutrino proton scattering, Udit Raha, Fred Myhrer, Kuniharu Kubodera, PoS CD12 (2013) 103, arXiv:1301.1358. Chiral Dynamics 2012.
[Raha:2013ev]
[18-13]
Relativistic models for quasielastic electron and neutrino-nucleus scattering, Carlotta Giusti, Andrea Meucci, EPJ Web Conf. 38 (2012) 14004, arXiv:1212.2757. NSRT12 International Conference on Nuclear Structure and Related Topics, Dubna, Russia July 3-7, 2012.
[Giusti:2012dm]
[18-14]
Incurable Adler relation for soft neutrino interactions, B. Z. Kopeliovich, I. K. Potashnikova, Ivan Schmidt, M. Siddikov, EPJ Web Conf. 70 (2014) 00012, arXiv:1210.0411. International Conference on New Frontiers in Physics, Crete, June 10-16, 2012.
[Kopeliovich:2012kk]
[18-15]
UHE Neutrinos: Fusing gluons within diffraction cone, R. Fiore, V. R. Zoller, arXiv:1111.0516, 2011. Low-x, 2-7 June 2011 Santiago de Compostela.
[Fiore:2011ki]
[18-16]
Neutrino nucleus reactions at high energies within the GiBUU model, O. Lalakulich, K. Gallmeister, T. Leitner, U. Mosel, AIP Conf. Proc. 1405 (2011) 166-172, arXiv:1107.5944. NuInt11, Dehradun, India, March 2011.
[Lalakulich:2011nc]
[18-17]
Exact Analytical Solutions in Three-Body Problems and Model of Neutrino Generator, Nurgali Takibayev, EPJ Web Conf. 3 (2010) 05028, arXiv:1002.2257. 19th International IUPAP Conference on Few-Body Problems in Physics, 30Aug - 05 Sep 2009, Bonn,Germany.
[Takibayev:2010rj]
[18-18]
Neutrino interactions with nuclei, M. Martini, G. Chanfray, M. Ericson, J. Marteau, AIP Conf. Proc. 1189 (2009) 323-326, arXiv:0909.0642. 6th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt09), Sitges, Spain, 18 - 22 May 2009.
[Martini:2009yw]
[18-19]
Dynamical Model of Coherent Electroweak Pion Production Reactions on Nuclei, S. X. Nakamura, T. Sato, T.-S. H. Lee, B. Szczerbinska, K. Kubodera, AIP Conf. Proc. 1189 (2009) 230-235, arXiv:0908.3837. NUINT2009 (6th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region), May 18-22, 2009, Sitges, Barcelona, Spain.
[Nakamura:2009kr]
[18-20]
Neutrino nucleus cross sections, M. Sajjad Athar, S. Chauhan, S. K. Singh, M. J. Vicente Vacas, arXiv:0808.1437, 2008. 4th DAE-BRNS Workshop on Hadron Physics, AMU, Aligarh, India, 18-23 Feb 2008.
[SajjadAthar:2008gw]
[18-21]
Neutrino induced weak pion production off the nucleon, E. Hernandez, J. Nieves, M. Valverde, Mod. Phys. Lett. A23 (2008) 2317-2320, arXiv:0802.1627. Chiral Symmetry in Hadron and Nuclear Physics (CHIRAL07), Osaka, November 13-16, 2007.
[Hernandez:2008qx]
[18-22]
Neutrino Interaction Calculations from MeV to GeV Region, J. E. Amaro, J. Nieves, M. Valverde, M. J. Vicente-Vacas, AIP Conf. Proc. 981 (2008) 65-69, arXiv:0710.5884. 9th International Workshop On Neutrino Factories, Superbeams and Betabeams (NuFact07) August 6-11, 2007, Okayama University, Japan.
[Amaro:2007fr]
[18-23]
Chiral Symmetry and Neutrino Pion Production off the Nucleon, E. Hernandez, J. Nieves, M. Valverde, AIP Conf. Proc. 981 (2008) 237-239, arXiv:0710.5587. 9th International Workshop On Neutrino Factories, Superbeams and Betabeams (NuFact07) August 6-11, 2007, Okayama University, Japan.
[Hernandez:2007kb]
[18-24]
Coherent Pion Production by Neutrinos, E. A. Paschos, AIP Conf. Proc. 967 (2007) 162-165, arXiv:0710.5075.
[Paschos:2007nz]
[18-25]
Nuclear effects in Neutrino Nuclear Cross-sections, S.K.Singh, M. Sajjad Athar, AIP Conf. Proc. 981 (2008) 240-242, arXiv:0710.4467. Ninth International Workshop on Neutrino Factories, Superbeams and Betabeams (NuFact07), August 6-11, 2007, Okayama University, Okayama, Japan.
[Singh:2007yw]
[18-26]
A relativistic model for neutrino pion production from nuclei in the resonance region, C. Praet, O. Lalakulich, N. Jachowicz, J. Ryckebusch, AIP Conf. Proc. 967 (2007) 295-297, arXiv:0710.0312. NuInt07.
[Praet:2007ij]
[18-27]
Deeply Virtual Neutrino Scattering, Ales Psaker, AIP Conf. Proc. 967 (2007) 276-281, arXiv:0709.0926. Fifth International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region, FNAL, May 30 - June 3, 2007.
[Psaker:2007is]
[18-28]
Coherent pion production in neutrino-nucleus collisions, L. Alvarez-Ruso, L. S. Geng, S. Hirenzaki, M. J. Vicente Vacas, arXiv:0709.0728, 2007. International Nuclear Physics Conference (INPC 2007), Tokyo, Japan, June 3-8, 2007.
[Alvarez-Ruso:2007irj]
[18-29]
Higher Mellin moments for charged current DIS, M. Rogal, S. Moch, PoS ACAT2007 (2007) 086, arXiv:0706.3297. DIS 2007, Munich, April 2007.
[Rogal:2007jw]
[18-30]
Neutrino structure functions in the QCD dipole picture, M.B. Gay Ducati, M.M. Machado, M.V.T. Machado, Braz. J. Phys. 37 (2007) 807-809, arXiv:hep-ph/0702094. XXXVI International Symposium on Multiparticle Dynamics. September 02-08, 2006 Paraty, Rio de Janeiro, Brazil.
[GayDucati:2007ia]
[18-31]
Deeply Virtual Neutrino Scattering at Leading Twist, Claudio Coriano`, Marco Guzzi, Nucl. Phys. Proc. Suppl. 168 (2007) 179-182, arXiv:hep-ph/0612025. Neutrino Oscillations Workshop (NOW 2006), Otranto, Lecce, Italy, September 9-16 2006.
[Coriano:2006hw]
[18-32]
In-Medium Effects in Photo- and Neutrino-Induced Reactions on Nuclei, T. Leitner, U. Mosel, L. Alvarez-Ruso, Int. J. Mod. Phys. A22 (2007) 416-423, arXiv:nucl-th/0608037. MESON2006, 9-th International Workshop on Meson Production, Interaction and Decay, June 9-13, 2006, Cracow, Poland.
[Leitner:2006pq]
[18-33]
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.
[Zoller:2006su]
[18-34]
Nuclear model effects in neutrino-nucleus quasielastic scattering, Chiara Maieron, Acta Phys. Polon. B37 (2006) 2287-2294, arXiv:nucl-th/0605043. 20th Max Born Symposium, Wroclaw (Poland), December 7-10, 2005.
[Maieron:2006cp]
[18-35]
New Insights to Old Problems, T. D. Lee, arXiv:hep-ph/0605017, 2006.
[Lee:2006pr]
[18-36]
Quasi-Elastic Neutrino-Nucleus Reactions, M. Valverde, J. Nieves, J. E. Amaro, Czech. J. Phys. 56 (2006) 527-534, arXiv:hep-ph/0602053. Medex'05 Meeting (Corfu, Greece September 2005).
[Valverde:2006nk]
[18-37]
Radiative Corrections to Low-Energy Neutrino-Deuteron Reactions Revisited, Takahiro Kubota, AIP Conf. Proc. 842 (2006) 886-888, arXiv:hep-ph/0601081. 'Particles and Nuclei International Conference' (PANIC'05, at Santa Fe in U.S.A., October 2005).
[Kubota:2006fu]
[18-38]
Neutrino-nucleus reactions in the energy range 1-100 MeV, K. Kubodera, S. Nakamura, T. Sato, Nucl. Phys. Proc. Suppl. 159 (2006) 21-26, arXiv:nucl-th/0601068. NuInt05, Okayama, Japan. September 26 - 29, 2005.
[Kubodera:2006nf]
[18-39]
Neutrino interactions with nucleons and nuclei at intermediate energies, L. Alvarez-Ruso, T. Leitner, U. Mosel, AIP Conf. Proc. 842 (2006) 877-879, arXiv:nucl-th/0601021. PANIC'05.
[Alvarez-Ruso:2006bhi]
[18-40]
Modelling Nuclear Effects in Neutrino Scattering, T. Leitner, L. Alvarez-Ruso, U. Mosel, Prog. Part. Nucl. Phys. 57 (2006) 395, arXiv:nucl-th/0511058. International School of Nuclear Physics: Neutrinos in Cosmology, in Astro, Particle and Nuclear Physics, Erice, Italy, Sept. 16-24, 2005.
[Leitner:2005jg]
[18-41]
Inclusive nucleon emission induced by quasi-elastic neutrino-nucleus interactions, J. Nieves, M. Valverde, M. J. Vicente-Vacas, Nucl. Phys. Proc. Suppl. 155 (2006) 263, arXiv:nucl-th/0510010. NuFact'05.
[Nieves:2005wb]
[18-42]
Relativistic approach to neutrino nucleus quasielastic scattering, Andrea Meucci, Carlotta Giusti, Franco Davide Pacati, arXiv:nucl-th/0501047, 2005. X Conference on Problems in Theoretical Nuclear Physics, Cortona (Italy), October 6-9, 2004.
[Meucci:2005pm]
[18-43]
Tau lepton polarization in quasielastic neutrino nucleon scattering, Konstantin S. Kuzmin, Vladimir V. Lyubushkin, Vadim A. Naumov, Nucl. Phys. Proc. Suppl. 139 (2005) 154, arXiv:hep-ph/0408107. 3rd International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region, 17-21 March, Gran Sasso (Italy).
[Kuzmin:2004yb]
[18-44]
Extended Rein-Sehgal model for tau lepton production, Konstantin S. Kuzmin, Vladimir V. Lyubushkin, Vadim A. Naumov, Nucl. Phys. Proc. Suppl. 139 (2005) 158, arXiv:hep-ph/0408106. 3rd International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region, 17-21 March, Gran Sasso (Italy).
[Kuzmin:2004ya]
[18-45]
Final state interaction effects in neutrino nucleus quasielastic scattering, C. Maieron, M. C. Martinez, J. A. Caballero, J. M. Udias, Nucl. Phys. Proc. Suppl. 139 (2005) 226, arXiv:nucl-th/0407094. 3rd International Workshop on Neutrino Nucleus Interactions in the Few GeV Region (NuInt04), Gran Sasso, Assergi, Italy, 17-21 Mar 2004.
[Maieron:2004dp]
[18-46]
Comparison of predictions for nuclear effects in the Marteau model with the NUX+FLUKA scheme, Jaroslaw A. Nowak, Cezary Juszczak, Jan T. Sobczyk, Nucl. Phys. Proc. Suppl. 139 (2005) 272-277, arXiv:nucl-th/0407065. 3rd International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region, 17-21 March, Gran Sasso (Italy).
[Nowak:2004ph]
[18-47]
Complete $O(\alpha)$ solution of the $\mu$-decay problem, Jurgen G. Korner, arXiv:hep-ph/0402236, 2004. XVII International Workshop on High Energy Physics and Quantum Field Theory (QFTHEP 2003), Samara-Saratov, 4-11 September 2003.
[Korner:2004qx]
[18-48]
New Predictions for Electroweak $O(\alpha)$ Corrections to Neutrino-Nucleon Scattering, K.-P. O. Diener, Eur. Phys. J. C33 (2004) S662, arXiv:hep-ph/0311122. International Europhysics Conference on High Energy Physics, EPS (July 17th-23rd 2003) in Aachen, Germany.
[Diener:2003ci]

19 - Theory - Non-Standard Interactions

[19-1]
Probing new physics with polarized $\tau$ and $\Lambda_c$ in quasielastic $\nu_{\tau}\!+\!n\!\to\! \tau^-\!+\!\Lambda_c$ scattering process, Ya-Ru Kong, Li-Fen Lai, Xin-Qiang Li, Xin-Shuai Yan, Ya-Dong Yang, Phys.Rev.D 108 (2023) 095036, arXiv:2307.07239.
[Kong:2023kkd]
[19-2]
Angular instabilities of a homogeneous neutrino gas from (pseudo)scalar nonstandard self-interactions, Oleg G. Kharlanov, arXiv:2108.13037, 2021.
[Kharlanov:2021vdk]
[19-3]
An on-shell perspective on neutrino oscillations and non-standard interactions, Gustavo F. S. Alves, Enrico Bertuzzo, Gabriel M. Salla, Phys.Rev.D 106 (2022) 036028, arXiv:2103.16362.
[Alves:2021rjc]
[19-4]
Consistent QFT description of non-standard neutrino interactions, Adam Falkowski, Martin Gonzalez-Alonso, Zahra Tabrizi, JHEP 2011 (2020) 048, arXiv:1910.02971.
[Falkowski:2019kfn]
[19-5]
Charged lepton flavour change and Non-Standard neutrino Interactions, Sacha Davidson, Martin Gorbahn, Phys.Rev. D101 (2020) 015010, arXiv:1909.07406.
[Davidson:2019iqh]
[19-6]
Non-Standard Neutrino Interactions and Neutral Gauge Bosons, Julian Heeck, Manfred Lindner, Werner Rodejohann, Stefan Vogl, SciPost Phys. 6 (2019) 038, arXiv:1812.04067.
[Heeck:2018nzc]
[19-7]
Loop-induced Neutrino Non-Standard Interactions, Ingolf Bischer, Werner Rodejohann, Xun-Jie Xu, JHEP 1810 (2018) 096, arXiv:1807.08102.
[Bischer:2018zbd]
[19-8]
Neutrino production states and NSI, Robert Szafron, Marek Zralek, arXiv:1010.6034, 2010.
[Szafron:2010fu]
[19-9]
Exact and Approximate Formulas for Neutrino Mixing and Oscillations with Non-Standard Interactions, Davide Meloni, Tommy Ohlsson, He Zhang, JHEP 04 (2009) 033, arXiv:0901.1784.
[Meloni:2009ia]
[19-10]
Large gauge invariant non-standard neutrino interactions, M. B. Gavela, D. Hernandez, T. Ota, W. Winter, Phys. Rev. D79 (2009) 013007, arXiv:0809.3451.
[Gavela:2008ra]
[19-11]
Perturbation Theory of Neutrino Oscillation with Nonstandard Neutrino Interactions, Takashi Kikuchi, Hisakazu Minakata, Shoichi Uchinami, JHEP 03 (2009) 114, arXiv:0809.3312.
[Kikuchi:2008vq]
[19-12]
Standard Model Gauging of the Wess-Zumino-Witten Term: Anomalies, Global Currents and pseudo-Chern-Simons Interactions, Jeffrey A. Harvey, Christopher T. Hill, Richard J. Hill, Phys. Rev. D77 (2008) 085017, arXiv:0712.1230.
[Harvey:2007ca]
[19-13]
Neutrino production states in oscillation phenomena: Are they pure or mixed?, Michal Ochman, Robert Szafron, Marek Zralek, J. Phys. G35 (2008) 065003, arXiv:0707.4089.
[Ochman:2007vn]

20 - Theory - Non-Standard Interactions - Talks

[20-1]
$ \nu e \to \nu e $ scattering with massive Dirac or Majorana neutrinos and general interactions, Juan Manuel Marquez, Pablo Roig, Monica Salinas, arXiv:2401.14305, 2024.
[Marquez:2024tjl]
[20-2]
Non-standard interactions, density matrix and neutrino oscillations, Robert Szafron, Marek Zralek, Acta Phys. Polon. B42 (2011) 2501-2508. Matter to the deepest: Recent developments in physics of fundamental interactions. Proceedings, 35th International Conference of Theoretical Physics, Ustron'11, Ustron, Poland, September 12-18.
[Szafron:2011zz]
[20-3]
New Physics and Neutrino Oscillation, M. Ochman, R. Szafron, M. Zralek, Nucl. Phys. Proc. Suppl. 217 (2011) 347-349, arXiv:1012.4123. NOW 2010: Neutrino Oscillation Workshop, Conca Specchiulla (Otranto), Lecce, Italy, 4-11 Sep 2010.
[Ochman:2010nv]

21 - Theory - Models

[21-1]
The role of de-excitation in the final-state interactions of protons in neutrino-nucleus interactions, Anna Ershova et al., Phys.Rev.D 108 (2023) 112008, arXiv:2309.05410.
[Ershova:2023dbv]
[21-2]
Chern-Simons Gravity and Neutrino Self-Interactions, Stephon Alexander, Cyril Creque-Sarbinowski, Phys.Rev.D 108 (2023) 104046, arXiv:2207.05094.
[Alexander:2022cow]
[21-3]
Neutrino condensation from a New Higgs Interaction, Alan Chodos, Fred Cooper, Phys.Rev. D102 (2020) 113003, arXiv:2004.03731.
[Chodos:2020dgi]
[21-4]
Self-energies on deformed spacetimes, R. Horvat, A. Ilakovac, J. Trampetic, J. You, JHEP 1311 (2013) 071, arXiv:1306.1239.
[Horvat:2013rga]
[21-5]
Neutrino-electron scattering in noncommutative space, M. M. Ettefaghi, T. Shakouri, JHEP 11 (2010) 131, arXiv:1011.5423.
[Ettefaghi:2010gr]
[21-6]
Electron- and neutrino-nucleus scattering from the quasielastic to the resonance region, T. Leitner, O. Buss, L. Alvarez-Ruso, U. Mosel, Phys. Rev. C79 (2009) 034601, arXiv:0812.0587.
[Leitner:2008ue]
[21-7]
Gross Theory Model for Neutrino-Nucleus Cross Section, A. R. Samana, C. A. Barbero, S. B. Duarte, A. J. Dimarco, F. Krmpotic, New J. Phys. 10 (2008) 033007, arXiv:0802.2093.
[Samana:2008cr]
[21-8]
Small-x neutrino hadron structure functions in charged current DIS within the QCD color dipole picture, M. B. Gay Ducati, M. M. Machado, M. V. T. Machado, Phys. Lett. B644 (2007) 340-345, arXiv:hep-ph/0609088.
[Ducati:2006vh]
[21-9]
Weak interaction mixing in the six - quark theory, H. Fritzsch, Phys. Lett. B73 (1978) 317-322.
[Fritzsch:1977vd]

22 - Theory - Models - Talks

[22-1]
Photon-neutrino interaction in theta-exact covariant noncommutative model: Phenomenology and Quantum properties, Josip Trampetic, Int. J. Geom. Meth. Mod. Phys. 09 (2012) 1261016, arXiv:1112.2990. XXIX Max Born Symposium: Wroclaw-Poland 2011, 'Super, Quantum & Twistors II', Wroclaw, 28-30 June 2011.
[Trampetic:2011aa]
[22-2]
Hadronic transport approach to neutrino nucleus scattering: the Giessen BUU model and its validation, T. Leitner, O. Buss, U. Mosel, Acta Phys. Polon. B40 (2009) 2585-2592, arXiv:0905.1644. 45th Winter School in Theoretical Physics 'Neutrino Interactions: from Theory to Monte Carlo Simulations', Ladek-Zdroj, Poland, Feb. 2009.
[Leitner:2009ke]
[22-3]
Neutrino-Nucleus Quasi-Elastic Scattering in a Relativistic Model, C. Giusti, A. Meucci, F.D. Pacati, arXiv:nucl-th/0607037, 2006. XXV International Workshop on Nuclear Theory, 26 June- 1 July, 2006 Rila, Bulgaria.
[Giusti:2006bu]

23 - Phenomenology

[23-1]
Measuring the molecular Migdal effect with neutron scattering on diatomic gases, Yonatan Kahn, Jesus Perez-Rios, arXiv:2403.08866, 2024.
[Kahn:2024nyv]
[23-2]
Final state radiation from high and ultrahigh energy neutrino interactions, Ryan Plestid, Bei Zhou, arXiv:2403.07984, 2024.
[Plestid:2024bva]
[23-3]
Constraints on new physics with (anti)neutrino-nucleon scattering data, Oleksandr Tomalak, Minerba Betancourt, Kaushik Borah, Richard J. Hill, Thomas Junk, arXiv:2402.14115, 2024.
[Tomalak:2024yvq]
[23-4]
Neutrino Rate Predictions for FASER, Roshan Mammen Abraham et al. (FASER), arXiv:2402.13318, 2024.
[FASER:2024ykc]
[23-5]
Global Fit of Electron and Neutrino Elastic Scattering Data to Determine the Strange Quark Contribution to the Vector and Axial Form Factors of the Nucleon, S. F. Pate, V. Papavassiliou, J. P. Schaub, D. P. Trujillo, M. V. Ivanov, M. B. Barbaro, C. Giusti, arXiv:2402.10854, 2024.
[Pate:2024acz]
[23-6]
Constraining neutrino-DM interactions with Milky Way dwarf spheroidals and supernova neutrinos, Sean Heston, Shunsaku Horiuchi, Satoshi Shirai, arXiv:2402.08718, 2024.
[Heston:2024ljf]
[23-7]
The Superscaling Variable and Neutrino Energy Reconstruction, From Theoretical Predictions to Experimental Limitations, Dana Douqa, Stefania Bordoni, Lorenzo Giannessi, Alexis Nikolakopoulos, Federico Sanchez, Caspar Schloesser, arXiv:2401.14054, 2024.
[Douqa:2024pmy]
[23-8]
Relativistic meson-exchange currents in semi-inclusive lepton scattering, Valerio Belocchi, Maria Benedetta Barbaro, Arturo De Pace, Marco Martini, arXiv:2401.13640, 2024.
[Belocchi:2024rfp]
[23-9]
Pion-production cross sections in neutrino reactions for studying generalized parton distributions of the nucleon, Xurong Chen, S. Kumano, R. Kunitomo, Siyu Wu, Ya-Ping Xie, arXiv:2401.11440, 2024.
[Chen:2024adg]
[23-10]
Unleashing the Power of EFT in Neutrino-Nucleus Scattering, Joachim Kopp, Noemi Rocco, Zahra Tabrizi, arXiv:2401.07902, 2024.
[Kopp:2024yvh]
[23-11]
Mathematical methods for neutrino cross-section extraction, Steven Gardiner, arXiv:2401.04065, 2024.
[Gardiner:2024gdy]
[23-12]
JLab spectral functions of argon in NuWro and their implications for MicroBooNE, Rwik Dharmapal Banerjee, Artur M. Ankowski, Krzysztof M. Graczyk, Beata E. Kowal, Hemant Prasad, Jan T. Sobczyk, arXiv:2312.13369, 2023.
[Banerjee:2023hub]
[23-13]
One and Two-Body Current Contributions to Lepton-Nucleus Scattering, Alessandro Lovato, Noemi Rocco, Noah Steinberg, arXiv:2312.12545, 2023.
[Lovato:2023khk]
[23-14]
A modified slicing method with multi-dimensional unfolding to measure hadron-argon cross sections, Yinrui Liu, arXiv:2312.09333, 2023.
[Liu:2023psg]
[23-15]
Monte Carlo Simulation Development and Implementation of the GiBUU Model for Neutrino Experiments, Leonidas Aliaga Soplin, Raquel Castillo Fernandez, Jasper Gustafson, Declan Quinn, Shweta Yadav, arXiv:2311.14286, 2023.
[Soplin:2023nxg]
[23-16]
Secondary beams at high-intensity electron accelerator facilities, Marco Battaglieri et al., Instruments 8 (2024) 1, arXiv:2311.08440.
[Battaglieri:2023gvd]
[23-17]
Towards a more complete description of nucleon distortion in lepton-induced single-pion production at low-$Q^2$, J. Garcia-Marcos, T. Franco-Munoz, R. Gonzalez-Jimenez, A. Nikolakopoulos, N. Jachowicz, J. M. Udias, Phys.Rev.C 109 (2024) 024608, arXiv:2310.18056.
[Garcia-Marcos:2023rnj]
[23-18]
A tolerable candle: the low-nn method with LHC neutrinos, Callum Wilkinson, Alfonso Garcia Soto, Phys.Rev.D 109 (2024) 033010, arXiv:2310.06520.
[Wilkinson:2023vvu]
[23-19]
Phase space of electron- and muon-neutrino and antineutrino scattering off nuclei, M. Martini, M. Ericson, G. Chanfray, arXiv:2310.06388, 2023.
[Martini:2023kem]
[23-20]
Tuning Pythia for Forward Physics Experiments, Max Fieg, Felix Kling, Holger Schulz, Torbjorn Sjostrand, Phys.Rev.D 109 (2024) 016010, arXiv:2309.08604.
[Fieg:2023kld]
[23-21]
Uniform Distribution Technique for Neutrino Beam Scan Simulation, Don Athula Abeyarathna Wickremasinghe, Sudeshna Ganguly, Katsuya Yonehara, Robert Miles Zwaska, Yiding Yu, Pavel Snopok, arXiv:2309.08029, 2023.
[Wickremasinghe:2023uop]
[23-22]
Nucleon axial-vector radius and form factor from future neutrino experiments, Roberto Petti, Richard J. Hill, Oleksandr Tomalak, Phys.Rev.D 109 (2024) L051301, arXiv:2309.02509.
[Petti:2023abz]
[23-23]
Lepton-induced reactions on nuclei in a wide kinematical regime, U. Mosel, K. Gallmeister, Phys.Rev.D 109 (2024) 033008, arXiv:2308.16161.
[Mosel:2023zek]
[23-24]
Examining the sensitivity of FASER to Generalized Neutrino Interactions, F. J. Escrihuela, L. J. Flores, O. G. Miranda, Javier Rendon, R. Sanchez-Velez, arXiv:2308.15630, 2023.
[Escrihuela:2023sfb]
[23-25]
Parametrized uncertainties in the spectral function model of neutrino charged-current quasielastic interactions for oscillation analyses, J. Chakrani et al., arXiv:2308.01838, 2023.
[Chakrani:2023htw]
[23-26]
Updated Trends in Neutrino-induced hadron production, Rashi Sharma, R. Aggarwal, M. Kaur, arXiv:2308.00511, 2023.
[Sharma:2023iiw]
[23-27]
Weak production of $\eta$ mesons induced by $\nu_{\mu}(\bar{\nu}_\mu)$ at MicroBooNE energies, A. Fatima, M. Sajjad Athar, S. K. Singh, Phys.Rev.D 108 (2023) 053009, arXiv:2307.12686.
[Fatima:2023fez]
[23-28]
Neutrino Cross Sections: Interface of shallow- and deep-inelastic scattering for collider neutrinos, Yu Seon Jeong, Mary Hall Reno, Phys.Rev.D 108 (2023) 113010, arXiv:2307.09241.
[Jeong:2023hwe]
[23-29]
$u^2$-Flows: Fast and improved neutrino reconstruction in multi-neutrino final states with conditional normalizing flows, John Andrew Raine, Matthew Leigh, Knut Zoch, Tobias Golling, Phys.Rev.D 109 (2024) 012005, arXiv:2307.02405.
[Raine:2023fko]
[23-30]
Neutral current neutrino and antineutrino scattering off the polarized nucleon, Krzysztof M. Graczyk, Beata E. Kowal, Phys.Rev.D 108 (2023) 093002, arXiv:2307.00661.
[Graczyk:2023lrm]
[23-31]
Superscaling in the resonance region for neutrino-nucleus scattering: The SuSAv2-DCC model, J. Gonzalez-Rosa, G. D. Megias, J. A. Caballero, M. B. Barbaro, Phys.Rev.D 108 (2023) 113008, arXiv:2306.12060.
[Gonzalez-Rosa:2023aim]
[23-32]
Forward Neutrinos from Charm at Large Hadron Collider, Atri Bhattacharya, Felix Kling, Ina Sarcevic, Anna M. Stasto, Phys.Rev.D 109 (2024) 014040, arXiv:2306.01578.
[Bhattacharya:2023zei]
[23-33]
Constraints on dark matter-neutrino scattering from the Milky-Way satellites and subhalo modeling for dark acoustic oscillations, Kensuke Akita, Shin'ichiro Ando, JCAP 11 (2023) 037, arXiv:2305.01913.
[Akita:2023yga]
[23-34]
Neutrino Constraints and the ATOMKI X17 Anomaly, Peter B. Denton, Julia Gehrlein, Phys.Rev.D 108 (2023) 015009, arXiv:2304.09877.
[Denton:2023gat]
[23-35]
Study of semi-inclusive charged-current electron and muon neutrino scattering from $^{40}$Ar in the energy range of the MicroBooNE experiment, J. M. Franco-Patino, S. Dolan, R. Gonzalez-Jimenez, M. B. Barbaro, J. A. Caballero, G. D. Megias, Phys.Rev.D 109 (2024) 013004, arXiv:2304.01916.
[Franco-Patino:2023msk]
[23-36]
Impact of cross-section uncertainties on supernova neutrino spectral parameter fitting in the Deep Underground Neutrino Experiment, Adam Abed Abud et al. (DUNE), arXiv:2303.17007, 2023.
[2303.17007]
[23-37]
The Gallium Neutrino Absorption Cross Section and its Uncertainty, W. C. Haxton, E. J. Rule, S. R. Elliott, V. N. Gavrin, T. V. Ibragimova, Phys.Rev.C 108 (2023) 035502, arXiv:2303.13623.
[Elliott:2023xkb]
[23-38]
High-energy neutrino deeply inelastic scattering cross sections from 100 GeV to 1000 EeV, Keping Xie, Jun Gao, T. J. Hobbs, Daniel R. Stump, C. -P. Yuan, arXiv:2303.13607, 2023.
[Xie:2023suk]
[23-39]
Tau Polarization and Correlated Decays in Neutrino Experiments, Joshua Isaacson, Stefan Hoche, Frank Siegert, Sherry Wang, Phys.Rev.D 108 (2023) 093004, arXiv:2303.08104.
[Isaacson:2023gwp]
[23-40]
Search for the electromagnetic properties of the neutrinos at the HL-LHC and the FCC-hh, M. Koksal, A. Senol, H. Denizli, Phys.Lett.B 841 (2023) 137914, arXiv:2303.04662.
[Koksal:2023qch]
[23-41]
Investigating the impact of spin effects at the high-energy neutrino-nucleon interactions while it crosses the Earth's core, R. Francener, D. R. Gratieri, G. Torrieri, arXiv:2303.01915, 2023.
[Francener:2023wpr]
[23-42]
Neutrino Structure Functions from GeV to EeV Energies, Alessandro Candido, Alfonso Garcia, Giacomo Magni, Tanjona Rabemananjara, Juan Rojo, Roy Stegeman, arXiv:2302.08527, 2023.
[Candido:2023utz]
[23-43]
NGC 1068 constraints on neutrino-dark matter scattering, James M. Cline, Matteo Puel, JCAP 06 (2023) 004, arXiv:2301.08756.
[Cline:2023tkp]
[23-44]
Uncertainties on the $\nu_{\mu}$/$\nu_{e}$, $\bar{\nu}_{\mu}$/$\bar{\nu}_{e}$ and $\nu_{e}$/$\bar{\nu}_{e}$ cross-section ratio from the modelling of nuclear effects and their impact on neutrino oscillation experiments, T. Dieminger, S. Dolan, D. Sgalaberna, A. Nikolakopoulos, T. Dealtry, S. Bolognesi, L. Pickering, A. Rubbia, Phys.Rev.D 108 (2023) L031301, arXiv:2301.08065.
[Dieminger:2023oin]
[23-45]
Longitudinal kinematic imbalances in (anti-)neutrino interactions for improved measurements of nuclear removal energies and the axial vector form factor, 2023.
[Baudis:2023tma]
[23-46]
Nuclear effects in extracting $\sin^2\theta_W$ and a probe for short-range correlations, Phys.Rev.D 108 (2023) 053005.
[Yang:2023zmr]
[23-47]
Flux-integrated semiexclusive cross sections for charged-current quasielastic and neutral-current elastic neutrino scattering off 40{}^{40}Ar and a sterile neutrino oscillation study, A. V. Butkevich, Phys.Rev.D 107 (2023) 073001, arXiv:2212.09300.
[Butkevich:2022pzd]
[23-48]
Forward production of prompt neutrinos from charm in the atmosphere and at high energy colliders, Weidong Bai, Milind Diwan, Maria Vittoria Garzelli, Yu Seon Jeong, Karan Kumar, Mary Hall Reno, JHEP 10 (2023) 142, arXiv:2212.07865.
[Bai:2022xad]
[23-49]
Neutrino-tagged jets at the Electron-Ion Collider, Miguel Arratia, Zhong-Bo Kang, Sebouh J. Paul, Alexei Prokudin, Felix Ringer, Fanyi Zhao, Phys.Rev.D 107 (2023) 094036, arXiv:2212.02432.
[Arratia:2022oxd]
[23-50]
Radiative corrections to inverse muon decay for accelerator neutrinos, Oleksandr Tomalak, Kaushik Borah, Richard J. Hill, Kevin S. McFarland, Daniel Ruterbories, Phys.Rev.D 107 (2023) 093005, arXiv:2211.15947.
[Tomalak:2022uwv]
[23-51]
A study of the relativistic corrections to tritium $\beta$-decay, Gianluca Cavoto, Angelo Esposito, Guglielmo Papiri, Antonio Davide Polosa, Phys.Rev.C 107 (2023) 064603, arXiv:2211.13247.
[Cavoto:2022xwo]
[23-52]
Semi-inclusive deeply inelastic (anti)neutrino nucleus scattering, X. Yang, W. Yang, Phys.Rev.D 107 (2023) 093007, arXiv:2211.10899.
[Yang:2022sbz]
[23-53]
Charged current (anti)neutrino induced eta production off the nucleon, A. Fatima, M. Sajjad Athar, S. K. Singh, Phys.Rev.D 107 (2023) 033002, arXiv:2211.08830.
[Fatima:2022nfn]
[23-54]
Assessing the theory-data tension in neutrino-induced charged pion production: the effect of final-state nucleon distortion, Alexis Nikolakopoulos, Raul Gonzalez-Jimenez, Natalie Jachowicz, Jose Manuel Udias, Phys.Rev.D 107 (2023) 053007, arXiv:2210.12144.
[Nikolakopoulos:2022tut]
[23-55]
Semiempirical formula for two-nucleon emission induced by short-range correlations in electron and neutrino scattering, V. L. Martinez-Consentino, J. E. Amaro, P. R. Casale, I. Ruiz Simo, Phys.Rev.D 108 (2023) 013007, arXiv:2210.09982.
[Martinez-Consentino:2022fmy]
[23-56]
Far-forward production of charm mesons and neutrinos at Forward Physics Facilities at the LHC and the intrinsic charm in the proton, Rafal Maciula, Antoni Szczurek, Phys.Rev.D 107 (2023) 034002, arXiv:2210.08890.
[Maciula:2022lzk]
[23-57]
Rock Neutron Backgrounds from FNAL Neutrino Beamlines in the $\nu$BDX-DRIFT Detector, D. Aristizabal Sierra, J. L. Barrow, B. Dutta, D. Kim, D. Snowden-Ifft, L. Strigari, M. H. Wood, Phys.Rev.D 107 (2023) 013003, arXiv:2210.08612.
[AristizabalSierra:2022jgg]
[23-58]
Enhanced neutrino polarizability, Saurabh Bansal, Gil Paz, Alexey Petrov, Michele Tammaro, Jure Zupan, JHEP 05 (2023) 142, arXiv:2210.05706.
[Bansal:2022zpi]
[23-59]
The impact of neutrino-nucleus interaction modeling on new physics searches, Nina M. Coyle, Shirley Weishi Li, Pedro A. N. Machado, JHEP 12 (2022) 166, arXiv:2210.03753.
[Coyle:2022bwa]
[23-60]
Form factor and model dependence in neutrino-nucleus cross section predictions, Daniel Simons, Noah Steinberg, Alessandro Lovato, Yannick Meurice, Noemi Rocco, Michael Wagman, arXiv:2210.02455, 2022.
[Simons:2022ltq]
[23-61]
Neutrino forces in neutrino backgrounds, Mitrajyoti Ghosh, Yuval Grossman, Walter Tangarife, Xun-Jie Xu, Bingrong Yu, JHEP 02 (2023) 092, arXiv:2209.07082.
[Ghosh:2022nzo]
[23-62]
Scattering of low energy neutrinos and antineutrinos by neon and argon, Ian B. Whittingham, Phys.Rev.D 106 (2022) 113001, arXiv:2209.01732.
[Whittingham:2022wxc]
[23-63]
Pion production in $\nu_\mu$ charged current interactions on $^{40}$Ar in deep underground neutrino experiment, Ritu Devi, Baba Potukuchi, Ukr. J. Phys. 67 (2022) 301-311, arXiv:2208.14643.
[Devi:2022oar]
[23-64]
Uncertainties in neutrino oscillation parameter sensitivity due to resonance processes at NO$\nu$A, Paramita Deka, Nilavjyoti Hazarika, Kalpana Bora, Int.J.Mod.Phys.A 37 (2022) 2250200, arXiv:2208.07047.
[Deka:2022idq]
[23-65]
Impact of Nuclear effects in Energy Reconstruction Methods on Sensitivity of Neutrino Oscillation Parameters at NO$\nu$A experiment, Paramita Deka, Jaydip Singh, Kalpana Bora, Nucl.Phys.B 987 (2023) 116086, arXiv:2208.03681.
[Deka:2022lvy]
[23-66]
Neutrino-induced single pion production and the reanalyzed bubble chamber data, D. F. Tamayo Agudelo, A. Mariano, D. E. Jaramillo Arango, Phys.Rev.D 106 (2022) 033002, arXiv:2207.12549.
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Neutrino-nucleus interaction rates at a low-energy beta-beam facility, Julien Serreau, Cristina Volpe, Phys. Rev. C70 (2004) 055502, arXiv:hep-ph/0403293.
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Positivity constraints for lepton polarization in neutrino deep inelastic scattering, Claude Bourrely, Jacques Soffer, Oleg V. Teryaev, Phys. Rev. D69 (2004) 114019, arXiv:hep-ph/0403176.
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Pseudoscalar Form Factors in Tau-Neutrino Nucleon Scattering, K. Hagiwara, K. Mawatari, H. Yokoya, Phys. Lett. B591 (2004) 113, arXiv:hep-ph/0403076.
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nu/e (anti-nu/e) - Ar-40 absorption cross sections for supernova neutrinos, M. Sajjad Athar, S. K. Singh, Phys. Lett. B591 (2004) 69-75.
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$\tau \to 3 \pi + \nu_\tau$: Theory versus Experiment, D. Gomez Dumm, A. Pich, J. Portoles, Nucl. Phys. Proc. Suppl. 133 (2004) 211, arXiv:hep-ph/0312211.
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Low energy neutrino cross sections: Comparison of various Monte Carlo predictions to experimental data, G. P. Zeller, arXiv:hep-ex/0312061, 2003.
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[23-714]
Neutrino Charm Production and Implications for PDF's, F. I. Olness, arXiv:hep-ph/0311064, 2003.
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[23-715]
Neutrino nucleus reactions and nuclear structure, E. Kolbe, K. Langanke, G. Martinez-Pinedo, P. Vogel, J. Phys. G29 (2003) 2569-2596, arXiv:nucl-th/0311022.
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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.
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[23-717]
Analytic Estimates of the QCD Corrections to Neutrino-Nucleus Scattering, B. A. Dobrescu, R. K. Ellis, Phys. Rev. D69 (2004) 114014, arXiv:hep-ph/0310154.
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[23-718]
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[23-719]
A study of the nuclear medium influence on transverse momentum of hadrons produced in deep inelastic neutrino scattering, N. M. Agababyan et al. (SKAT), Phys. Atom. Nucl. 68 (2005) 1160, arXiv:hep-ex/0310009.
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Coherent Neutrino-Nucleus Scattering, E. A. Paschos, A. V. Kartavtsev, arXiv:hep-ph/0309148, 2003.
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Neutrino Production of Resonances, E. A. Paschos, M. Sakuda, J.-Y. Yu, Phys. Rev. D69 (2004) 014013, arXiv:hep-ph/0308130.
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Target Mass Corrections to Electro-Weak Structure Functions and Perturbative Neutrino Cross Sections, S. Kretzer, M.H. Reno, Phys. Rev. D69 (2004) 034002, arXiv:hep-ph/0307023.
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Prediction of Neutrino Fluxes in the NOMAD Experiment, P. Astier (NOMAD), Nucl. Instrum. Meth. A515 (2003) 800, arXiv:hep-ex/0306022.
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Antineutrino-neutrino and antineutrino-electron resonant annihilation through rho and other vector mesons, Olga Lalakulich Emmanuel A. Paschos, arXiv:hep-ph/0206273, 2002.
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On universality of the coupling of neutrinos to Z, Eduard Masso, Phys. Rev. D66 (2002) 077301, arXiv:hep-ph/0205335.
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Precise Ratios for Neutrino-Nucleon and Neutrino-Nucleus Interactions, E. A. Paschos, arXiv:hep-ph/0204090, 2002.
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On Selected Radiative Corrections to the Nondiagonal Neutrino-Electron Interaction, I. Picek K. Kumericki, Nucl. Phys. Proc. Suppl. 118 (2003) 496, arXiv:hep-ph/0204072.
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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.
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[23-748]
Measuring high energy neutrino nucleon cross sections with future neutrino telescopes, Dan Hooper, Phys. Rev. D65 (2002) 097303, arXiv:hep-ph/0203239.
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[23-749]
Future determination of the neutrino-nucleon cross section at extreme energies, Alexander Kusenko, arXiv:hep-ph/0203002, 2002. Workshop on electromagnetic probes of fundamental physics, October 16-21, 2001, Erice, Italy.
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Test of non-standard neutrino properties with the BOREXINO source experiments, A. Ianni, D. Montanino, G. Scioscia, Eur. Phys. J. C8 (1999) 609-617, arXiv:hep-ex/9901012.
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Neutrino interactions at ultrahigh-energies, Raj Gandhi, Chris Quigg, Mary Hall Reno, Ina Sarcevic, Phys. Rev. D58 (1998) 093009, arXiv:hep-ph/9807264.
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24 - Phenomenology - Talks

[24-1]
A discussion of the cross section $\bar\nu_e+p\to e^+ + n$, Giulia Ricciardi, Natascia Vignaroli, Francesco Vissani, arXiv:2311.16730, 2023. MAYORANA Workshop, July 2023, Modica (Italy).
[Ricciardi:2023tvg]
[24-2]
Neutrino forces and experimental probes, Xun-Jie Xu, arXiv:2305.08032, 2023.
[Xu:2023ekr]
[24-3]
Elastic neutrino-atom scattering as a probe of neutrino millicharge and magnetic moment, Georgy Donchenko, Konstantin Kouzakov, Alexander Studenikin, JETP Lett. 117 (2023) 879-883, arXiv:2302.05285. 41st International Conference on High Energy Physics (ICHEP2022 6-13 July 2022, Bologna, Italy).
[Donchenko:2023zxg]
[24-4]
Uncertainties in modelling neutrino interactions for oscillation experiments, S. Dolan, PoS NOW2022 (2023) 014, arXiv:2301.09555. Neutrino Oscillation Workshop 2022.
[Dolan:2023ncn]
[24-5]
BSM and SM signals and backgrounds in Far-Forward Experiments at the LHC, M. V. Garzelli, Acta Phys.Polon.Supp. 16 (2023) 45, arXiv:2212.11432.
[Garzelli:2022vad]
[24-6]
Neutrinos and strong interactions: QCD (and beyond?), C.A. Garcia Canal, arXiv:2108.13214, 2021. LISHEP 2021.
[GarciaCanal:2021fgg]
[24-7]
Exclusive electro-weak production of a charmed meson at high energy, B. Pire, L. Szymanowski, J. Wagner, SciPost Phys.Proc. 8 (2022) 150, arXiv:2105.14767. XXVIII International Workshop on Deep-Inelastic Scattering and Related Subjects,Stony Brook University, New York, USA, 12-16 April 2021.
[Pire:2021rdb]
[24-8]
Production of $\nu_\tau$ neutrinos and $\overline\nu_tau$ antineutrinos - elaborate calculation for a fixed target experiment SHiP, Rafal Maciula, PoS ICHEP2020 (2021) 161, arXiv:2012.06367. 40th International Conference on High Energy physics - ICHEP2020, July 28 - August 6, 2020, Prague, Czech Republic.
[Maciula:2020vfe]
[24-9]
Nuclear Potential of Final State Nucleons and Nucleons Plus Pions in Lepton Nucleus Scattering, Arie Bodek, Tejin Cai, PoS ICHEP2020 (2021) 117, arXiv:2011.03808. 40th International Conference on High Energy physics - ICHEP2020, July 28 - August 6, 2020, Prague, Czech Republic.
[Bodek:2020oxg]
[24-10]
Snowmass 2021 LoI: Neutrino-induced Shallow- and Deep-Inelastic Scattering, L. Alvarez-Ruso et al., arXiv:2009.04285, 2020.
[Alvarez-Ruso:2020ezu]
[24-11]
PDFs and Neutrino-Nucleon Scattering from Hadronic Tensor, Jian Liang, Keh-Fei Liu, PoS LATTICE2019 (2020) 046, arXiv:2008.12389. 37th International Symposium on Lattice Field Theory (Lattice2019), 16-22 June 2019, Wuhan, China.
[Liang:2020sqi]
[24-12]
Constraints on neutrino millicharge and charge radius from neutrino-atom scattering, Matteo Cadeddu, Carlo Giunti, Konstantin A. Kouzakov, Yufeng Li, Alexander I. Studenikin, Yiyu Zhang, PoS EPS-HEP2019 (2020) 423, arXiv:2001.02278. European Physical Society Conference on High Energy Physics - EPS-HEP2019 - 10-17 July, 2019, Ghent, Belgium.
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How well do we know neutrino-electron scattering? EFT approach, Oleksandr Tomalak, PoS NuFact2019 (2020) 049, arXiv:1911.03528.
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Precision Measurements of Fundamental Interactions with (Anti)Neutrinos, R. Petti, arXiv:1910.05995, 2019. DIS 2019.
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A model for neutrino-nucleus interactions in the GeV region, Maria B. Barbaro, J.Phys.Conf.Ser. 1643 (2020) 012018, arXiv:1910.01144. 27th International Nuclear Physics Conference (INPC) 2019, July 29- August 2, Glasgow, UK.
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Measuring the Neutron Distribution from Coherent Elastic Neutrino Nucleus Scattering, E. Ciuffoli, arXiv:1903.12120, 2019. NuPhys2018 (London, 19-21 December 2018).
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Neutrino pion-production on a nucleon, Fred Myhrer, PoS CD2018 (2019) 039, arXiv:1903.03542. 9th International Workshop on Chiral Dynamics, Sept. 17-21, 2018, Duke University, Durham, NC, USA.
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Modeling neutrino-nucleus interactions for neutrino oscillation experiments, G. D. Megias, S. Dolan, S. Bolognesi, Springer Proc.Phys. 225 (2019) 149-151, arXiv:1901.11022. Rabida 18 - International Scientific Meeting on Nuclear Physics: Basic concepts in Nuclear Physics: theory, experiments and applications. La Rabida (Spain) 18th-22th June 2018.
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Effects of medium modifications of nucleon form factors on neutrino scattering in dense matter, Parada T. P. Hutauruk, Yongseok Oh, Kazuo Tsushima, JPS Conf.Proc. 26 (2019) 024031, arXiv:1901.05986. 8th International Conference on Quarks and Nuclear Physics (QNP2018), November 13-17, 2018, Tsukuba, Japan.
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New vistas in charm production, Antoni Szczurek, EPJ Web Conf. 206 (2019) 02004, arXiv:1811.12033. ISMD2018, Singapore, September 4-7, 2018.
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Optical Potential and Removal Energies in Lepton Nucleus Scattering, Arie Bodek, Tejin Cai, PoS NuFACT2018 (2018) 094, arXiv:1811.09482. 20th International Workshop on Neutrinos (NuFact2018) 12-18 August 2018, Blacksburg, Virginia.
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PDF Flavor Determination and the nCTEQ PDFs, E. Godat et al. (nCTEQ), PoS DIS2018 (2018) 009, arXiv:1808.07514. 26th International Workshop on Deep Inelastic Scattering and Related Subjects (DIS 2018) Port Island, Kobe, Japan, April 16-20, 2018.
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Charged and Neutral Current Pion Production in Neutrino-Nucleus Scattering, Kapil Saraswat, Prashant Shukla, Vineet Kumar, Venktesh Singh, Springer Proc.Phys. 203 (2018) 697-700, arXiv:1805.11836. XXII DAE High Energy Physics Symposium.
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Single Pion Production in Neutrino-Nucleon Interactions, Monireh Kabirnezhad, Phys.Rev. D97 (2018) 013002, arXiv:1711.02403. Nuint17.
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The EPPS16 nuclear PDFs, Kari J. Eskola, Petja Paakkinen, Hannu Paukkunen, Carlos A. Salgado, PoS DIS2017 (2018) 197, arXiv:1709.08347. XXV International Workshop on Deep-Inelastic Scattering and Related Subjects.
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On neutrino production of a charmed meson, J. Wagner, B. Pire, L. Szymanowski, PoS DIS2017 (2018) 246, arXiv:1706.02461. DIS 2017, XXV International Workshop on Deep-Inelastic Scattering and Related Subjects, 3-7 April 2017, University of Birmingham, UK.
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On the Color Dipole Picture, Dieter Schildknecht, AIP Conf.Proc. 1819 (2017) 030007, arXiv:1611.09043. Diffraction 2016, Acireale (Catania, Sicily) September 2-8, 2016.
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NEUT/NuWro cross-section modelling at low three-momentum transfer, P. Stowell, J.Phys.Conf.Ser. 888 (2017) 012170, arXiv:1611.03278. Neutrino 2016.
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Neutrino Monte-Carlo Event Generators and Cross-section Data, P. Stowell, S. Cartwright, L. Pickering, C. Wret, C. Wilkinson, arXiv:1611.03275, 2016. NUFACT 2016, Quy Nhon, Vietnam, August 21-27 2016.
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Event reweighting with the NuWro neutrino interaction generato, Luke Pickering, Patrick Stowell, Jan Sobczyk, J.Phys.Conf.Ser. 888 (2017) 012175, arXiv:1610.07053. Neutrino 2016.
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The role of meson exchange currents in charged current (anti)neutrino-nucleus scattering, M.B. Barbaro et al., Nucl.Theor. 35 (2016) 60-71, arXiv:1610.02924. 35th International Workshop on Nuclear Theory, Rila Mountains (Bulgaria), June 26 - July 2, 2016.
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Generators for the SIS/DIS region, Christophe Bronner, JPS Conf.Proc. 12 (2016) 010025, arXiv:1608.02716. NuINT2015.
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Tuning of the Charged Hadrons Multiplicities for Deep Inelastic Interactions in NEUT, Christophe Bronner, Mark Hartz, JPS Conf.Proc. 12 (2016) 010041, arXiv:1607.06558. NuINT2015.
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Theoretical predictions of transverse kinematic imbalance in neutrino-nucleus interactions, Luke Pickering, Xianguo Lu, arXiv:1606.04403, 2016. NuPhys 2015.
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Charged Current Coherent Pion Production in Neutrino Scattering, Paul Martins, arXiv:1605.00095, 2016. NuPhys 2015.
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Neutrino energy reconstruction in long-baseline experiments, Erica Vagnoni, arXiv:1604.08392, 2016. NuPhys2015 (London, 16-18 December 2015).
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Update of HKN Nuclear PDFs, Masanori Hirai, JPS Conf.Proc. 12 (2016) 010024, arXiv:1603.07854. JPS Conference Proceedings in press, International workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt15), Osaka, Japan, November 16-21, 2015.
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Prompt neutrino flux in the atmosphere revisited, M.V. Garzelli, S. Moch, G. Sigl, arXiv:1602.08441, 2016. 17th Lomonosov Conference on Elementary Particle Physics, August 20 - 26 2015, Moscow State University, Moscow, Russia.
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Nuclear Effects in Neutrino Interactions with Minimal Neutrino Energy Dependence - A NuWro Truth Study, Luke Pickering, JPS Conf.Proc. 12 (2016) 010032, arXiv:1602.06730. NuInt2015.
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Pion production off the nucleon, M. Rafi Alam, M. Sajjad Athar, Shikha Chauhan, S. K. Singh, JPS Conf.Proc. 12 (2016) 010021, arXiv:1602.06066. NuInt15.
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Present Status of Single Pion Production in Neutrino-Nucleus Reactions, L. Alvarez-Ruso, E. Hernandez, J. Nieves, M. J. Vicente Vacas, JPS Conf.Proc. 12 (2016) 010003, arXiv:1602.05562. 10th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt15). http://inspirehep.net/record/1422051/files/arXiv:1602.05562.pdf.
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Nuclear effects in deep inelastic scattering and transition region, S. Kumano, JPS Conf.Proc. 12 (2016) 010004, arXiv:1602.02459. International workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt15), Osaka, Japan, November 16-21, 2015.
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First look at the PYTHIA8 hadronization program for neutrino interaction generators, Teppei Katori, Pierre Lasorak, Shivesh Mandalia, Ryan Terri, JPS Conf.Proc. 12 (2016) 010033, arXiv:1602.00083. 10th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt15), Osaka, Japan, 16-21 November 2015.
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Probing the transversity spin structure of a nucleon in neutrino-production of a charmed meson, B. Pire, L. Szymanowski, J. Wagner, EPJ Web Conf. 112 (2016) 01018, arXiv:1601.07666. Physics Opportunities at an Electron-Ion Collider, POETIC-6, September 7-11 2015, Ecole polytechnique, Palaiseau, France.
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Present theoretical uncertainties on charm hadroproduction in QCD and prompt neutrino fluxes, M.V. Garzelli, S. Moch, G. Sigl, EPJ Web Conf. 116 (2016) 08002, arXiv:1512.09097. VLVNT 2015, Rome, Italy, September 14-16 2015.
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Reconstruction of Energy Spectra of Neutrino Beams Independent of Nuclear Effects: Prospects for Current Experiments, X.-G. Lu, JPS Conf.Proc. 12 (2016) 010034, arXiv:1512.09042. NuInt15.
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Neutrino-induced meson productions, Satoshi X. Nakamura, JPS Conf.Proc. 10 (2016) 041001, arXiv:1511.01187. 10th International Workshop on the Physics of Excited Nucleons (NSTAR2015), May 25-28 2015, Osaka, Japan.
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NuWro Monte Carlo generator of neutrino interactions - first electron scattering results, Jakub Zmuda, Krzysztof M. Graczyk, Cezary Juszczak, Jan T. Sobczyk, Acta Phys. Polon. B46 (2015) 2329, arXiv:1510.03268. XXXIX International Conference of Theoretical Physics 'Matter to the Deepest', 13-18 September 2015, Ustron, Poland.
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Accessing transversity GPDs in neutrino-production of a charmed meson, B. Pire, L. Szymanowski, Acta Phys. Polon. Supp. 8 (2015) 883, arXiv:1510.01869. EDS Blois 2015.
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Ab initio calculation of the electromagnetic and neutral-weak response functions of 4He and 12C, A. Lovato et al., EPJ Web Conf. 113 (2016) 01010, arXiv:1509.00451. 21st International Conference on Few-Body Problems in Physics, Chicago, Illinois, USA.
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NEUT development for T2K and relevance of updated 2p2h models, Callum Wilkinson (T2K), PoS NUFACT2014 (2015) 104, arXiv:1505.07994. 16th International Workshop on Neutrino Factories and Future Neutrino Beam Facilities, 25-30 August, 2014, University of Glasgow, United Kingdom.
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Weak Quasielastic Production of Hyperons and Threshold Production of Two Pions, S. K. Singh et al., AIP Conf. Proc. 1680 (2015) 020012, arXiv:1502.02216. CETUP'14.
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Weak Production of Strange Particles and $\eta$ Mesons off the Nucleon, M. Rafi Alam, I. Ruiz Simo, L. Alvarez-Ruso, M. Sajjad Athar, M. J. Vicente Vacas, AIP Conf. Proc. 1680 (2015) 020001, arXiv:1502.02214. CETUP'14.
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Single photon production induced by (anti)neutrino neutral current scattering on nucleons and nuclear targets, L. Alvarez-Ruso, J. Nieves, E. Wang, AIP Conf. Proc. 1680 (2015) 020002, arXiv:1501.05995. CETUP' 2014 Workshop on Neutrino Interactions.
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Extraction of Neutrino Flux from the Inclusive Muon Cross Section, Tomoya Murata, Toru Sato, PoS NUFACT2014 (2015) 054, arXiv:1501.05741. International Workshop on Neutrino Factories and Future Neutrino Facilities (NUFACT 2014), August 25-30 2014, Glasgow, UK.
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Neutrino-Nucleus Interactions at the LBNF Near Detector, Ulrich Mosel, AIP Conf. Proc. 1680 (2015) 020009, arXiv:1501.03160. CETUP' Workshop 2014.
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Hadronization processes in neutrino interactions, Teppei Katori, Shivesh Mandalia, J. Phys. G42 (2015) 115004, arXiv:1412.4301. CETUP'-Workshop on Neutrino Interactions, July 22-31, 2014 at Lead/Dead Wood, South Dakota, USA.
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Problems with Ultrahigh-energy Neutrino Interactions, Dieter Schildknecht, Subnucl.Ser. 52 (2017) 147-165, arXiv:1411.0498. International School of Subnuclear Physics, 52nd Course, Erice, Sicily, 24 June - 3 July 2014.
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Nucleon PDF separation with the collider and fixed-target data, S. Alekhin et al., Nucl.Part.Phys.Proc. 273-275 (2016) 1961-1966, arXiv:1410.7007. DIS2014 and ICHEP 2014.
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Effective Spectral Function for Quasielastic Scattering on Nuclei from Deuterium to Lead, A. Bodek, M. E. Christy, B. Coopersmith, AIP Conf. Proc. 1680 (2015) 020003, arXiv:1409.8545. 37th International Conference on High Energy Physics (ICHEP 2014, 2-9 Jul 2014. Valencia, Spain.
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Hadron production measurements to constrain accelerator neutrino beams, Alexander Korzenev, AIP Conf. Proc. 1666 (2015) 150001, arXiv:1409.7887. Neutrino 2014, Boston, June 2014.
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Recent Results of the Relativistic Green's Function Model in Quasielastic Neutrino and Antineutrino-Nucleus Scattering, Carlotta Giusti, Andrea Meucci, Nucl. Theor. 33 (2014) 65-74, arXiv:1409.5653. IWNT-33, 22-28 June 2014, Rila Mountains, Bulgaria.
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The axial form factor and polarization of the final nucleon in quasi-elastic $\nu-N$ scattering, S.M. Bilenky, E. Christova, arXiv:1406.2167, 2014. XV Workshop on High Energy Spin Physics in Dubna, Russia, October 8-12, 2013 (DSPIN 2013).
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NEUT Pion Final State Interactions, Patrick de Perio, AIP Conf.Proc. 1405 (2011) 223-228, arXiv:1405.3973. NuInt11 Conference (Neutrino-Nucleus Interactions in the Few-GeV Region).
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Comparing pion production models to MiniBooNE data, P. A. Rodrigues, AIP Conf.Proc. 1663 (2015) 030006, arXiv:1402.4709. Eigth International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt12).
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A comparison of Monte Carlo generators, Tomasz Golan, AIP Conf.Proc. 1663 (2015) 030003, arXiv:1402.1608. NUINT12: Eighth International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region, October 22-27, 2012, Rio de Janeiro, Brasil.
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Neutrinos from charm production in the atmosphere, Rikard Enberg, AIP Conf.Proc. 1630 (2014) 44-49, arXiv:1402.0880. Very Large Volume Neutrino Telescope Workshop 2013.
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Nuclear PDFs in the beginning of the LHC era, Hannu Paukkunen, Nucl. Phys. A926 (2014) 24-33, arXiv:1401.2345. IS2013 conference, Isla de la Toja, Spain.
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Weak Strangeness and Eta Production, M. Rafi Alam et al., arXiv:1311.2293, 2013. NUFACT-2013, August 19-24, 2013, Beijing, China.
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Further Studies of Transverse Enhancement in Quasielastic Electron Scattering, A. Bodek, H.S. Budd, M. E. Christy, T. N. S. Gautam, arXiv:1310.7669, 2013. DPF 2013, Santa Cruz, CA, August 2013.
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Photon neutrino-production in a chiral EFT for nuclei and extrapolation to $E_\nu\sim$ GeV region, Xilin Zhang, arXiv:1310.7294, 2013. International Workshop on Neutrino Factories, Super beams and Beta Beams (NUFACT 2013), August 2013, Beijing, China.
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Quasi-elastic scattering, RPA, 2p2h and neutrino-energy reconstruction, J Nieves, R Gran, F Sanchez, M J Vicente Vacas, arXiv:1310.7091, 2013. International Workshop on Neutrino Factories, Super beams and Beta Beams (NUFACT 2013), Beijing, August 2013.
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Pion production in neutrino-nucleus collisions, E. Hernandez, J. Nieves, M.J. Vicente Vacas, arXiv:1310.4315, 2013. International Workshop on Neutrino Factories, Super beams and Beta Beams (NUFACT 2013), Beijing, August 2013.
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Neutrino induced meson productions in forward limit, S X Nakamura, H Kamano, T S H Lee, T Sato, arXiv:1309.3534, 2013. International Workshop on Neutrino Factories, Super Beams and Beta Beams (NUFACT 2013), August 19-24 2013, Beijing, China.
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Neutrino-nucleus DIS data and their consistency with nuclear PDFs, Hannu Paukkunen, Carlos A. Salgado, PoS DIS2013 (2013) 273, arXiv:1306.2432. XXI International Workshop on Deep-Inelastic Scattering and Related Subjects, Marseilles, France.
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Pion production in the T2K experiment, O. Lalakulich, U. Mosel, Phys. Rev. C 88, 017601 (2013) 017601, arXiv:1305.3861.
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Meson Exchange Current (MEC) Models in Neutrino Interaction Generators, Teppei Katori, AIP Conf.Proc. 1663 (2015) 030001, arXiv:1304.6014. 8th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt12), Rio de Janeiro, Brazil, 22-27 October 2012.
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Neutrino Absorption in the Earth, Neutrino Cross-Sections, and New Physics, Spencer R. Klein, Amy Connolly, arXiv:1304.4891, 2013. Snowmass Cosmic Frontier.
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Consistent analysis of neutral- and charged-current (anti)neutrino scattering off carbon, Artur M. Ankowski, AIP Conf.Proc. 1663 (2015) 080002, arXiv:1304.4714. NuInt12, 22-27 October 2012, Rio de Janeiro, Brazil.
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Photon emission in neutral current interactions with nucleons and nuclei, L. Alvarez-Ruso, J. Nieves, E. Wang, AIP Conf.Proc. 1663 (2015) 070003, arXiv:1304.2702. 8th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt12).
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One-pion production in neutrino-nucleus collisions, E. Hernandez, J. Nieves, M.J. Vicente-Vacas, AIP Conf.Proc. 1663 (2015) 070002, arXiv:1304.2614. NUINT 2012, Rio de Janeiro, October 2012.
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Comparison of GiBUU calculations with MiniBooNE pion production data, Olga Lalakulich, Ulrich Mosel, AIP Conf.Proc. 1663 (2015) 070007, arXiv:1304.2409. NuInt12.
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CCQE, 2p2h excitations and nu-energy reconstruction, J. Nieves, I. Ruiz Simo, F. Sanchez, M. J. Vicente Vacas, AIP Conf.Proc. 1663 (2015) 080005, arXiv:1304.1032. NUINT 2012, Rio de Janeiro, October 2012.
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GiBUU and Shallow Inelastic Scattering, O. Lalakulich, U. Mosel, AIP Conf.Proc. 1663 (2015) 040004, arXiv:1303.6677. NUINT 2012, Rio de Janeiro, October 2012.
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Superscaling in electron-nucleus scattering and its link to CC and NC QE neutrino-nucleus scattering, M.B. Barbaro et al., AIP Conf.Proc. 1663 (2015) 090002, arXiv:1303.6508. NUINT 2012, Rio de Janeiro, October 2012.
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Toward Construction of the Unified Lepton-Nucleus Interaction Model from a Few Hundred MeV to GeV Region, S. X. Nakamura et al., AIP Conf.Proc. 1663 (2015) 120010, arXiv:1303.6032. NUINT 2012, Rio de Janeiro, October 2012.
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Weak $eta$ production off the nucleon, M. Rafi Alam, L. Alvarez-Ruso, M. Sajjad Athar, M. J. Vicente Vacas, AIP Conf.Proc. 1663 (2015) 120014, arXiv:1303.5951. NUINT 2012, Rio de Janeiro, October 2012.
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Weak production of strange particles off the nucleon, M. Rafi Alam, I. Ruiz Simo, M. Sajjad Athar, L. Alvarez-Ruso, M. J. Vicente Vacas, AIP Conf.Proc. 1663 (2015) 070004, arXiv:1303.5924. NUINT 2012, Rio de Janeiro, October 2012.
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Neutrino-induced meson productions off nucleon at forward limit in nucleon resonance region, S. X. Nakamura, H. Kamano, T.-S. H. Lee, T. Sato, AIP Conf.Proc. 1663 (2015) 070005, arXiv:1303.4152. NUINT 2012, Rio de Janeiro, October 2012.
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Update and Comparison of Nuclear Parton Distribution Functions and Neutrino DIS, K. Kovarik, arXiv:1206.2178, 2012. DIS2012.
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Neutrino-Long-Baseline Experiments and Nuclear Physics, Ulrich Mosel, Olga Lalakulich, PoS BORMIO2012 (2012) 034, arXiv:1204.2269. 50th International Winter Meeting on Nuclear Physics - Bormio 2012, January 23-27, Bormio, Italy.
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Neutrino and antineutrino cross sections in $^{12}$C, A. R. Samana, F. Krmpotic, N. Paar, C. A. Bertulani, J. Phys. Conf. Ser. 312 (2011) 072009, arXiv:1203.3218. International Nuclear Physics Conference 2010, Vancouver, BC - Canada 4-9 Jul 2010.
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Geometric scaling in ultrahigh energy neutrinos and nonlinear perturbative QCD, M.V.T. Machado, Int. J. Mod. Phys. Proc. Suppl. E20 (2013) 189-194, arXiv:1112.0555. First Caribbean Symposium on Nuclear and Astroparticle Physics - STARS2011, La Habana, Cuba, 2011.
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Neutrino-Nucleus Interactions around 1 GeV, Ulrich Mosel, AIP Conf. Proc. 1441 (2012) 465-467, arXiv:1111.1732. PANIC11, July 24-29, 2011, Cambridge, USA.
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Compatibility of global NPDF analyses of neutrino DIS and charged-lepton DIS data, K. Kovarik et al., PoS EPS-HEP2011 (2011) 289, arXiv:1111.1145. XXIst International Europhysics Conference on High Energy Physics, 21-27 July 2011, Grenoble, France.
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Two particle-two hole excitations in charged current quasielastic neutrino-nucleus interactions, M. Martini, J. Phys. Conf. Ser. 408 (2013) 012041, arXiv:1110.5895. NUFACT 11, XIIIth International Workshop on Neutrino Factories, Super beams and Beta beams, 1-6 August 2011, CERN and University of Geneva.
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Meson-exchange Currents and Quasielastic Neutrino Cross Sections, M.B.Barbaro et al., arXiv:1110.4739, 2011. 30th International Workshop on Nuclear Theory IWNT30, Rila Mountains, Bulgaria, June 27 - July 2, 2011.
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Relativistic Descriptions of Final-State Interactions in Quasielastic Electron and Neutrino-Nucleus Scattering, Carlotta Giusti, Andrea Meucci, arXiv:1110.4005, 2011. Thirtieth Anniversary International Workshop on Nuclear Theory, Rila Mountains, Bulgaria, June 27 - July 1 2011.
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Confronting electron- and neutrino-nucleus scattering, Omar Benhar, J. Phys. Conf. Ser. 408 (2013) 012042, arXiv:1110.1835. NUFACT 11, XIIIth International Workshop on Neutrino Factories, Super Beams and Beta Beams, 1-6 August 2011, CERN and University of Geneva.
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Modeling neutrino-nucleus interactions in the few-GeV regime, Natalie Jachowicz, Pieter Vancraeyveld, J. Phys. Conf. Ser. 408 (2013) 012081, arXiv:1110.1503. NUFACT 11, XIIIth International Workshop on Neutrino Factories, Super beams and Beta beams, 1-6 August 2011, CERN and University of Geneva.
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The nucleon axial mass and the MiniBooNE CCQE neutrino-nucleus data, J. Nieves, I. Ruiz-Simo, M.J. Vicente-Vacas, J. Phys. Conf. Ser. 408 (2013) 012040, arXiv:1110.1200. NUFACT 11, XIIIth International Workshop on Neutrino Factories, Super beams and Beta beams, 1-6 August 2011, CERN and University of Geneva.
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Impact of nuclear effects in the measurement of neutrino oscillation parameters, Davide Meloni, AIP Conf. Proc. 1405 (2011) 65-70, arXiv:1110.1004. NUFACT 11, XIIIth International Workshop on Neutrino Factories, Super beams and Beta beams, 1-6 August 2011, CERN and University of Geneva.
[Meloni:2011mr]
[24-107]
Relativistic Models for Quasi-Elastic Neutrino-Nucleus Scattering, M.B. Barbaro, J.E. Amaro, J.A. Caballero, T.W. Donnelly, J.M. Udias, AIP Conf. Proc. 1441 (2012) 417-419, arXiv:1108.5202. PANIC 2011, MIT, Cambridge, MA, July 2011.
[Barbaro:2011iy]
[24-108]
Quantifying uncertainties in the high energy neutrino cross-section, Amanda Cooper-Sarkar, Philipp Mertsch, Subir Sarkar, Pramana 79 (2012) 1301, arXiv:1108.1755. 32nd International Cosmic Ray Conference, Beijing, China, 11-18 August 2011.
[Cooper-Sarkar:2011dym]
[24-109]
Nuclear Effects in Generators: the Path Forward, Ulrich Mosel, AIP Conf. Proc. 1405 (2011) 368-373, arXiv:1108.1692. NuInt11, Dehradun, India, March 2011.
[Mosel:2011ey]
[24-110]
Resolving the Axial Mass Anomaly in neutrino Scattering, A. Bodek, H.S. Budd, M. E. Christy, AIP Conf. Proc. 1441 (2012) 420-422, arXiv:1108.0903. 19th Particles and Nuclei International Conference, PANIC 2011, MIT, Cambridge, MA July 2011.
[Bodek:2011nk]
[24-111]
Pion production in the MiniBooNE, O. Lalakulich, K. Gallmeister, T. Leitner, U. Mosel, AIP Conf. Proc. 1405 (2011) 127-133, arXiv:1107.5947. NuInt11, Dehradun, India, March 2011.
[Lalakulich:2011ne]
[24-112]
Entanglement of Quasielastic Scattering and Pion Production, Ulrich Mosel, Olga Lalakulich, Tina Leitner, AIP Conf. Proc. 1405 (2011) 207-212, arXiv:1107.3771. NuInt11, Dehradun, India, March 2011.
[Mosel:2011qx]
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Nuclear correction factors from neutrino DIS, K. Kovarik, arXiv:1107.3032, 2011. DIS2011.
[Kovarik:2011bs]
[24-114]
Dynamical Model for Meson Production off Nucleon and Application to Neutrino-Nucleus Reactions, Satoshi X. Nakamura, AIP Conf. Proc. 1405 (2011) 146-151, arXiv:1107.2364. 7th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt11), Dehradun, India, Mar. 7-11, 2011.
[Nakamura:2011gd]
[24-115]
DGLAP Evolutions and cross-sections of Neutrino-Nucleon interaction at Ultra High energy, D K Choudhury, Pijush Kanti Dhar, arXiv:1103.3788, 2011. XIX DAE-BRNS High Energy Physics Symposium, December 13-18, 2010, Jaipur, India.
[Choudhury:2011zj]
[24-116]
Neutral Current Coherent Cross Sections- Implications on Gaseous Spherical TPC's for detecting SN and Earth neutrinos, J. D. Vergados, J. Phys. Conf. Ser. 309 (2011) 012031, arXiv:1103.1107. Fifth symposium on large TPCs for low energy rare event detection and workshop on neutrinos from Supernovae, Paris Dec. 14-18, 2010.
[Vergados:2011ym]
[24-117]
Recent progress on nuclear parton distribution functions, M. Hirai, S. Kumano, K. Saito, AIP Conf. Proc. 1369 (2011) 88-97, arXiv:1102.3479. 3rd International Workshop on Nucleon Structure at Large Bjorken x, Newport News, Virginia, USA, October 13-15, 2010.
[Hirai:2011cq]
[24-118]
Superscaling predictions for NC and CC quasi-elastic neutrino-nucleus scattering, J.E. Amaro, M.B. Barbaro, J.A. Caballero, T.W. Donnelly, AIP Conf. Proc. 1382 (2011) 167-169, arXiv:1012.4265. XII International Workshop on Neutrino Factories, Superbeams and Betabeams (NuFact10), Tata Institute of Fundamental Research, Mumbai, India, 20-25 Oct. 2010.
[Amaro:2010qn]
[24-119]
New determination of the $N$-$\Delta(1232)$ axial form factors from weak pion production and coherent pion production off nuclei at T2K and MiniBooNE energies revisited, E. Hernandez, J. Nieves, M. Valverde, M.J. Vicente-Vacas, AIP Conf. Proc. 1382 (2011) 153-155, arXiv:1012.4260. NuFact10.
[Hernandez:2010qm]
[24-120]
Nuclear PDF for neutrino and charged lepton data, K. Kovarik, AIP Conf. Proc. 1382 (2011) 158-160, arXiv:1012.2750. 12th International Workshop on Neutrino Factories, Super beams and Beta Beams, 2010.
[Kovarik:2010bp]
[24-121]
Update to the Bodek-Yang Unified Model for Electron- and Neutrino- Nucleon Scattering Cross Sections, Arie Bodek, Un-Ki Yang, PoS ICHEP2010 (2010) 292, arXiv:1012.0261. 35th International Conference of High Energy Physics - ICHEP2010, July 22-28, 2010, Paris France.
[Bodek:2010uf]
[24-122]
UHE neutrinos: higher twists, scales, saturation, R. Fiore, V.R. Zoller, AIP Conf. Proc. 1350 (2011) 81-84, arXiv:1011.2611. Diffraction 2010, Otranto (Lecce), Italy, September 10-15, 2010.
[Fiore:2010yy]
[24-123]
Consistency of neutrino DIS and the present parton distribution functions, Hannu Paukkunen, Carlos A. Salgado, PoS ICHEP2010 (2010) 166, arXiv:1009.3143. 35th International Conference of High Energy Physics.
[Paukkunen:2010qj]
[24-124]
Neutrino induced coherent pion production, E. Hernandez, J. Nieves, M. Valverde, M.J. Vicente-Vacas, AIP Conf. Proc. 1222 (2010) 227-232, arXiv:0912.2631. NUFACT09.
[Hernandez:2009zg]
[24-125]
Deeply Virtual Neutrino Production of $\pi^0$ from Nucleon and Nuclear Targets, Gary R. Goldstein, Osvaldo Gonzalez Hernandez, Simonetta Liuti, Tracy McAskill, AIP Conf. Proc. 1222 (2010) 248-252, arXiv:0911.0455. Nufact 09, July 20-25, 2009, Illinois Institute of Technology, Chicago.
[Goldstein:2009in]
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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.
[Park:2009ft]
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Nucleon Emision Off Nuclei Induced By Neutrino Interactions, M. Valverde, J. Nieves, J. E. Amaro, M. J. Vicente-Vacas, AIP Conf. Proc. 1222 (2010) 202-206, arXiv:0910.3041. NuFact09; July 20-25, (2009).
[Valverde:2009hh]
[24-128]
Coherent Pion Production by Neutrinos, E. A. Paschos, Dario Schalla, AIP Conf. Proc. 1189 (2009) 213-217, arXiv:0910.2852. Sixth International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt09), May 18-22, Sitges, Barcelona, Spain.
[Paschos:2009dn]
[24-129]
Pion production in neutrino interactions with nuclei, T. Leitner, O. Lalakulich, O. Buss, U. Mosel, L. Alvarez-Ruso, AIP Conf. Proc. 1222 (2010) 212-221, arXiv:0910.2835. NUFACT09, Chicago, July 2009.
[Leitner:2009de]
[24-130]
Quark-hadron duality in lepton scattering off nucleons, Krzysztof M. Graczyk, AIP Conf. Proc. 1222 (2010) 238-242, arXiv:0910.2355. NuFact09, 11th International Workshop on Neutrino Factories, Superbeams and Beta Beams, July 20-25, 2009; IIT Chicago, USA.
[Graczyk:2009px]
[24-131]
Nuclear effects in neutrino-nucleus interactions, Maria B. Barbaro, J. Phys. Conf. Ser. 205 (2010) 012015, arXiv:0910.1437. XVIII International School on Nuclear Physics, Neutron Physics and Applications, September 21 - 27, 2009 Varna, Bulgaria.
[Barbaro:2009xi]
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Quasielastic Scattering at MiniBooNE Energies, L. Alvarez-Ruso, O. Buss, T. Leitner, U. Mosel, AIP Conf. Proc. 1189 (2009) 151-156, arXiv:0909.5123. Sixth International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt09), May 18-22, Sitges, Barcelona, Spain.
[Alvarez-Ruso:2009vbv]
[24-133]
Single pion production induced by neutrino-nucleon interactions, Krzysztof M. Graczyk, PoS EPS-HEP2009 (2009) 286, arXiv:0909.5084. 2009 Europhysics Conference on High Energy Physics (EPS-HEP 2009), 16-22 July 2009 Krakow, Poland.
[Graczyk:2009zh]
[24-134]
Four Momentum Transfer Discrepancy in the Charged Current $\pi^+$ Production in the MiniBooNE: Data vs. Theory, Jaroslaw A. Nowak (MiniBooNE), AIP Conf. Proc. 1189 (2009) 243-248, arXiv:0909.3659. 6th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NUINT 2009), Sitges, Barcelona, Spain, 18-22 May 2009.
[Nowak:2009se]
[24-135]
Nuclear effects in electron reactions and their impact on neutrino processes, M.B. Barbaro et al., AIP Conf. Proc. 1189 (2009) 115-121, arXiv:0909.2602. NUINT09, 6th International Workshop of Neutrino-Nucleus Interactions in the Few-Gev Region, Sitges (Spain), May 18-22, 2009.
[Barbaro:2009rx]
[24-136]
Nuclear effects in neutrino-nucleus DIS, M. Hirai, S. Kumano, K. Saito, AIP Conf. Proc. 1189 (2009) 269-275, arXiv:0909.2329.
[Hirai:2009mq]
[24-137]
Running Nuwro, Cezary Juszczak, Acta Phys. Polon. B40 (2009) 2507-2512, arXiv:0909.1492. 45th Winter School in Theoretical Physics 'Neutrino Interactions: from Theory to Monte Carlo Simulations', Ladek-Zdroj, Poland, February 2-11, 2009.
[Juszczak:2009qa]
[24-138]
Neutrino induced pion production at MiniBooNE and K2K energies, T. Leitner, O. Buss, U. Mosel, L. Alvarez-Ruso, AIP Conf. Proc. 1189 (2009) 207-212, arXiv:0909.0838. 6th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt09), Sitges, Spain, 18 - 22 May 2009.
[Leitner:2009ec]
[24-139]
A phenomenological study of photon production in low energy neutrino nucleon scattering, James Jenkins, Terry Goldman, arXiv:0908.4567, 2009. DPF-2009, Detroit, MI, July 27-31, 2009.
[Jenkins:2009ct]
[24-140]
Neutrino induced weak pion production off the nucleon and coherent pion production in nuclei at low energies, J.E. Amaro, E. Hernandez, J. Nieves, M. Valverde, M.J. Vicente-Vacas, AIP Conf. Proc. 1189 (2009) 224-229, arXiv:0908.4184. NUINT09.
[Amaro:2009vu]
[24-141]
Low energy neutrino scattering : from fundamental interaction studies to astrophysics, Cristina Volpe, Acta Phys. Polon. B40 (2009) 2545-2550, arXiv:0906.1476. 45th Winter School in Theoretical Physics 'Neutrino Interactions: from Theory to Monte Carlo Simulations', Ladek-Zdroj, Poland, February 2-11, 2009.
[Volpe:2009ck]
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The Puzzle of Neutron Lifetime, Stephan Paul, Nucl. Instrum. Meth. A611 (2009) 157-166, arXiv:0902.0169. International Workshop on Particle Physics with Slow Neutrons.
[Paul:2009md]
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Coherent Pion Production in the Neutrino-Nucleus Scattering in Few-GeV Region, S. X. Nakamura, T. Sato, T.-S. H. Lee, B. Szczerbinska, K. Kubodera, arXiv:0901.2366, 2009. 18th Particle and Nuclei International Conference (PANIC08), Eilat, Israel, 9-14 Nov 2008.
[Nakamura:2009gg]
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A neutrino interaction simulation program library NEUT, Yoshinari Hayato, Acta Phys. Polon. B40 (2009) 2477-2489. Neutrino interactions: From theory to Monte Carlo simulations. Proceedings, 45th Karpacz Winter School in Theoretical Physics, Ladek-Zdroj, Poland, February 2-11, 2009.
[Hayato:2009zz]
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Nuclear Parton Distribution Functions, I. Schienbein et al., Nucl. Phys. Proc. Suppl. 191 (2009) 25-34, arXiv:0812.3370. Ringberg Workshop 'New Trends in HERA Physics 2008'.
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Current non-conservation effects in $\nu$DIS diffraction, R. Fiore, V. R. Zoller, AIP Conf. Proc. 1105 (2009) 304-307, arXiv:0811.2894. Int. Workshop on Diffraction in High-Energy Physics, Diffraction 2008, La Londe-les-Maures, France, Sept. 9-14, 2008.
[Fiore:2008zw]
[24-147]
Resonance contribution to single pion production in neutrino-nucleon scattering, Krzysztof M. Graczyk, arXiv:0810.1247, 2008. Twenty Seventh International Workshop on Nuclear Theory, June 23 - 28, 2008, Rila mountains, Bulgaria.
[Graczyk:2008er]
[24-148]
Theoretical update on low energy neutrino-nucleus reactions, J. Nieves, M.J. Vicente-Vacas, J.E. Amaro, M. Valverde, E. Hernandez, PoS NUFACT08 (2008) 061, arXiv:0809.5219. 10th International Workshop on Neutrino Factories, Super beams and Beta beams, June 30 - July 5 2008, Valencia, Spain.
[Nieves:2008sx]
[24-149]
Neutrino scattering with nuclei - Theory of low energy nuclear effects and its applications, T. Leitner, O. Buss, U. Mosel, L. Alvarez-Ruso, PoS NUFACT08 (2008) 009, arXiv:0809.3986. 10th International Workshop on Neutrino Factories, Super beams and Beta beams (NUFACT08), June 30 - July 5 2008, Valencia, Spain.
[Leitner:2008fg]
[24-150]
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.
[Barranco:2008zza]
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Some new implications of the anomalous baryon current in the Standard Model, Richard J. Hill, arXiv:0806.3673, 2008. Rencontres de Moriond Electroweak, La Thuile, Italy, March 2008.
[Hill:2008mp]
[24-152]
Neutrino Cross Section Measurements for Long-Baseline Accelerator-based Neutrino Oscillation Experiments, Teppei Katori, arXiv:0805.2476, 2008. XLIIIrd Rencontres de Moriond on Electroweak Interactions and Unified Theories, La Thuile, Italy, March 1-8, 2008.
[Katori:2008hn]
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Full of charm neutrino DIS, R. Fiore, V.R. Zoller, arXiv:0805.2090, 2008. 43rd Rencontres de Moriond 'QCD and High Energy Interactions' La Thuile, Aosta Valley, Italy, 08-15 March 2008.
[Fiore:2008zq]
[24-154]
Production of Two Pions Induced by Neutrinos, M. Valverde, J. Nieves, E. Hernandez, S.K. Singh, M.J. Vicente Vacas, Mod. Phys. Lett. A23 (2008) 2309-2312, arXiv:0802.1269. Chiral07, RCNP, Osaka, Japan.
[Valverde:2008jj]
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Neutral Current pi0 Production in the MiniBooNE Antineutrino Data, V. T. Nguyen (MiniBooNE), AIP Conf. Proc. 981 (2008) 250-252, arXiv:0801.0628. 9th International Workshop on Neutrino Factories, SuperBeams and BetaBeams (NuFact07), Okayama University, Okayama, Japan, 6-11 August, 2007.
[McGary:2008rqv]
[24-156]
Nuclear Effects in Neutrino Structure Functions, S. A. Kulagin, R. Petti, AIP Conf. Proc. 967 (2007) 94-101, arXiv:0711.3956. 5th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt07), Batavia, Illinois, 30 May - 3 Jun 2007.
[Kulagin:2007ha]
[24-157]
Electron and neutrino scattering in the $\Delta$-resonance region and beyond, M.B. Barbaro, J.E. Amaro, J.A. Caballero, C. Maieron, arXiv:0710.4089, 2007. 26th International Workshop on Nuclear Theory, June 25-30, 2007, Rila Mountains, Bulgaria.
[Barbaro:2007ky]
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Impact of non-standard neutrino interactions on future oscillation experiments, Joachim Kopp, Manfred Lindner, Toshihiko Ota, Joe Sato, arXiv:0710.1867, 2007. SUSY07.
[Kopp:2007rz]
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Modeling Lepton-Nucleon Inelastic Scattering from High to Low Momentum Transfer, S. Alekhin, S.A. Kulagin, R. Petti, AIP Conf. Proc. 967 (2007) 215-224, arXiv:0710.0124. 5th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt07), Batavia, Illinois, 30 May - 3 Jun 2007.
[Alekhin:2007fh]
[24-160]
Why understanding neutrino interactions is important for oscillation physics, C.W. Walter, AIP Conf. Proc. 967 (2007) 3-8, arXiv:0709.3616. Fifth International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt07), May 30-June 2, 2007.
[Walter:2007wf]
[24-161]
Extraction of the Axial Nucleon Form Factor from Neutrino Experiments on Deuterium, A. Bodek, S. Avvakumov, R. Bradford, H. Budd, J. Phys. Conf. Ser. 110 (2008) 082004, arXiv:0709.3538. European Physical Society Meeting, EPS2007, Manchester, England, July 2007.
From the abstract: We obtain an updated world average value from $\nu_\mu$d, $\bar\nu_\mu$H and pion electroproduction experiments for the axial mass $ M_{A} = 1.014 \pm 0.014 \text{GeV} $.
[Bodek:2007vi]
[24-162]
Neutrino-induced coherent pion production, L. Alvarez-Ruso et al., AIP Conf. Proc. 967 (2007) 201-204, arXiv:0709.3019. 5th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt07).
[Alvarez-Ruso:2007yjw]
[24-163]
Neutrino Interactions with Nuclei, T. Leitner, O. Buss, U. Mosel, L. Alvarez-Ruso, AIP Conf. Proc. 967 (2007) 192-196, arXiv:0709.0244. NUINT07.
[Leitner:2007px]
[24-164]
Modeling Atmospheric Neutrino Interactions: Duality Constrained Parameterization of Vector and Axial Nucleon Form Factors, A. Bodek, S. Avvakumov, R. Bradford, H. Budd, arXiv:0708.1827, 2007. 30th International Cosmic Ray Conference (ICRC 2007), Merida, Yucatan, Mexico, 3-11 Jul 2007.
[Bodek:2007wz]
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Tests of the Standard Model with Low-Energy Neutrino Beams, V. Antonelli, G. Battistoni, P. Ferrario, S. Forte, Nucl. Phys. Proc. Suppl. 168 (2007) 192-194, arXiv:hep-ph/0703251. NOW (Neutrino Oscillation Workshop) 2006.
[Antonelli:2007eb]
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Inferring neutrino cross sections above 10^19 eV, Sergio Palomares-Ruiz, arXiv:hep-ph/0612051, 2006. Workshop on Exotic Physics with Neutrino Telescopes, Uppsala, Sweden, 20-22 Sep 2006.
[Palomares-Ruiz:2006nsp]
[24-167]
Event rates vs. cross sections at neutrino telescopes, Shahid Hussain, J. Phys. Conf. Ser. 60 (2007) 207-210, arXiv:hep-ph/0610417. 'TeV Particle Astrophysics II', Madison, Wisconsin.
[Hussain:2006ay]
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Left and Right in small-x neutrino DIS, V.R. Zoller, PoS DIFF2006 (2006) 042, arXiv:hep-ph/0610369. Diffraction 06,International Workshop on Diffraction in High-Energy Physics,September 5-10, 2006 Adamantas, Milos island, Greece.
[Zoller:2006fy]
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Simulation of Cosmic Ray neutrinos Interactions in Water, T. Sloan, J. Phys. Conf. Ser. 81 (2007) 012001, arXiv:astro-ph/0609617. ARENA Workshop 2006.
[Sloan:2006vp]
[24-170]
Constraints on Muon Decay Parameters from Neutrino Mass, Rebecca J. Erwin, Jennifer Kile, Michael J. Ramsey-Musolf, Peng Wang, AIP Conf. Proc. 842 (2006) 903-905, arXiv:hep-ph/0608163. CIPANP 2006 (May 30-June 3, 2006), Rio Grande, Puerto Rico.
[Erwin:2006nr]
[24-171]
Modelling CC neutrino cross sections in the few GeV energy region, Jaroslaw A. Nowak, Jan T. Sobczyk, Acta Phys. Polon. B37 (2006) 1955-1966, arXiv:hep-ph/0608130. Cracow Epiphany Conference on Neutrinos and Dark Matter, Jan. 5-8, 2006, Cracow, Poland.
[Nowak:2006cp]
[24-172]
Hadron production in Wroclaw neutrino event generator, Jaroslaw A. Nowak, Jan T. Sobczyk, Acta Phys. Polon. B37 (2006) 2371-2378, arXiv:hep-ph/0608108. 20th Max Born Symposium: Nuclear Effects in Neutrino Interactions, Wroclaw, Poland, 7-10 Dec 2005.
[Nowak:2006xv]
[24-173]
Axial masses in quasielastic neutrino scattering and single-pion neutrinoproduction on nucleons and nuclei, Konstantin S. Kuzmin, Vladimir V. Lyubushkin, Vadim A. Naumov, Acta Phys. Polon. B37 (2006) 2337-2348, arXiv:hep-ph/0606184. XXth Max Born Symposium 'Nuclear effects in neutrino interactions,' Wroclaw, Poland, December 7-10, 2005.
[Kuzmin:2006dh]
[24-174]
Charged and Neutral Current Neutrino Induced Nucleon Emission Reactions, J. Nieves, M. Valverde, M.J. Vicente Vacas, Acta Phys. Pol. B37 (2006) 2295, arXiv:hep-ph/0605221. 20th Max Born Symposium, Wroclaw Poland), December 7-10, 2005.
[Nieves:2006xf]
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Final state interactions in the electroweak nuclear response, Omar Benhar, Nucl. Phys. Proc. Suppl. 159 (2006) 168-173, arXiv:hep-ph/0602108. NUINT05.
[Benhar:2006hh]
[24-176]
Ramifications of intranuclear re-scattering in MINOS, Michael Kordosky, Nucl. Phys. Proc. Suppl. 159 (2006) 223-228, arXiv:hep-ex/0602029. IV International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region, 26-29, September, 2005.
[Kordosky:2006gt]
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A new parameterization of the nucleon elastic form factors, R. Bradford, A. Bodek, H. Budd, J. Arrington, Nucl. Phys. Proc. Suppl. 159 (2006) 127-132, arXiv:hep-ex/0602017. 4th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt05), Okayama, Japan, 26-29 Sep 2005.
[Bradford:2006yz]
[24-178]
Superscaling in electron- and neutrino-nucleus scattering, Maria B. Barbaro, Nucl. Phys. Proc. Suppl. 159 (2006) 186-191, arXiv:nucl-th/0602011. NuInt05, 4th international workshop on neutrino-nucleus interaction in the few GeV region, Sept. 26 - 29 2005, Okayama, Japan.
[Barbaro:2006qq]
[24-179]
Majorana Neutrinos in Muon Decay, Hiroyuki Nishiura, arXiv:hep-ph/0601231, 2006. NNR05 workshop on Neutrino Nuclear Responses in Double Beta Decays and Low-energy Astro-neutrinos, CAST and SPring-8, Japan, 2-4 December 2005.
[Nishiura:2006kt]
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Neutrino-Nuclear Coherent Scattering and the Effective Neutrino Charge Radius, Joannis Papavassiliou, Jose Bernabeu, Massimo Passera, PoS HEP2005 (2006) 192, arXiv:hep-ph/0512029. International Europhysics Conference on High Energy Physics, HEP-EPS 2005, Lisbon, Portugal, July 21-27, 2005.
[Papavassiliou:2005cs]
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Prospects for Antineutrino Running at MiniBooNE, M. O. Wascko, Nucl. Phys. Proc. Suppl. 155 (2006) 242, arXiv:hep-ex/0511002. NuFact05.
[Wascko:2005vh]
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Lepton-nucleus scattering in the impulse approximation regime, O. Benhar et al., Nucl. Phys. Proc. Suppl. 155 (2006) 254, arXiv:hep-ph/0510259. NUFACT05.
[Benhar:2005vg]
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Superscaling and charge-changing neutrino cross sections, M. B. Barbaro et al., Nucl. Phys. Proc. Suppl. 155 (2006) 257, arXiv:nucl-th/0509022. 7th International Workshop on Neutrino Factories and Superbeams, Laboratori Nazionali di Frascati, Frascati (Rome), June 21 - 26, 2005.
[Barbaro:2005nb]
[24-184]
High Energy Neutrino Interactions, I. Sarcevic, arXiv:hep-ph/0508002, 2005. 'Recontres de Moriond, Very High Energy Phenomena in the Universe', March 12-19, 2005, La Thuile, Italy.
[Sarcevic:2005cz]
[24-185]
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.
[Schmidt:2005bv]
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Issues on neutrino-nucleus reactions in the quasi-free delta production region, Ryoichi Seki, Hiroki Nakamura, arXiv:hep-ph/0504162, 2005. Sub-Dominant Oscillation Effects in Atmospheric Neutrino Experiments.
[Seki:2005yk]
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Neutrino cross sections at HERA and beyond, M. H. Reno, Nucl. Phys. Proc. Suppl. 151 (2006) 255, arXiv:hep-ph/0412412. XIII International Symposium on Very High Energy Cosmic Ray Interactions, 6-12 September 2004, Pylos, Greece.
[Reno:2004eb]
[24-188]
Probing Generalized Parton Distributions with Neutrino Beams, Ales Psaker, arXiv:hep-ph/0412321, 2004. Fermilab Proton Driver Workshop, October 6-9 2004.
[Psaker:2004sf]
[24-189]
A new neutrino cross section database, M. R. Whalley, Nucl. Phys. Proc. Suppl. 139 (2005) 241, arXiv:hep-ph/0410399. 3rd International Workshop on Neutrino Nucleus Interactions in the Few GeV Region (NuInt04), Gran Sasso, Assergi, Italy, 17-21 Mar 2004.
[Whalley:2004sz]
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High energy neutrino cross sections, M. H. Reno, Nucl. Phys. Proc. Suppl. 143 (2005) 407, arXiv:hep-ph/0410109. 21st International Conference on Neutrino Physics and Astrophysics (Neutrino 2004), Paris, France, 14-19 June 2004.
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Vector and axial form factors applied to neutrino quasielastic scattering, H. Budd, A. Bodek, J. Arrington, Nucl. Phys. Proc. Suppl. 139 (2005) 90-95, arXiv:hep-ex/0410055. 3rd International Workshop on Neutrino Nucleus Interactions in the Few GeV Region (NuInt04), Gran Sasso, Assergi, Italy, 17-21 Mar 2004.
[Budd:2004bp]
[24-192]
Comparison of electron-nucleus quasi-elastic cross sections using spectral functions with (e,e') data from 0.5 GeV to 1.5 GeV and effects on neutrino quasi-elastic cross sections, Hiroki Nakamura, Ryoichi Seki, Makoto Sakuda, Nucl. Phys. Proc. Suppl. 139 (2005) 201, arXiv:hep-ph/0409300. Third International Workshop on Neutrino-Nucleus Interactions in the Few GeV Region (NuInt04).
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PCAC and Shadowing of Low Energy Neutrinos, B.Z. Kopeliovich, Nucl. Phys. Proc. Suppl. 139 (2005) 219, arXiv:hep-ph/0409079. NUINT04, Gran Sasso, March 17-21, 2004.
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Relations Between NC and CC Neutrino Structure Functions for Nucleons and Nuclei, S. A. Kulagin, Nucl. Phys. Proc. Suppl. 139 (2005) 213, arXiv:hep-ph/0409057. 3rd International Workshop On Neutrino Nucleus Interactions In The Few GeV Region (NuInt04), 17-21 Mar 2004, Gran Sasso, Assergi, Italy.
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Comparison of a new Delta resonance production model with electron and neutrino data, E. A. Paschos, M. Sakuda, I. Schienbein, J. Y. Yu, Nucl. Phys. Proc. Suppl. 139 (2005) 125, arXiv:hep-ph/0408185. 3rd Int. Workshop on Neutrino-Nucleon Interaction (NUINT'04).
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Electron and neutrino nucleus scattering, Omar Benhar, Nucl. Phys. Proc. Suppl. 139 (2005) 15, arXiv:nucl-th/0408045. 3rd International Workshop on Neutrino Nucleus Interactions in the Few GeV Region (NuInt04), Gran Sasso, Assergi, Italy, 17-21 Mar 2004.
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Polarization of Tau Leptons Produced in Quasielastic Neutrino-Nucleon Scattering, Konstantin S. Kuzmin, Vladimir V. Lyubushkin, Vadim A. Naumov, Mod. Phys. Lett. A19 (2004) 2919, arXiv:hep-ph/0403110. 8th Scientific Conference 'SCYSS-04', Dubna, Russia, 2 - 6 Feb 2004.
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Precision Measurement of the Weak Mixing Angle in a Reactor Oscillation Experiment, M. Shaevitz, 2004. Workshop on Future Low Energy Neutrino Experiments, Mar 20-22, 2004, Niigata, Japan. http://neutrino.hep.sc.niigata-u.ac.jp/presen/0321pm/shaevitz.pdf.
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Neutrino-nucleus interactions: Open questions and future projects, C. Volpe, 2004. Neutrino 2004, 13-19 June 2004, Paris, France. http://neutrino2004.in2p3.fr/slides/monday/volpe.ppt.
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Muon spectra of Quasi-Elastic and 1-pion production events at the KEK LBL neutrino oscillation experiment, Ji-Young Yu, E. A. Paschos, D. P. Roy, I. Schienbein, J. Korean Phys. Soc. 45 (2004) S335, arXiv:hep-ph/0312123. ICFP03, October, 2003, Seoul/Korea.
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Lepton Polarization in Neutrino-Nucleon Interactions, Konstantin S. Kuzmin, Vladimir V. Lyubushkin, Vadim A. Naumov, Mod. Phys. Lett. A19 (2004) 2815, arXiv:hep-ph/0312107. 10th International Workshop on High-Energy Spin Physics (SPIN 03), Dubna, Russia, 16-20 Sep 2003.
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Neutrino Physics Without Oscillations, A. W. Thomas, Aip Conf. Proc. 689 (2003) 53, arXiv:hep-ex/0311029. Fourth Tropical Workshop on Particle Physics and Cosmology, Cairns Qld., June 2003.
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[24-203]
Modeling Neutrino and Electron Scattering Inelastic Cross Sections, A. Bodek, U. K. Yang, Nucl. Phys. Proc. Suppl. (2003), arXiv:hep-ex/0308007. NuInt02, the Second International Workshop on Neutrino-Nucleus Interactions in the Few GeV Region, Dec. 2002, Irvine, CA, USA.
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[24-204]
Modeling Quasi-elastic Form Factors for Electron and Neutrino Scattering, H. Budd, A. Bodek, J. Arrington, arXiv:hep-ex/0308005, 2003. NuInt02, Dec. 2002, Irvine, CA, USA.
[Budd:2003wb]
[24-205]
Nuclear modification of structure functions in lepton scattering, S. Kumano, Nucl. Phys. Proc. Suppl.B (2003), arXiv:hep-ph/0307105. Second International Workshop on Neutrino-Nucleus Interactions in the Few GeV Region, UC Irvine, USA, December 12-15, 2002.
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Deep Inelastic Neutrino Interactions, S. Kretzer, M.H. Reno, arXiv:hep-ph/0306307, 2003. NUINT02, Dec 02, Irvine, CA.
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Modeling Neutrino and Electron Scattering Cross Sections in the Few GeV Region with Effective LO PDFs, A. Bodek, U. K. Yang, Aip Conf. Proc. 670 (2003) 110, arXiv:hep-ex/0301036. X Mexican School of Particles and Fields, Playa del Carmen, Mexico, 2002.
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Modeling power corrections to the Bjorken sum rule for the neutrino structure function F_1, C. Weiss, J. Phys. G29 (2003) 1981, arXiv:hep-ph/0210132. Fourth NuFact'02 Workshop 'Neutrino Factories based on Muon Storage Rings', Imperial College, London, July 1-6, 2002.
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Neutrino-nucleon scattering rate in the relativistic random phase approximation, L. Mornas, Nucl. Phys. A721 (2003) 1040, arXiv:nucl-th/0210035. PANIC02 conference, 30 sept - 4 oct 2002, Osaka, Japan.
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Neutrino oscillation studies and the neutrino cross section, Paolo Lipari, Nucl. Phys. Proc. Suppl. 112 (2002) 274-287, arXiv:hep-ph/0207172.
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The Vietri Codices, I.I. Bigi, Frascati Phys. Ser. 28 (2002) 499, arXiv:hep-ph/0206225. HQ&L 2002, International Workshop on Heavy Quarks and Leptons, Vietri sul Mare, Salerno, Italy, May 27 - June 1, 2002.
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Structure functions of the nucleon and nuclei in neutrino reactions, S. Kumano, Nucl. Phys. Proc. Suppl. 112 (2002) 42-48, arXiv:hep-ph/0204242. First International Workshop on Neutrino-Nucleus Interactions in the Few GeV Region, KEK, Tsukuba, Japan, December 13 - 16, 2001.
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Neutrino Interactions at Low and Medium Energies, E. A. Paschos, Nucl. Phys. Proc. Suppl. 112 (2002) 89-97, arXiv:hep-ph/0204138.
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Modeling Deep Inelastic Cross Sections in the Few GeV Region, A. Bodek, U. K. Yang, Nucl. Phys. Proc. Suppl. 112 (2002) 70-76, arXiv:hep-ex/0203009. NuInt01, the First International Workshop on Neutrino-Nucleus Interactions in the Few GeV Region, Dec. 2001, KEK, Tsukuba, Japan.
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Comparisons of real and simulated data, G. Zeller, 2002. Second International Workshop on Neutrino-Nucleus Interactions in the few-GeV Region, NUINT'02, December 12-15, 2002 University of California, Irvine. http://www.ps.uci.edu/~nuint/slides/Zeller.pdf.
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Nuclear effects in neutrino nucleus interactions, J. Marteau, J. Delorme, Magda Ericson, Nucl. Instrum. Meth. A451 (2000) 76-80. Neutrino factories based on muon storage rings. Proceedings, ICFA/ECFA Workshop, nuFACT'99, Lyon, France, July 5-9, 1999.
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Coherent scattering of neutrinos and antineutrinos by quarks in a crystal, J. Weber, AIP Conf. Proc. 150 (1986) 1038-1039. 2nd Conference on the Intersections Between Particle and Nuclear Physics: Lake Louise, Alberta, Canada, May 26-31, 1986.
[Weber:1986ma]

25 - Phenomenology - Coherent Elastic Neutrino-Nucleus Scattering (CEvNS)

[25-1]
Dark matter, CE$\nu$NS and neutrino new physics scrutinized by a statistical method in Xenon-based experiments, Jian Tang, Bing-Long Zhang, arXiv:2403.05819, 2024.
[Tang:2024prl]
[25-2]
Neutron radius determination of 133Cs and constraint on the weak mixing angle, Y. Huang et al., arXiv:2403.03566, 2024.
[Huang:2024jbh]
[25-3]
Prospects for measuring time variation of astrophysical neutrino sources at dark matter detectors, Yi Zhuang, Louis E. Strigari, Lei Jin, Samiran Sinha, arXiv:2402.18454, 2024.
[Zhuang:2024exm]
[25-4]
Exploring the sensitivity to non-standard and generalized neutrino interactions through coherent elastic neutrino-nucleus scattering with a NaI detector, Sabya Sachi Chatterjee, Stephane Lavignac, O. G. Miranda, G. Sanchez Garcia, arXiv:2402.16953, 2024.
[Chatterjee:2024vkd]
[25-5]
Momentum dependent flavor radiative corrections to the coherent elastic neutrino-nucleus scattering for the neutrino charge-radius determination, M. Atzori Corona, M. Cadeddu, N. Cargioli, F. Dordei, C. Giunti, arXiv:2402.16709, 2024.
[AtzoriCorona:2024rtv]
[25-6]
Light vector bosons and the weak mixing angle in the light of new reactor-based CE$u$NS experiments, Manfred Lindner, Thomas Rink, Manibrata Sen, arXiv:2401.13025, 2024.
[Lindner:2024eng]
[25-7]
Solar neutrino constraints on light mediators through coherent elastic neutrino-nucleus scattering, Mehmet Demirci, M. Fauzi Mustamin, Phys.Rev.D 109 (2024) 015021, arXiv:2312.17502.
[Demirci:2023tui]
[25-8]
A neutrino floor for the Migdal effect, Gonzalo Herrera, arXiv:2311.17719, 2023.
[Herrera:2023xun]
[25-9]
Probing nuclear properties and neutrino physics with current and future CEvNS experiments, R. R. Rossi, G. Sanchez Garcia, M. Tortola, arXiv:2311.17168, 2023.
[Rossi:2023brv]
[25-10]
Short Baseline Neutrino Anomalies at Stopped Pion Experiments, Iain A. Bisset, Bhaskar Dutta, Wei-Chih Huang, Louis E. Strigari, arXiv:2310.13194, 2023.
[Bisset:2023oxt]
[25-11]
Migdal effect of Phonon-mediated neutrino nucleus scattering in semiconductor detectors, Yu-Feng Li, Shuo-yu Xia, arXiv:2310.05704, 2023.
[Li:2023xkf]
[25-12]
A neutrino window to scalar leptoquarks: from low energy to colliders, Valentina De Romeri, Victor Martin Lozano, G. Sanchez Garcia, Phys.Rev.D 109 (2024) 055014, arXiv:2307.13790.
[DeRomeri:2023cjt]
[25-13]
On the impact of the Migdal effect in reactor CE$\nu$NS experiments, M. Atzori Corona, M. Cadeddu, N. Cargioli, F. Dordei, C. Giunti, arXiv:2307.12911, 2023.
[AtzoriCorona:2023ais]
[25-14]
Solar neutrinos with CE$\nu$NS and flavor-dependent radiative corrections, Nityasa Mishra, Louis E. Strigari, Phys.Rev.D 108 (2023) 063023, arXiv:2305.17827.
[Mishra:2023jlq]
[25-15]
COHERENT production of a Dark Fermion, Pablo M. Candela, Valentina De Romeri, Dimitrios K. Papoulias, Phys.Rev.D 108 (2023) 055001, arXiv:2305.03341.
[Candela:2023rvt]
[25-16]
Asymptotic Analysis on Binned Likelihood and Neutrino Floor, Jian Tang, Bing-Long Zhang, Phys.Rev.D 108 (2023) 062004, arXiv:2304.13665.
[Tang:2023xub]
[25-17]
Sterile neutrino searches with reactor antineutrinos using coherent neutrino-nucleus scattering experiments, S. P. Behera, D. K. Mishra, P. K. Netrakanti, R. Sehgal, R. Dey, V. Jha, Phys.Rev.D 108 (2023) 113002, arXiv:2304.00912.
[Behera:2023llq]
[25-18]
On massive neutral lepton scattering on nucleus, V. A. Bednyakov, Phys.Part.Nucl. 54 (2023) 803-842, arXiv:2303.10943.
[Bednyakov:2023bbg]
[25-19]
Nuclear neutron radius and weak mixing angle measurements from latest COHERENT CsI and atomic parity violation Cs data, M. Atzori Corona, M. Cadeddu, N. Cargioli, F. Dordei, C. Giunti, G. Masia, Eur. Phys. J. C 83 (2023) 683, arXiv:2303.09360.
[AtzoriCorona:2023ktl]
[25-20]
How to measure the reactor neutrino flux below the inverse beta decay threshold with CE$\nu$NS, Jiajun Liao, Hongkai Liu, Danny Marfatia, Phys.Rev.D 108 (2023) 033002, arXiv:2302.10460.
[Liao:2023kyy]
[25-21]
Low Energy Neutrino and Mass Dark Matter Detection Using Freely Falling Atoms, Alim Ruzi, Sitian Qian, Tianyi Yang, Qiang Li, arXiv:2302.09874, 2023.
[Ruzi:2023cvp]
[25-22]
Extraction of neutron density distributions from high-statistics coherent elastic neutrino-nucleus scattering data, D. Aristizabal Sierra, Phys.Lett.B 845 (2023) 138140, arXiv:2301.13249.
[Sierra:2023pnf]
[25-23]
EFT analysis of New Physics at COHERENT, Victor Breso-Pla, Adam Falkowski, Martin Gonzalez-Alonso, Kevin Monsalvez-Pozo, JHEP 05 (2023) 074, arXiv:2301.07036.
[Breso-Pla:2023tnz]
[25-24]
Constraining scalar leptoquarks using COHERENT data, Roberta Calabrese, Jacob Gunn, Gennaro Miele, Stefano Morisi, Samiran Roy, Pietro Santorelli, Phys.Rev.D 107 (2023) 055039, arXiv:2212.11210.
[Calabrese:2022mnp]
[25-25]
Constraining Non-minimal Dark Sector Scenarios with the COHERENT Neutrino Scattering Data, A. Elpe, E. Akyumuk, T. M. Aliev, L. Selbuz, I. Turan, Phys.Rev.D 107 (2023) 075022, arXiv:2212.06861.
[Elpe:2022hqp]
[25-26]
Physics implications of a combined analysis of COHERENT CsI and LAr data, V. De Romeri, O. G. Miranda, D. K. Papoulias, G. Sanchez Garcia, M. Tortola, J. W. F. Valle, JHEP 04 (2023) 035, arXiv:2211.11905.
[DeRomeri:2022twg]
[25-27]
Supernova Neutrinos as a Precise Probe of Nuclear Neutron Skin, Xu-Run Huang, Lie-Wen Chen, Phys.Rev.D 106 (2022) 123034, arXiv:2210.04534.
[Huang:2022wqu]
[25-28]
Solar and supernova neutrino physics with future NaI(Tl) dark matter search detectors, Young Ju Ko, Hyun Su Lee, Astropart.Phys. 153 (2023) 102890, arXiv:2210.01386.
[Ko:2022pmu]
[25-29]
Physics implications of recent Dresden-II reactor data, Anirban Majumdar, Dimitrios K. Papoulias, Rahul Srivastava, Jose W. F. Valle, Phys.Rev.D 106 (2022) 093010, arXiv:2208.13262.
[Majumdar:2022nby]
[25-30]
Constraining Non-Standard Interactions with Coherent Elastic Neutrino-Nucleus Scattering at the European Spallation Source, Sabya Sachi Chatterjee, Stephane Lavignac, O. G. Miranda, G. Sanchez Garcia, Phys.Rev.D 107 (2023) 055019, arXiv:2208.11771.
[Chatterjee:2022mmu]
[25-31]
Extra dimensions with light and heavy neutral leptons: An application to CE$\nu$NS, Amir N. Khan, JHEP 01 (2023) 052, arXiv:2208.09584.
[Khan:2022bcl]
[25-32]
The effective Fano factor of nuclear recoils for dark matter searches, M. Matheny, A. Roberts, A. Srinivasan, A. N. Villano, Phys.Rev.D 106 (2022) 123009, arXiv:2206.13639.
[Matheny:2022aif]
[25-33]
A COHERENT constraint on leptophobic dark matter using CsI data, D. Akimov et al. (COHERENT), Phys.Rev.D 106 (2022) 052004, arXiv:2205.12414.
[COHERENT:2022pli]
[25-34]
Impact of the Dresden-II and COHERENT neutrino scattering data on neutrino electromagnetic properties and electroweak physics, M. Atzori Corona, M. Cadeddu, N. Cargioli, F. Dordei, C. Giunti, Y. F. Li, C. A. Ternes, Y. Y. Zhang, JHEP 09 (2022) 164, arXiv:2205.09484.
[AtzoriCorona:2022qrf]
[25-35]
Consequences of the Dresden-II reactor data for the weak mixing angle and new physics, D. Aristizabal Sierra, V. De Romeri, D. K. Papoulias, arXiv:2203.02414, 2022.
[AristizabalSierra:2022axl]
[25-36]
Probing light mediators and $(g - 2)_{\mu}$ through detection of coherent elastic neutrino nucleus scattering at COHERENT, M. Atzori Corona, M. Cadeddu, N. Cargioli, F. Dordei, C. Giunti, Y. F. Li, E. Picciau, C. A. Ternes, Y. Y. Zhang, JHEP 05 (2022) 109, arXiv:2202.11002.
[AtzoriCorona:2022moj]
[25-37]
Bounds on new physics with data of the Dresden-II reactor experiment and COHERENT, Pilar Coloma, Ivan Esteban, M. C. Gonzalez-Garcia, Leire Larizgoitia, Francesc Monrabal, Sergio Palomares-Ruiz, JHEP 05 (2022) 037, arXiv:2202.10829.
[Coloma:2022avw]
[25-38]
Implications of the first evidence for coherent elastic scattering of reactor neutrinos, Jiajun Liao, Hongkai Liu, Danny Marfatia, Phys.Rev.D 106 (2022) 031702, arXiv:2202.10622.
[Liao:2022hno]
[25-39]
Constraining Light Mediators via Detection of Coherent Elastic Solar Neutrino Nucleus Scattering, Yu-Feng Li, Shuo-yu Xia, Nucl.Phys.B 977 (2022) 115737, arXiv:2201.05015.
[Li:2022jfl]
[25-40]
Improvements in Antineutrino Detector Response by Including Fission Product Isomeric Transitions and Corrections using New Data, Wei Eng Ang, Sanghun Lee, Shikha Prasad, arXiv:2112.12250, 2021.
[Ang:2021svv]
[25-41]
Probing light vector mediators with coherent scattering at future facilities, Enrico Bertuzzo, Giovanni Grilli di Cortona, Lucas Magno D. Ramos, JHEP 06 (2022) 075, arXiv:2112.04020.
[Bertuzzo:2021opb]
[25-42]
Impact of COHERENT measurements, cross section uncertainties and new interactions on the neutrino floor, D. Aristizabal Sierra, V. De Romeri, L. J. Flores, D. K. Papoulias, JCAP 01 (2022) 055, arXiv:2109.03247.
[AristizabalSierra:2021kht]
[25-43]
Loop effect with vector mediator in the coherent neutrino-nucleus scattering, Wei Chao, Tong Li, Jiajun Liao, Min Su, Phys.Rev.D 104 (2021) 095017, arXiv:2108.02341.
[Chao:2021bvq]
[25-44]
Exploring SMEFT Induced Non-Standard Interactions from COHERENT to Neutrino Oscillations, Yong Du, Hao-Lin Li, Jian Tang, Sampsa Vihonen, Jiang-Hao Yu, Phys.Rev.D 105 (2022) 075022, arXiv:2106.15800.
[Du:2021rdg]
[25-45]
Coherent neutrino scattering and the Migdal effect on the quenching factor, Jiajun Liao, Hongkai Liu, Danny Marfatia, Phys.Rev.D 104 (2021) 015005, arXiv:2104.01811.
[Liao:2021yog]
[25-46]
Coherent elastic neutrino-nucleus scattering with the $\nu$BDX-DRIFT directional detector at next generation neutrino facilities, D. Aristizabal Sierra, Bhaskar Dutta, Doojin Kim, Daniel Snowden-Ifft, Louis E. Strigari, Phys.Rev.D 104 (2021) 033004, arXiv:2103.10857.
[AristizabalSierra:2021uob]
[25-47]
Probing $L_\mu-L_\tau$ models with CE$\nu$NS: A new look at the combined COHERENT CsI and Ar data, Heerak Banerjee, Bhaskar Dutta, Sourov Roy, Phys.Rev.D 104 (2021) 015015, arXiv:2103.10196.
[Banerjee:2021laz]
[25-48]
Sailing the CE$\nu$NS Seas of Non-Standard Neutrino Interactions with the Coherent CAPTAIN Mills Experiment, Ian M. Shoemaker, Eli Welch, arXiv:2103.08401, 2021.
[Shoemaker:2021hvm]
[25-49]
Resolving the LMA-dark NSI degeneracy with coherent neutrino-nucleus scattering, Mariano Esteves Chaves, Thomas Schwetz, JHEP 2105 (2021) 042, arXiv:2102.11981.
[Chaves:2021pey]
[25-50]
Exploring the Origin of Supermassive Black Holes with Coherent Neutrino Scattering, Victor Munoz, Volodymyr Takhistov, Samuel J. Witte, George M. Fuller, JCAP 11 (2021) 020, arXiv:2102.00885.
[Munoz:2021sad]
[25-51]
Physics reach of a low threshold scintillating argon bubble chamber in coherent elastic neutrino-nucleus scattering reactor experiments, L. J. Flores et al., Phys.Rev. D103 (2021) L091301, arXiv:2101.08785.
[SBC:2021yal]
[25-52]
Flavor-dependent radiative corrections in coherent elastic neutrino-nucleus scattering, Oleksandr Tomalak, Pedro Machado, Vishvas Pandey, Ryan Plestid, JHEP 2102 (2021) 097, arXiv:2011.05960.
[Tomalak:2020zfh]
[25-53]
Astrophysical constraints on non-standard coherent neutrino-nucleus scattering, Anna M. Suliga, Irene Tamborra, Phys.Rev. D103 (2021) 083002, arXiv:2010.14545.
[Suliga:2020jfa]
[25-54]
Searching signature of neutrino-nucleus coherent scattering with Mossbauer Spectroscopy, C. Marques, G. S. Dias, H. S. Chavez, S. B. Duarte, arXiv:2010.11299, 2020.
[Marques:2020sal]
[25-55]
Studies of Quantum-Mechanical Coherency Effects in Neutrino-Nucleus Elastic Scattering, V. Sharma et al. (TEXONO), Phys.Rev. D103 (2021) 092002, arXiv:2010.06810.
[TEXONO:2020vnv]
[25-56]
A Statistical Analysis of the COHERENT Data and Applications to New Physics, Peter B. Denton, Julia Gehrlein, JHEP 2104 (2021) 266, arXiv:2008.06062.
[Denton:2020hop]
[25-57]
Constraints on light vector mediators through coherent elastic neutrino nucleus scattering data from COHERENT, M. Cadeddu, N. Cargioli, F. Dordei, C. Giunti, Y.F. Li, E. Picciau, Y.Y. Zhang, JHEP 2101 (2021) 116, arXiv:2008.05022.
[Cadeddu:2020nbr]
[25-58]
Electroweak Constraints from the COHERENT Experiment, Witold Skiba, Qing Xia, JHEP 10 (2022) 102, arXiv:2007.15688.
[Skiba:2020msb]
[25-59]
Coherent elastic neutrino-nucleus scattering: EFT analysis and nuclear responses, Martin Hoferichter, Javier Menendez, Achim Schwenk, Phys.Rev. D102 (2020) 074018, arXiv:2007.08529.
[Hoferichter:2020osn]
[25-60]
Nuclear Structure Physics in Coherent Elastic Neutrino-Nucleus Scattering, N. Van Dessel, V. Pandey, H. Ray, N. Jachowicz, Universe 9 (2023) 207, arXiv:2007.03658.
[VanDessel:2020epd]
[25-61]
Determining the nuclear neutron distribution from Coherent Elastic neutrino-Nucleus Scattering: current results and future prospects, Pilar Coloma, Ivan Esteban, M.C. Gonzalez-Garcia, Javier Menendez, JHEP 2008 (2020) 030, arXiv:2006.08624.
[Coloma:2020nhf]
[25-62]
Dark Matter-Neutrino Interconversion at COHERENT, Direct Detection, and the Early Universe, Nicholas Hurtado, Hana Mir, Ian M. Shoemaker, Eli Welch, Jason Wyenberg, Phys.Rev. D102 (2020) 015006, arXiv:2005.13384.
[Hurtado:2020vlj]
[25-63]
Supernovae neutrino detection via coherent scattering off silicon nuclei, Ana Luisa Foguel, Eduardo Souza Fraga, Carla Bonifazi, Astropart.Phys. 127 (2021) 102534, arXiv:2005.13068.
[Foguel:2020fjx]
[25-64]
Reactor neutrino applications and coherent elastic neutrino nucleus scattering, Maitland Bowen, Patrick Huber, Phys.Rev. D102 (2020) 053008, arXiv:2005.10907.
[Bowen:2020unj]
[25-65]
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.
[Cadeddu:2020lky]
[25-66]
Generic neutrino interactions with sterile neutrinos in light of neutrino-nucleus coherent scattering and meson invisible decays, Tong Li, Xiao-Dong Ma, Michael A. Schmidt, JHEP 2007 (2020) 152, arXiv:2005.01543.
[Li:2020lba]
[25-67]
Implications of the first detection of coherent elastic neutrino-nucleus scattering (CEvNS) with Liquid Argon, O. G. Miranda, D. K. Papoulias, G. Sanchez Garcia, O. Sanders, M. Tortola, J. W. F. Valle, JHEP 2005 (2020) 130, arXiv:2003.12050.
[Miranda:2020tif]
[25-68]
Coherent Elastic Neutrino-Nucleus Scattering with directional detectors, M. Abdullah, D. Aristizabal Sierra, Bhaskar Dutta, Louis E. Strigari, Phys.Rev. D102 (2020) 015009, arXiv:2003.11510.
[Abdullah:2020iiv]
[25-69]
Non-standard neutrino interactions in U(1)' model after COHERENT data, L. J. Flores, Newton Nath, Eduardo Peinado, JHEP 06 (2020) 045, arXiv:2002.12342.
[Flores:2020lji]
[25-70]
Constraints on light singlet fermion interactions from coherent elastic neutrino-nucleus scattering, We-Fu Chang, Jiajun Liao, Phys.Rev. D102 (2020) 075004, arXiv:2002.10275.
[Chang:2020jwl]
[25-71]
Study of the ionization efficiency for nuclear recoils in pure crystals, Youssef Sarkis, Alexis Aguilar-Arevalo, Juan Carlos D'Olivo, Phys. Rev. D 101 (2020) 102001, arXiv:2001.06503.
[Sarkis:2020soy]
[25-72]
Nuclear structure uncertainties in coherent elastic neutrino-nucleus scattering, G. Co', M. Anguiano, A. M. Lallena, JCAP 04 (2020) 044, arXiv:2001.04684.
[Co:2020gwl]
[25-73]
The interplay between non-standard and nuclear constraints in coherent elastic neutrino-nucleus scattering experiments, B. C. Canas, E. A. Garces, O. G. Miranda, A. Parada, G. Sanchez Garcia, Phys.Rev. D101 (2020) 035012, arXiv:1911.09831.
[Canas:2019fjw]
[25-74]
Improved global fit to Non-Standard neutrino Interactions using COHERENT energy and timing data, Pilar Coloma, Ivan Esteban, M. C. Gonzalez-Garcia, Michele Maltoni, JHEP 2002 (2020) 023, arXiv:1911.09109.
[Coloma:2019mbs]
[25-75]
Coherent elastic neutrino-nucleus scattering in multi-ton scale dark matter experiments: Classification of vector and scalar interactions new physics signals, D. Aristizabal Sierra, Bhaskar Dutta, Shu Liao, Louis E. Strigari, JHEP 1912 (2019) 124, arXiv:1910.12437.
[AristizabalSierra:2019ykk]
[25-76]
Nonstandard neutrino interactions at COHERENT, DUNE, T2HK and LHC, Tao Han, Jiajun Liao, Hongkai Liu, Danny Marfatia, JHEP 1911 (2019) 028, arXiv:1910.03272.
[Han:2019zkz]
[25-77]
General COHERENT Constraints on Neutrino Non-Standard Interactions, C. Giunti, Phys.Rev. D101 (2020) 035039, arXiv:1909.00466.
[Giunti:2019xpr]
[25-78]
Coherent elastic neutrino-nucleus scattering on 40Ar from first principles, C. G. Payne, S. Bacca, G. Hagen, W. Jiang, T. Papenbrock, Phys.Rev. C100 (2019) 061304, arXiv:1908.09739.
[Payne:2019wvy]
[25-79]
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.
[Cadeddu:2019eta]
[25-80]
New physics from COHERENT data with an improved quenching factor, Amir N. Khan, Werner Rodejohann, Phys. Rev. D 100 (2019) 113003, arXiv:1907.12444.
[Khan:2019cvi]
[25-81]
COHERENT constraints after the Chicago-3 quenching factor measurement, Dimitrios K. Papoulias, Phys.Rev. D102 (2020) 113004, arXiv:1907.11644.
[Papoulias:2019txv]
[25-82]
Potentialities of a low-energy detector based on $^4$He evaporation to observe atomic effects in coherent neutrino scattering and physics perspectives, M. Cadeddu, F. Dordei, C. Giunti, K. A. Kouzakov, E. Picciau, A. I. Studenikin, Phys.Rev. D100 (2019) 073014, arXiv:1907.03302.
[Cadeddu:2019qmv]
[25-83]
CP violating effects in coherent elastic neutrino-nucleus scattering processes, D. Aristizabal Sierra, V. De Romeri, N. Rojas, JHEP 1909 (2019) 069, arXiv:1906.01156.
[AristizabalSierra:2019ufd]
[25-84]
Coherent elastic nuclear scattering of $^{51}$Cr neutrinos, C. Bellenghi, D. Chiesa, L. Di Noto, M. Pallavicini, E. Previtali, M. Vignati, Eur.Phys.J. C79 (2019) 727, arXiv:1905.10611.
[Bellenghi:2019vtc]
[25-85]
Probing neutrino transition magnetic moments with coherent elastic neutrino-nucleus scattering, O.G. Miranda, D.K. Papoulias, M. Tortola, J. W. F. Valle, JHEP 1907 (2019) 103, arXiv:1905.03750.
[Miranda:2019wdy]
[25-86]
The Migdal Effect and Photon Bremsstrahlung in effective field theories of dark matter direct detection and coherent elastic neutrino-nucleus scattering, Nicole F. Bell, James B. Dent, Jayden L. Newstead, Subir Sabharwal, Thomas J. Weiler, Phys.Rev. D101 (2020) 015012, arXiv:1905.00046.
[Bell:2019egg]
[25-87]
On coherent neutrino and antineutrino scattering off nuclei, Vadim A. Bednyakov, Dmitry V. Naumov, Phys.Part.Nucl.Lett. 16 (2019) 638-646, arXiv:1904.03119.
[Bednyakov:2019dbl]
[25-88]
Searching for Beyond the Standard Model Physics with COHERENT Energy and Timing Data, Bhaskar Dutta, Shu Liao, Samiran Sinha, Louis E. Strigari, Phys.Rev.Lett. 123 (2019) 061801, arXiv:1903.10666.
[Dutta:2019eml]
[25-89]
Constraining nuclear physics parameters with current and future COHERENT data, D. K. Papoulias, T. S. Kosmas, R. Sahu, V. K. B. Kota, M. Hota, Phys.Lett. B800 (2020) 135133, arXiv:1903.03722.
[Papoulias:2019lfi]
[25-90]
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.
[Miranda:2019skf]
[25-91]
Neutron Skin in CsI and Low-Energy Effective Weak Mixing Angle from COHERENT Data, Xu-Run Huang, Lie-Wen Chen, Phys.Rev. D100 (2019) 071301, arXiv:1902.07625.
[Huang:2019ene]
[25-92]
Impact of form factor uncertainties on interpretations of coherent elastic neutrino-nucleus scattering data, D. Aristizabal Sierra, Jiajun Liao, D. Marfatia, JHEP 1906 (2019) 141, arXiv:1902.07398.
[AristizabalSierra:2019zmy]
[25-93]
Constraining Sterile Neutrino Interpretations of the LSND and MiniBooNE Anomalies with Coherent Neutrino Scattering Experiments, Carlos Blanco, Dan Hooper, Pedro Machado, Phys.Rev. D101 (2020) 075051, arXiv:1901.08094.
[Blanco:2019vyp]
[25-94]
Neutrino mass from bremsstrahlung endpoint in coherent scattering on nuclei, Alexander Millar, Georg Raffelt, Leo Stodolsky, Edoardo Vitagliano, Phys.Rev. D98 (2018) 123006, arXiv:1810.06584.
[Millar:2018hkv]
[25-95]
Neutrino Charge Radii from COHERENT Elastic Neutrino-Nucleus Scattering, M. Cadeddu, C. Giunti, K.A. Kouzakov, Y. F. Li, A.I. Studenikin, Y. Y. Zhang, Phys.Rev. D98 (2018) 113010, arXiv:1810.05606.
[Cadeddu:2018dux]
[25-96]
Producing a new Fermion in Coherent Elastic Neutrino-Nucleus Scattering: from Neutrino Mass to Dark Matter, Vedran Brdar, Werner Rodejohann, Xun-Jie Xu, JHEP 1812 (2018) 024, arXiv:1810.03626.
[Brdar:2018qqj]
[25-97]
Reinterpreting the weak mixing angle from atomic parity violation in view of the Cs neutron rms radius measurement from COHERENT, Matteo Cadeddu, Francesca Dordei, Phys.Rev. D99 (2019) 033010, arXiv:1808.10202.
[Cadeddu:2018izq]
[25-98]
Coherent scattering and macroscopic coherence: Implications for neutrino and dark matter detection, Evgeny Akhmedov, Giorgio Arcadi, Manfred Lindner, Stefan Vogl, JHEP 1810 (2018) 045, arXiv:1806.10962.
[Akhmedov:2018wlf]
[25-99]
COHERENT analysis of neutrino generalized interactions, D. Aristizabal Sierra, Valentina De Romeri, N. Rojas, Phys.Rev. D98 (2018) 075018, arXiv:1806.07424.
[AristizabalSierra:2018eqm]
[25-100]
Future perspectives for a weak mixing angle measurement in coherent elastic neutrino nucleus scattering experiments, B. C. Canas, E. A. Garces, O. G. Miranda, A. Parada, Phys.Lett. B784 (2018) 159-162, arXiv:1806.01310.
[Canas:2018rng]
[25-101]
A Plan to Rule out Large Non-Standard Neutrino Interactions After COHERENT Data, Peter B. Denton, Yasaman Farzan, Ian M. Shoemaker, JHEP 1807 (2018) 037, arXiv:1804.03660.
[Denton:2018xmq]
[25-102]
Coherent Elastic Neutrino Nucleus Scattering (CE$\nu$NS) as a probe of $Z'$ through kinetic and mass mixing effects, Mohammad Abdullah et al., Phys.Rev. D98 (2018) 015005, arXiv:1803.01224.
[Abdullah:2018ykz]
[25-103]
Probing neutrino coupling to a light scalar with coherent neutrino scattering, Yasaman Farzan, Manfred Lindner, Werner Rodejohann, Xun-Jie Xu, JHEP 1805 (2018) 066, arXiv:1802.05171.
[Farzan:2018gtr]
[25-104]
COHERENT constraints to conventional and exotic neutrino physics, D. K. Papoulias, T. S. Kosmas, Phys.Rev. D97 (2018) 033003, arXiv:1711.09773.
[Papoulias:2017qdn]
[25-105]
Accelerator and reactor complementarity in coherent neutrino scattering, James B. Dent et al., Phys.Rev. D97 (2018) 035009, arXiv:1711.03521.
[Dent:2017mpr]
[25-106]
Constraining Photon Portal Dark Matter with Texono and Coherent Data, Shao-Feng Ge, Ian M. Shoemaker, JHEP 11 (2018) 066, arXiv:1710.10889.
[Ge:2017mcq]
[25-107]
Average CsI neutron density distribution from COHERENT data, M. Cadeddu, C. Giunti, Y. F. Li, Y. Y. Zhang, Phys.Rev.Lett. 120 (2018) 072501, arXiv:1710.02730.
[Cadeddu:2017etk]
[25-108]
COHERENT constraints on nonstandard neutrino interactions, Jiajun Liao, Danny Marfatia, Phys.Lett. B775 (2017) 54-57, arXiv:1708.04255.
[Liao:2017uzy]
[25-109]
A COHERENT enlightenment of the neutrino Dark Side, Pilar Coloma, M. C. Gonzalez-Garcia, Michele Maltoni, Thomas Schwetz, Phys.Rev. D96 (2017) 115007, arXiv:1708.02899.
[Coloma:2017ncl]
[25-110]
A COHERENT Search Strategy for Beyond Standard Model Neutrino Interactions, Ian M. Shoemaker, Phys.Rev. D95 (2017) 115028, arXiv:1703.05774.
[Shoemaker:2017lzs]
[25-111]
Coherent Neutrino Scattering with Low Temperature Bolometers at Chooz Reactor Complex, J. Billard et al., J.Phys. G44 (2017) 105101, arXiv:1612.09035.
[Billard:2016giu]
[25-112]
Probing light mediators at ultra-low threshold energies with coherent elastic neutrino-nucleus scattering, James B. Dent et al., Phys.Rev. D96 (2017) 095007, arXiv:1612.06350.
[Dent:2016wcr]
[25-113]
Coherent Neutrino-Nucleus Scattering and new Neutrino Interactions, Manfred Lindner, Werner Rodejohann, Xun-Jie Xu, JHEP 1703 (2017) 097, arXiv:1612.04150.
[Lindner:2016wff]
[25-114]
Neutral Current Coherent Cross Sections - Implications on Gaseous Spherical TPC's for detecting SN and Earth neutrinos, J. D. Vergados, Y. Giomataris, Int.J.Mod.Phys. E26 (2017) 1740030, arXiv:1603.03966.
[Vergados:2016ueq]
[25-115]
Sensitivity to Z-prime and non-standard neutrino interactions from ultra-low threshold neutrino-nucleus coherent scattering, Bhaskar Dutta, Rupak Mahapatra, Louis E. Strigari, Joel W. Walker, Phys. Rev. D93 (2016) 013015, arXiv:1508.07981.
[Dutta:2015vwa]
[25-116]
Light new physics in coherent neutrino-nucleus scattering experiments, Patrick deNiverville, Maxim Pospelov, Adam Ritz, Phys. Rev. D92 (2015) 095005, arXiv:1505.07805.
[deNiverville:2015mwa]
[25-117]
Impact of Coherent Neutrino Nucleus Scattering on Direct Dark Matter Searches based on CaWO$_4$ Crystals, A. Gutlein et al., Astropart.Phys. 69 (2015) 44-49, arXiv:1408.2357.
[Gutlein:2014gma]
[25-118]
Coherent neutrino-nucleus scattering detection with a CsI[Na] scintillator at the SNS spallation source, J.I. Collar et al., Nucl.Instrum.Meth. A773 (2014) 56, arXiv:1407.7524.
[Collar:2014lya]
[25-119]
Neutrino-nucleus coherent scattering as a probe of neutron density distributions, Kelly Patton, Jonathan Engel, Gail C. McLaughlin, Nicolas Schunck, Phys. Rev. C86 (2012) 024612, arXiv:1207.0693.
[Patton:2012jr]
[25-120]
Coherent scattering of neutral-current neutrinos as a probe for supernova detection, P. C. Divari, S. Galanopoulos, G. A. Souliotis, J. Phys. G39 (2012) 095204.
[Divari:2012cj]
[25-121]
Coherent and incoherent neutral current scattering for supernova detection, P. C. Divari, Adv. High Energy Phys. 2012 (2012) 379460.
[Divari:2012zz]
[25-122]
Sterile Neutrinos, Coherent Scattering and Oscillometry Measurements with Low-temperature Bolometers, Joseph A. Formaggio, E. Figueroa-Feliciano, A. J. Anderson, Phys. Rev. D85 (2012) 013009, arXiv:1107.3512.
[Formaggio:2011jt]
[25-123]
Coherent Neutrino Scattering in Dark Matter Detectors, A.J. Anderson, J.M. Conrad, E. Figueroa-Feliciano, K. Scholberg, J. Spitz, Phys. Rev. D84 (2011) 013008, arXiv:1103.4894.
[Anderson:2011bi]
[25-124]
Coherent Neutral Current Neutrino-Nucleus Scattering at a Spallation Source: A Valuable Experimental Probe, J. D. Vergados, F. T. Avignone, I. Giomataris, Phys. Rev. D79 (2009) 113001, arXiv:0902.1055.
[Vergados:2009ei]
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Neutron Form Factor from Neutrino-Nucleus Coherent Elastic Scattering, Philip S. Amanik, Gail C. McLaughlin, arXiv:0707.4191, 2007.
[Amanik:2007ce]
[25-126]
Prospects for measuring coherent neutrino-nucleus elastic scattering at a stopped-pion neutrino source, Kate Scholberg, Phys. Rev. D73 (2006) 033005, arXiv:hep-ex/0511042.
[Scholberg:2005qs]
[25-127]
Probing new physics with coherent neutrino scattering off nuclei, J. Barranco, O. G. Miranda, T. I. Rashba, JHEP 0512 (2005) 021, arXiv:hep-ph/0508299.
[Barranco:2005yy]
[25-128]
Nonuniform Neutron-Rich Matter and Coherent Neutrino Scattering, C. J. Horowitz, M. A. Perez-Garcia, J. Carriere, D. K. Berry, J. Piekarewicz, Phys. Rev. C70 (2004) 065806, arXiv:astro-ph/0409296.
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Atomic Effects in Coherent Neutrino Scattering, L. M. Sehgal, M. Wanninger, Phys. Lett. B171 (1986) 107-112.
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Differences in the Coherent Interactions of $\nu_e$, $\nu_\mu$ and $\nu_\tau$, L. M. Sehgal, Phys. Lett. 162B (1985) 370-372.
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Principles and Applications of a Neutral Current Detector for Neutrino Physics and Astronomy, A. Drukier, Leo Stodolsky, Phys. Rev. D30 (1984) 2295.
[Drukier:1984vhf]
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Coherent neutrino nucleus scattering as a probe of the weak neutral current, Daniel Z. Freedman, Phys. Rev. D9 (1974) 1389-1392.
[Freedman:1973yd]

26 - Phenomenology - Non-Standard Interactions

[26-1]
Exploring the sensitivity to non-standard and generalized neutrino interactions through coherent elastic neutrino-nucleus scattering with a NaI detector, Sabya Sachi Chatterjee, Stephane Lavignac, O. G. Miranda, G. Sanchez Garcia, arXiv:2402.16953, 2024.
[Chatterjee:2024vkd]
[26-2]
NSI effects on tripartite entanglement in neutrino oscillations, Lekhashri Konwar, Bhavna Yadav, arXiv:2402.09952, 2024.
[Konwar:2024nrd]
[26-3]
Unleashing the Power of EFT in Neutrino-Nucleus Scattering, Joachim Kopp, Noemi Rocco, Zahra Tabrizi, arXiv:2401.07902, 2024.
[Kopp:2024yvh]
[26-4]
Violation of LGtI inequalities in the light of NO$\nu$A and T2K anomaly, Lekhashri Konwar, Juhi Vardani, Bhavna Yadav, arXiv:2401.02886, 2024.
[Konwar:2024nwc]
[26-5]
Non-standard neutrino interactions mediated by a light scalar at DUNE, Bhaskar Dutta, Sumit Ghosh, Kevin J. Kelly, Tianjun Li, Adrian Thompson, Ankur Verma, arXiv:2401.02107, 2024.
[Dutta:2024hqq]
[26-6]
Searching for Axial Neutral Current Non-Standard Interactions of neutrinos by DUNE-like experiments, Saeed Abbaslu, Mehran Dehpour, Yasaman Farzan, Sahar Safari, arXiv:2312.12420, 2023.
[Abbaslu:2023vqk]
[26-7]
Probing nuclear properties and neutrino physics with current and future CEvNS experiments, R. R. Rossi, G. Sanchez Garcia, M. Tortola, arXiv:2311.17168, 2023.
[Rossi:2023brv]
[26-8]
Alleviating the present tension between T2K and NOvA with neutrino New Physics at source, Adriano Cherchiglia, Pedro Pasquini, O. L. G. Peres, F. F. Rodrigues, R. R. Rossi, E. S. Souza, arXiv:2310.18401, 2023.
[Cherchiglia:2023ojf]
[26-9]
Study of non-standard interaction mediated by a scalar field at ESSnuSB experiment, J. Aguilar et al. (ESSnuSB), arXiv:2310.10749, 2023.
[ESSnuSB:2023lbg]
[26-10]
Impact of scalar NSI on the neutrino mass hierarchy sensitivity at DUNE, T2HK and T2HKK, Arnab Sarker, Abinash Medhi, Dharitree Bezboruah, Moon Moon Devi, Debajyoti Dutta, arXiv:2309.12249, 2023.
[Sarker:2023qzp]
[26-11]
Shedding light on neutrino self-interactions with solar antineutrino searches, Quan-feng Wu, Xun-Jie Xu, JCAP 02 (2024) 037, arXiv:2308.15849.
[Wu:2023twu]
[26-12]
Muonic Force and Neutrino Non-Standard Interactions at Muon Colliders, Sudip Jana, Sophie Klett, arXiv:2308.07375, 2023.
[Jana:2023ogd]
[26-13]
Hunting Nonstandard Neutrino Interactions and Leptoquarks in Dark Matter Experiments, Thomas Schwemberger, Volodymyr Takhistov, Tien-Tien Yu, arXiv:2307.15736, 2023.
[Schwemberger:2023hee]
[26-14]
Scalar NSI: A unique tool for constraining absolute neutrino masses via $u$-oscillations, Abinash Medhi, Arnab Sarker, Moon Moon Devi, arXiv:2307.05348, 2023.
[Medhi:2023ebi]
[26-15]
Exploring Non-Standard Quark Interactions through Solar Neutrino Studies, Ilidio Lopes, Phys.Rev.D 108 (2023) 035028, arXiv:2307.04557.
[Lopes:2023stx]
[26-16]
Probing Dual NSI and CP Violation in DUNE and T2HK, Barnali Brahma, Anjan Giri, arXiv:2306.05258, 2023.
[Brahma:2023pxj]
[26-17]
Probing Non-Standard Neutrino Interactions with Interference: Insights from Dark Matter and Neutrino Experiments, Jong-Chul Park, Gaurav Tomar, JCAP 08 (2023) 025, arXiv:2305.10836.
[Park:2023hsp]
[26-18]
Global constraints on non-standard neutrino interactions with quarks and electrons, Pilar Coloma, M. C. Gonzalez-Garcia, Michele Maltoni, Joao Paulo Pinheiro, Salvador Urrea, JHEP 08 (2023) 032, arXiv:2305.07698.
[Coloma:2023ixt]
[26-19]
Future leptonic CP phase determination in the presence of NSI, Luis A. Delgadillo, O. G. Miranda, Phys.Rev.D 108 (2023) 095024, arXiv:2304.05545.
[Delgadillo:2023lyp]
[26-20]
Testing generalized neutrino interactions with PTOLEMY, Indra Kumar Banerjee, Ujjal Kumar Dey, Newton Nath, Saadat Salman Shariff, arXiv:2304.02505, 2023.
[Banerjee:2023lrk]
[26-21]
Probing generalized neutrino interactions with DUNE Near Detector, Pantelis Melas, Dimitrios K. Papoulias, Niki Saoulidou, JHEP 07 (2023) 190, arXiv:2303.07094.
[Melas:2023olz]
[26-22]
A direct detection view of the neutrino NSI landscape, Dorian W. P. Amaral, David Cerdeno, Andrew Cheek, Patrick Foldenauer, JHEP 07 (2023) 071, arXiv:2302.12846.
[Amaral:2023tbs]
[26-23]
Discernible NSI Effects in Long-Baseline Neutrino Experiments, Barnali Brahma, Anjan Giri, arXiv:2302.09592, 2023.
[Brahma:2023wlf]
[26-24]
Improved sensitivities of ESS$\nu$SB from a two-detector fit, F. Capozzi, C. Giunti, C. A. Ternes, JHEP 04 (2023) 130, arXiv:2302.07154.
[Capozzi:2023ltl]
[26-25]
Constraining the parameter space of the super-weak extension of the standard model by limits on non-standard interactions and vice versa, Timo J. Karkkainen, Zoltan Trocsanyi, Phys.Rev.D 107 (2023) 115020, arXiv:2301.06621.
[Karkkainen:2023ozw]
[26-26]
Study of Scalar Non Standard Interaction at Protvino to Super-ORCA experiment, 2023.
[Singha:2023set]
[26-27]
Distinguishing Non-Standard Interaction and Lorentz Invariance Violation at Protvino to Super-ORCA experiment, Rudra Majhi, Dinesh Kumar Singha, Monojit Ghosh, Rukmani Mohanta, Phys.Rev.D 107 (2023) 075036, arXiv:2212.07244.
[Majhi:2022fed]
[26-28]
Neutrino Non-standard Interactions with arbitrary couplings to u and d quarks, Nicolas Bernal, Yasaman Farzan, Phys.Rev.D 107 (2023) 035007, arXiv:2211.15686.
[Bernal:2022qba]
[26-29]
Physics implications of a combined analysis of COHERENT CsI and LAr data, V. De Romeri, O. G. Miranda, D. K. Papoulias, G. Sanchez Garcia, M. Tortola, J. W. F. Valle, JHEP 04 (2023) 035, arXiv:2211.11905.
[DeRomeri:2022twg]
[26-30]
How to Identify Different New Neutrino Oscillation Physics Scenarios at DUNE, Peter B. Denton, Alessio Giarnetti, Davide Meloni, JHEP 02 (2023) 210, arXiv:2210.00109.
[Denton:2022pxt]
[26-31]
Non-standard neutrino interactions in light mediator models at reactor experiments, Bhaskar Dutta, Sumit Ghosh, Tianjun Li, Adrian Thompson, Ankur Verma, JHEP 03 (2023) 163, arXiv:2209.13566.
[Dutta:2022fdt]
[26-32]
Effect of non-unitary neutrino mixing in Lorentz violation and dark NSI, Trisha Sarkar, arXiv:2209.10233, 2022.
[Sarkar:2022ujy]
[26-33]
Probing the non-standard neutrino interactions using quantum statistics, C. S. Kim, Janusz Rosiek, Dibyakrupa Sahoo, Eur.Phys.J.C 83 (2023) 221, arXiv:2209.10110.
[Kim:2022xjg]
[26-34]
New constraints on the dark matter-neutrino and dark matter-photon scattering cross sections from TXS 0506+056, Francesc Ferrer, Gonzalo Herrera, Alejandro Ibarra, JCAP 05 (2023) 057, arXiv:2209.06339.
[Ferrer:2022kei]
[26-35]
Imprints of scalar NSI on the CP-violation sensitivity using synergy among DUNE, T2HK and T2HKK, Abinash Medhi, Moon Moon Devi, Debajyoti Dutta, JHEP 01 (2023) 079, arXiv:2209.05287.
[Medhi:2022qmu]
[26-36]
Blazar constraints on neutrino-dark matter scattering, James M. Cline, Shan Gao, Fangyi Guo, Zhongan Lin, Shiyan Liu, Matteo Puel, Phillip Todd, Tianzhuo Xiao, Phys.Rev.Lett. 130 (2023) 091402, arXiv:2209.02713.
[Cline:2022qld]
[26-37]
Neutrino decay in the presence of NSI, Ashutosh Kumar Alok, Neetu Raj Singh Chundawat, Arindam Mandal, arXiv:2208.14881, 2022.
[Alok:2022jxo]
[26-38]
Physics implications of recent Dresden-II reactor data, Anirban Majumdar, Dimitrios K. Papoulias, Rahul Srivastava, Jose W. F. Valle, Phys.Rev.D 106 (2022) 093010, arXiv:2208.13262.
[Majumdar:2022nby]
[26-39]
Implications of Recent KATRIN Results for Lower-Limits on Neutrino Masses, Ephraim Fischbach, Dennis E. Krause, Quan Le Thien, Carol Scarlett, arXiv:2208.03790, 2022.
[Fischbach:2022pxx]
[26-40]
Searching for the charged-current non-standard neutrino interactions at the $e^{-}p$ colliders, Chongxing Yue, Xuejia Cheng, Yueqi Wang, Yanyu Li, Nucl. Phys. B 982 (2022) 115894, arXiv:2207.06573.
[Yue:2022eac]
[26-41]
The Atacama Cosmology Telescope: The Persistence of Neutrino Self-Interaction in Cosmological Measurements, Christina D. Kreisch et al., Phys.Rev.D 109 (2024) 043501, arXiv:2207.03164.
[Kreisch:2022zxp]
[26-42]
Towards Powerful Probes of Neutrino Self-Interactions in Supernovae, Po-Wen Chang, Ivan Esteban, John F. Beacom, Todd A. Thompson, Christopher M. Hirata, Phys.Rev.Lett. 131 (2023) 071002, arXiv:2206.12426.
[Chang:2022aas]
[26-43]
Probing non-standard neutrino interactions with a light boson from next galactic and diffuse supernova neutrinos, Kensuke Akita, Sang Hui Im, Mehedi Masud, JHEP 12 (2022) 050, arXiv:2206.06852.
[Akita:2022etk]
[26-44]
Neutrino physics and non-standard interactions, Vicente Pleitez, arXiv:2206.04595, 2022.
[Pleitez:2022ido]
[26-45]
Non-Standard Interaction of atmospheric neutrino in future experiments, Pouya Bakhti, Meshkat Rajaee, Seodong Shin, Phys.Rev.D 106 (2022) 115029, arXiv:2206.02594.
[Bakhti:2022axo]
[26-46]
Core-passing atmospheric neutrinos: a unique probe to discriminate between Lorentz violation and non-standard interactions, Sadashiv Sahoo, Anil Kumar, Sanjib Kumar Agarwalla, Amol Dighe, arXiv:2205.05134, 2022.
[Sahoo:2022rns]
[26-47]
Vector leptoquark $U_3$ and CP violation at T2K, NOvA experiments, Rudra Majhi, Dinesh Kumar Singha, K. N. Deepthi, Rukmani Mohanta, Eur.Phys.J.C 82 (2022) 919, arXiv:2205.04269.
[Majhi:2022wyp]
[26-48]
New reactor data improves robustness of neutrino mass ordering determination, Peter B. Denton, Julia Gehrlein, Phys.Rev.D 106 (2022) 015022, arXiv:2204.09060.
[Denton:2022nol]
[26-49]
Constraining New Physics with Borexino Phase-II spectral data, Pilar Coloma, M.C. Gonzalez-Garcia, Michele Maltoni, Joao Paulo Pinheiro, Salvador Urrea, JHEP 07 (2022) 138, arXiv:2204.03011.
[Coloma:2022umy]
[26-50]
Probing light mediators and $(g - 2)_{\mu}$ through detection of coherent elastic neutrino nucleus scattering at COHERENT, M. Atzori Corona, M. Cadeddu, N. Cargioli, F. Dordei, C. Giunti, Y. F. Li, E. Picciau, C. A. Ternes, Y. Y. Zhang, JHEP 05 (2022) 109, arXiv:2202.11002.
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Tensorial NSI and Unparticle physics in neutrino-electron scattering, J. Barranco, A. Bolanos, E. A. Garces, O. G. Miranda, T. I. Rashba, Int. J. Mod. Phys. A27 (2012) 1250147, arXiv:1108.1220.
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Lepton flavor violation and non-unitary lepton mixing in low-scale type-I seesaw, D. V. Forero, S. Morisi, M. Tortola, J. W. F. Valle, JHEP 09 (2011) 142, arXiv:1107.6009.
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Non-Standard Interactions at a Neutrino Factory: Correlations and CP violation, P. Coloma, A. Donini, J. Lopez-Pavon, H. Minakata, JHEP 08 (2011) 036, arXiv:1105.5936.
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Non-standard antineutrino interactions at Daya Bay, Rupert Leitner, Michal Malinsky, Bedrich Roskovec, He Zhang, JHEP 12 (2011) 001, arXiv:1105.5580.
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Constraints on neutrino interactions using cosmological observations, Tristan L. Smith, Sudeep Das, Oliver Zahn, Phys. Rev. D85 (2012) 023001, arXiv:1105.3246.
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Global constraints on muon-neutrino non-standard interactions, F. J. Escrihuela, O. G. Miranda, M. Tortola, J. W. F. Valle, Phys. Rev. D83 (2011) 093002, arXiv:1103.1366.
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Absolute values of nonstandard interaction parameters in $\nu_{e}$-$e$ and $\bar\nu_{e}$-$e$ scatterings, Amir Nawaz Khan, Farida Tahir, arXiv:1102.1869, 2011.
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Polarized Muon Decay at Rest with V+A Interaction, W. Sobkow, S. Ciechanowicz, M. Misiaszek, Eur.Phys.J. C74 (2014) 2997, arXiv:1102.1331.
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Hint of non-standard MSW dynamics in solar neutrino conversion, Antonio Palazzo, Phys. Rev. D83 (2011) 101701, arXiv:1101.3875.
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Nonstandard interactions and interference effect in low-energy $\nu_{e}$-$e$ scattering process, Amir Nawaz Khan, Farida Tahir, arXiv:1101.3191, 2011.
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Constraining nonstandard neutrino interactions with electrons, D. V. Forero, M. M. Guzzo, Phys. Rev. D84 (2011) 013002.
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Non-Standard Neutrino Interactions at One Loop, Brando Bellazzini, Yuval Grossman, Itay Nachshon, Paride Paradisi, JHEP 06 (2011) 104, arXiv:1012.3759.
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Interpretation of MINOS data in terms of non-standard neutrino interactions, Joachim Kopp, Pedro A. N. Machado, Stephen J. Parke, Phys. Rev. D82 (2010) 113002, arXiv:1009.0014.
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MiniBooNE and LSND data: non-standard neutrino interactions in a (3+1) scheme versus (3+2) oscillations, Evgeny Akhmedov, Thomas Schwetz, JHEP 10 (2010) 115, arXiv:1007.4171.
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Improving LMA predictions with non-standard interactions: neutrino decay in solar matter?, C.R. Das, Joao Pulido, Phys. Rev. D83 (2011) 053009, arXiv:1007.2167.
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Apparent multiple Delta m^2_32 in muon anti-neutrino and muon neutrino survival oscillations from non-standard interaction matter effect, W. Anthony Mann, Daniel Cherdack, Wojciech Musial, Tomas Kafka, Phys. Rev. D82 (2010) 113010, arXiv:1006.5720.
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Magic baseline and magic energy in neutrino oscillation with non-standard interactions, Zini Rahman, Rathin Adhikari, arXiv:1004.0984, 2010.
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Improving LMA predictions with non standard interactions, C.R. Das, Joao Pulido, arXiv:1003.5904, 2010.
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Sensitivity of T2KK to the non-standard interaction in propagation, Haruna Oki, Osamu Yasuda, Phys. Rev. D82 (2010) 073009, arXiv:1003.5554.
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Non-standard interactions versus non-unitary lepton flavor mixing at a neutrino factory, Davide Meloni, Tommy Ohlsson, Walter Winter, He Zhang, JHEP 04 (2010) 041, arXiv:0912.2735.
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Interplay between collective effects and non-standard neutrino interactions of supernova neutrinos, A. Esteban-Pretel, R. Tomas, J. W. F. Valle, Phys. Rev. D81 (2010) 063003, arXiv:0909.2196.
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Confusing non-zero $\theta_{13}$ with non-standard interactions in the solar neutrino sector, A. Palazzo, J. W. F. Valle, Phys. Rev. D80 (2009) 091301, arXiv:0909.1535.
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Non-standard neutrino interactions in the Zee-Babu model, Tommy Ohlsson, Thomas Schwetz, He Zhang, Phys. Lett. B681 (2009) 269-275, arXiv:0909.0455.
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Constraining nonstandard neutrino-quark interactions with solar, reactor and accelerator data, F. J. Escrihuela, O. G. Miranda, M. A. Tortola, J. W. F. Valle, Phys. Rev. D80 (2009) 105009, arXiv:0907.2630.
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General bounds on non-standard neutrino interactions, Carla Biggio, Mattias Blennow, Enrique Fernandez-Martinez, JHEP 08 (2009) 090, arXiv:0907.0097.
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[26-303]
Resolving CP Violation by Standard and Nonstandard Interactions and Parameter Degeneracy in Neutrino Oscillations, A. M. Gago, H. Minakata, H. Nunokawa, S. Uchinami, R. Zukanovich Funchal, JHEP 01 (2010) 049, arXiv:0904.3360.
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Loop bounds on non-standard neutrino interactions, Carla Biggio, Mattias Blennow, Enrique Fernandez-Martinez, JHEP 03 (2009) 139, arXiv:0902.0607.
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Non-standard interaction effects on astrophysical neutrino fluxes, Mattias Blennow, Davide Meloni, Phys. Rev. D80 (2009) 065009, arXiv:0901.2110.
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Probing non-standard neutrino-electron interactions with solar and reactor neutrinos, A. Bolanos, O. G. Miranda, A. Palazzo, M. A. Tortola, J. W. F. Valle, Phys. Rev. D79 (2009) 113012, arXiv:0812.4417.
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[26-307]
Probe of anomalous neutrino couplings to W and Z in medium energy setup of a beta-beam facility, A.B. Balantekin, I. Sahin, B. Sahin, JHEP 0905 (2009) 005, arXiv:0812.1722.
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Non-Standard Neutrino Interactions from a Triplet Seesaw Model, Michal Malinsky, Tommy Ohlsson, He Zhang, Phys. Rev. D79 (2009) 011301, arXiv:0811.3346.
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Approximative two-flavor framework for neutrino oscillations with non-standard interactions, Mattias Blennow, Tommy Ohlsson, Phys. Rev. D78 (2008) 093002, arXiv:0805.2301.
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[26-310]
Non-standard interactions using the OPERA experiment, Mattias Blennow, Davide Meloni, Tommy Ohlsson, Francesco Terranova, Mattias Westerberg, Eur. Phys. J. C56 (2008) 529-536, arXiv:0804.2744.
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Can OPERA help in constraining neutrino non-standard interactions?, Andreu Esteban-Pretel, Patrick Huber, Jose W. F. Valle, Phys. Lett. B668 (2008) 197-201, arXiv:0803.1790.
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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.
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Constraining Non-Standard Neutrino-Electron Interactions, J. Barranco, O. G. Miranda, C. A. Moura, J. W. F. Valle, Phys. Rev. D77 (2008) 093014, arXiv:0711.0698.
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Probing Non-Standard Neutrino Interactions with Neutrino Factories, N. C. Ribeiro, H. Minakata, H. Nunokawa, S. Uchinami, R. Zukanovich Funchal, JHEP 12 (2007) 002, arXiv:0709.1980.
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Non-standard neutrino interactions in reactor and superbeam experiments, Joachim Kopp, Manfred Lindner, Toshihiko Ota, Joe Sato, Phys. Rev. D77 (2008) 013007, arXiv:0708.0152.
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Probing non-standard neutrino interactions with supernova neutrinos, A. Esteban-Pretel, R. Tomas, J. W. F. Valle, Phys. Rev. D76 (2007) 053001, arXiv:0704.0032.
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[26-317]
Non-standard neutrino interactions in $K^{+}\to\pi^{+}\nu\bar{\nu}$ and $D^{+}\to\pi^{+}\nu\bar{\nu}$ decays, Chuan-Hung Chen, Chao-Qiang Geng, Tzu-Chiang Yuan, Phys. Rev. D75 (2007) 077301, arXiv:hep-ph/0703196.
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Discovery reach for non-standard interactions in a neutrino factory, Joachim Kopp, Manfred Lindner, Toshihiko Ota, Phys. Rev. D76 (2007) 013001, arXiv:hep-ph/0702269.
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Prospects for Non-Standard Interactions at MiniBooNE, Loretta M. Johnson, R. Seton Williams, Laura F. Spencer, Burton J. DeWilde, arXiv:hep-ph/0610011, 2006.
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Constraining non-standard interactions in $\nu_e$ $e$ or $\bar{\nu}_e$ $e$ scattering, J. Barranco, O. G. Miranda, C. A. Moura, J. W. F. Valle, Phys. Rev. D73 (2006) 113001, arXiv:hep-ph/0512195.
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Are solar neutrino oscillations robust?, O. G. Miranda, M. A. Tortola, J. W. F. Valle, JHEP 10 (2006) 008, arXiv:hep-ph/0406280.
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Present and Future Bounds on Non-Standard Neutrino Interactions, S. Davidson, C. Pena-Garay, N. Rius, A. Santamaria, JHEP 0303 (2003) 011, arXiv:hep-ph/0302093.
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On distinguishing non-standard interactions from radiative corrections in neutrino electron scattering, K. Kumericki, I. Picek, J. Phys. G29 (2003) 2335-2342.
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Revisiting nonstandard interaction effects on supernova neutrino flavor oscillations, Gian Luigi Fogli, E. Lisi, A. Mirizzi, D. Montanino, Phys. Rev. D66 (2002) 013009, arXiv:hep-ph/0202269.
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Confusing non-standard neutrino interactions with oscillations at a neutrino factory, P. Huber, T. Schwetz, J. W. F. Valle, Phys. Rev. D66 (2002) 013006, arXiv:hep-ph/0202048.
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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.
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The flavor of neutrinos in muon decays at a neutrino factory and the LSND puzzle, Antonio Bueno, Mario Campanelli, Marco Laveder, Javier Rico, Andre Rubbia, JHEP 06 (2001) 032, arXiv:hep-ph/0010308.
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Tritium beta decay, neutrino mass matrices and interactions beyond the standard model, G. J. Stephenson, Jr., J. Terrance Goldman, B. H. J. McKellar, Phys. Rev. D62 (2000) 093013, arXiv:hep-ph/0006095.
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27 - Phenomenology - Non-Standard Interactions - Talks

[27-1]
Resolving the NO$\nu$A and T2K tension in the presence of Neutrino Non-Standard interactions, Sabya Sachi Chatterjee, Antonio Palazzo, PoS NuFact2021 (2022) 059, arXiv:2201.10412. 22nd International Workshop on Neutrinos from Accelerators (NuFact2021).
[Chatterjee:2022nia]
[27-2]
Searching for new physics through neutrino non-standard interactions, Yong Du, arXiv:2105.06191, 2021. BSM-2021.
[Du:2021nyb]
[27-3]
Probing NSI in Atmospheric Neutrino Experiments using Oscillation Dip and Valley, Anil Kumar, Amina Khatun, Sanjib Kumar Agarwalla, Amol Dighe, Springer Proc.Phys. 277 (2022) 525-529, arXiv:2104.06955. XXIV DAE-BRNS High Energy Physics Symposium 2020, NISER, Bhubaneswar, India, 14-18 December, 2020.
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[27-4]
Detecting CP Violation in the Presence of Non-Standard Neutrino Interactions, Jeffrey M. Hyde, arXiv:1809.11128, 2018. CIPANP2018.
[Hyde:2018juq]
[27-5]
Beyond Standard Neutrino Theory, Toshihiko Ota, PoS NuFact2017 (2018) 026, arXiv:1712.06784. 19th International Workshop on Neutrinos from Accelerators (NUFACT 2017).
[Ota:2017uae]
[27-6]
The T2HKK Experiment and Non-Standard Interaction, Monojit Ghosh, Osamu Yasuda, arXiv:1712.06707, 2017. 18th Lomonosov Conference on Elementary Particle Physics, Moscow State University, Moscow, Russia, 24-30 August, 2017.
[Ghosh:2017mcf]
[27-7]
Pursuit for optimal baseline for matter nonstandard interactions in long baseline neutrino oscillation experiments, Timo J. Karkkainen, arXiv:1710.01080, 2017. 18th Lomonosov Conference on Elementary Particle Physics.
[Karkkainen:2017svj]
[27-8]
Probing New Physics in Low Energy Solar Neutrino Oscillation Data, Amir N. Khan, Douglas W. McKay, arXiv:1709.09961, 2017. 6th CST-MISC Joint Symposium on Particle Physics - from Space-time Dynamics to Phenomenology -, Oct. 15-16, 2016, Campus Plaza Kyoto, Kyoto, Japan.
[Khan:2017bkm]
[27-9]
Viable models for large non-standard neutrino interactions, Yasaman Farzan, arXiv:1612.04971, 2016. 18th International Workshop on Neutrino Factories, Superbeams, Beta beams (NuFact 2016), August 21-27 2016, Quy Nhon, Vietnam.
[Farzan:2016fmy]
[27-10]
Sensitivity of atmospheric neutrino experiments to neutrino non-standard interactions, Shinya Fukasawa, arXiv:1609.07240, 2016. Neutrino 2016, XXVII International Conference on Neutrino Physics and Astrophysics, 4-9 July 2016, London, UK.
[Fukasawa:2016xeq]
[27-11]
Constraints on the flavor-dependent non-standard interaction in propagation from atmospheric neutrinos, Osamu Yasuda, J. Phys. Conf. Ser. 718 (2016) 062072, arXiv:1601.02369. TAUP2015, International Conference on Topics in Astroparticle and Underground Physics, 7-11 September 2015, Torino, Italy.
[Yasuda:2016svb]
[27-12]
Constraints on non-standard flavor-dependent interactions from Superkamiokande and Hyperkamiokande, Osamu Yasuda, PoS NUFACT2014 (2015) 045, arXiv:1502.01440. 16th International Workshop on Neutrino Factories and Future Neutrino Beam Facilities, 25-30 August, 2014. University of Glasgow, UK.
[Yasuda:2015lwa]
[27-13]
Search for Non-Standard Interactions by atmospheric neutrino, Shinya Fukasawa, arXiv:1405.4664, 2014. Rencontres de Moriond, EW session, 2014.
[Fukasawa:2014ota]
[27-14]
Tau neutrino as a probe of nonstandard interactions via charged Higgs and $W'$ contribution, Ahmed Rashed, Mod.Phys.Lett. A29 (2014) 1450040, arXiv:1309.3631. DPF 2013 Meeting of the American Physical Society Division of Particles and Fields, Santa Cruz, California, August 13-17, 2013.
[Rashed:2013aka]
[27-15]
Possible trace of neutrino nonstandard interactions in the supernova, C.R. Das, Joao Pulido, J. Phys. Conf. Ser. 375 (2012) 042040, arXiv:1111.6939. TAUP 2011, Munich, September 2011.
[Das:2011gb]
[27-16]
Non standard neutrino interactions at LEP2 and the LHC, Sacha Davidson, Veronica Sanz, J. Phys. Conf. Ser. 408 (2013) 012033, arXiv:1110.1558. NUFACT 11, XIIIth International Workshop on Neutrino Factories, Super beams and Beta beams, 1-6 August 2011, CERN and University of Geneva.
[Davidson:2011xz]
[27-17]
NSI can improve LMA predictions: neutrino decay in solar matter?, Joao Pulido, C.R. Das, Phys. Rev. D83 (2011) 053009, arXiv:1012.3842. NOW 2010, Neutrino Oscillation Workshop, Conca Specchiulla (Otranto, Lecce, Italy), September 4-11, 2010.
[Pulido:2010ht]
[27-18]
Some attempts to explain MINOS anomaly, Osamu Yasuda, AIP Conf. Proc. 1382 (2011) 103-105, arXiv:1012.3478. 12th International Workshop on Neutrino Factories, Superbeams and Beta Beams (NuFact10), October 20-25, 2010, Mumbai, India.
[Yasuda:2010aa]
[27-19]
New neutrino interactions at large colliders, Francisco del Aguila, Juan Antonio Aguilar-Saavedra, Jorge de Blas, PoS ICHEP2010 (2010) 296, arXiv:1012.1327. 35th International Conference of High Energy Physics - ICHEP2010, Paris, France, July 22-28, 2010.
[delAguila:2010uw]
[27-20]
Sensitivity of T2KK to non-standard interactions, Osamu Yasuda, Nucl. Phys. Proc. Suppl. 217 (2011) 220-222, arXiv:1011.6440. NOW 2010: Neutrino Oscillation Workshop, Conca Specchiulla (Otranto), Lecce, Italy, 4-11 Sep 2010.
[Yasuda:2010hw]
[27-21]
Summary report of MINSIS workshop in Madrid, Rodrigo Alonso et al., arXiv:1009.0476, 2010. MINSIS Workshop, 10-11 Dec 2009, Madrid.
[Alonso:2010wu]
[27-22]
Neutrino's Non-Standard Interactions; Another Eel under a Willow?, Hisakazu Minakata, arXiv:0905.1387, 2009. XIII International Workshop on Neutrino Telescopes, Istituto Veneto di Scienze, Lettere ed Arti, Venice, Italy, March 10-13, 2009.
[Minakata:2009gh]
[27-23]
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.
[Barranco:2008rc]
[27-24]
New interactions: past and future experiments, Michele Maltoni, J. Phys. Conf. Ser. 136 (2008) 022024, arXiv:0810.3517. Neutrino 08.
[Maltoni:2008mu]

28 - Phenomenology - Neutrino Self-Interactions

[28-1]
Uncovering Secret Neutrino Interactions at Tau Neutrino Experiments, Pouya Bakhti, Meshkat Rajaee, Seodong Shin, arXiv:2311.14945, 2023.
[Bakhti:2023mvo]
[28-2]
Boosting the production of sterile neutrino dark matter with self-interactions, Maria Dias Astros, Stefan Vogl, JHEP 03 (2024) 032, arXiv:2307.15565.
[Astros:2023xhe]
[28-3]
Supernova Emission of Secretly Interacting Neutrino Fluid: Theoretical Foundations, Damiano F. G. Fiorillo, Georg Raffelt, Edoardo Vitagliano, Phys.Rev.D 109 (2024) 023017, arXiv:2307.15122.
[Fiorillo:2023cas]
[28-4]
Large Neutrino Secret Interactions, Small Impact on Supernovae, Damiano F. G. Fiorillo, Georg Raffelt, Edoardo Vitagliano, Phys.Rev.Lett. 132 (2024) 021002, arXiv:2307.15115.
[Fiorillo:2023ytr]
[28-5]
Constraints on Neutrino Self-Interactions from IceCube Observation of NGC 1068, Jeffrey M. Hyde, arXiv:2307.02361, 2023.
[Hyde:2023eph]
[28-6]
Resonant neutrino self-interactions and the $H_0$ tension, Jorge Venzor, Gabriela Garcia-Arroyo, Abdel Perez-Lorenzana, Josue De-Santiago, Phys.Rev.D 108 (2023) 043536, arXiv:2303.12792.
[Venzor:2023aka]
[28-7]
Non-Standard Neutrino Self-Interactions Can Cause Neutrino Flavor Equipartition Inside the Supernova Core, Sajad Abbar, Phys.Rev.D 107 (2023) 103002, arXiv:2208.06023.
[Abbar:2022jdm]
[28-8]
Massive neutrino self-interactions with a light mediator in cosmology, Jorge Venzor, Gabriela Garcia-Arroyo, Abdel Perez-Lorenzana, Josue De-Santiago, Phys.Rev.D 105 (2022) 123539, arXiv:2202.09310.
[Venzor:2022hql]
[28-9]
Observable features in (ultra)high energy neutrinos due to active-sterile secret interactions, Damiano F. G. Fiorillo, Stefano Morisi, Gennaro Miele, Ninetta Saviano, Phys.Rev. D102 (2020) 083014, arXiv:2007.07866.
[Fiorillo:2020zzj]
[28-10]
Resonant Neutrino Self-Interactions, Cyril Creque-Sarbinowski, Jeffrey Hyde, Marc Kamionkowski, Phys.Rev. D103 (2021) 023527, arXiv:2005.05332.
[Creque-Sarbinowski:2020qhz]
[28-11]
Origin of Sterile Neutrino Dark Matter via Vector Secret Neutrino Interactions, Kevin J. Kelly, Manibrata Sen, Walter Tangarife, Yue Zhang, Phys.Rev. D101 (2020) 115031, arXiv:2005.03681.
[Kelly:2020pcy]
[28-12]
Bounds on secret neutrino interactions from high-energy astrophysical neutrinos, Mauricio Bustamante, Charlotte Amalie Rosenstroem, Shashank Shalgar, Irene Tamborra, Phys.Rev. D101 (2020) 123024, arXiv:2001.04994.
[Bustamante:2020mep]
[28-13]
Core-collapse supernovae stymie secret neutrino interactions, Shashank Shalgar, Irene Tamborra, Mauricio Bustamante, Phys.Rev. D103 (2021) 123008, arXiv:1912.09115.
[Shalgar:2019rqe]
[28-14]
Viable secret neutrino interactions with ultralight dark matter, James M. Cline, Phys.Lett. B802 (2020) 135182, arXiv:1908.02278.
[Cline:2019seo]
[28-15]
Secret interactions of neutrinos with light gauge boson at the DUNE near detector, Pouya Bakhti, Yasaman Farzan, Meshkat Rajaee, Phys.Rev. D99 (2019) 055019, arXiv:1810.04441.
[Bakhti:2018avv]
[28-16]
Inflation, (P)reheating and Neutrino Anomalies: Production of Sterile Neutrinos with Secret Interactions, Arnab Paul, Anish Ghoshal, Arindam Chatterjee, Supratik Pal, Eur.Phys.J. C79 (2019) 818, arXiv:1808.09706.
[Paul:2018njm]
[28-17]
Sterile Neutrinos with Secret Interactions - Cosmological Discord?, Xiaoyong Chu, Basudeb Dasgupta, Mona Dentler, Joachim Kopp, Ninetta Saviano, JCAP 1811 (2018) 049, arXiv:1806.10629.
[Chu:2018gxk]
[28-18]
Probing secret interactions of eV-scale sterile neutrinos with the diffuse supernova neutrino background, Yu Seon Jeong, Sergio Palomares-Ruiz, Mary Hall Reno, Ina Sarcevic, JCAP 1806 (2018) 019, arXiv:1803.04541.
[Jeong:2018yts]
[28-19]
Observational Constraints on Secret Neutrino Interactions from Big Bang Nucleosynthesis, Guo-yuan Huang, Tommy Ohlsson, Shun Zhou, Phys.Rev. D97 (2018) 075009, arXiv:1712.04792.
[Huang:2017egl]
[28-20]
Cosmic microwave background constraints on secret interactions among sterile neutrinos, Francesco Forastieri et al., JCAP 1707 (2017) 038, arXiv:1704.00626.
[Forastieri:2017oma]
[28-21]
Constraining secret gauge interactions of neutrinos by meson decays, Pouya Bakhti, Yasaman Farzan, Phys.Rev. D95 (2017) 095008, arXiv:1702.04187.
[Bakhti:2017jhm]
[28-22]
Neutrinos secretly converting to lighter particles to please both KATRIN and the cosmos, Yasaman Farzan, Steen Hannestad, JCAP 1602 (2016) 058, arXiv:1510.02201.
[Farzan:2015pca]
[28-23]
Secret Interactions of Sterile Neutrinos and MeV-scale gauge boson, Zahra Tabrizi, O. L. G. Peres, Phys. Rev. D93 (2016) 053003, arXiv:1507.06486.
[Tabrizi:2015bba]
[28-24]
Sterile Neutrinos with Secret Interactions - Lasting Friendship with Cosmology, Xiaoyong Chu, Basudeb Dasgupta, Joachim Kopp, JCAP 1510 (2015) 011, arXiv:1505.02795.
[Chu:2015ipa]
[28-25]
Constraints on secret neutrino interactions after Planck, Francesco Forastieri, Massimiliano Lattanzi, Paolo Natoli, JCAP 1507 (2015) 014, arXiv:1504.04999.
[Forastieri:2015paa]
[28-26]
Cosmic Neutrino Secret Interactions, Enhancement and Total Cross Section, Dante Carcamo, Ashok K. Das, Jorge Gamboa, Fernando Mendez, Alexios P. Polychronakos, Phys. Rev. D 91 (2015) 065028, arXiv:1410.8089.
[Carcamo:2014sya]
[28-27]
Tension between secret sterile neutrino interactions and cosmological neutrino mass bounds, Alessandro Mirizzi, Gianpiero Mangano, Ofelia Pisanti, Ninetta Saviano, Phys. Rev. D91 (2015) 025019, arXiv:1410.1385.
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Unveiling secret interactions among sterile neutrinos with big-bang nucleosynthesis, Ninetta Saviano, Ofelia Pisanti, Gianpiero Mangano, Alessandro Mirizzi, Phys. Rev. D90 (2014) 113009, arXiv:1409.1680.
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[28-29]
Cosmic neutrino cascades from secret neutrino interactions, Kenny C. Y. Ng, John F. Beacom, Phys. Rev. D90 (2014) 065035, arXiv:1404.2288.
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[28-30]
IceCube PeV-EeV Neutrinos and Secret Interactions of Neutrinos, Kunihto Ioka, Kohta Murase, PTEP 2014 (2014) 061E01, arXiv:1404.2279.
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How secret interactions can reconcile sterile neutrinos with cosmology, Steen Hannestad, Rasmus Sloth Hansen, Thomas Tram, Phys. Rev. Lett. 112 (2014) 031802, arXiv:1310.5926.
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29 - Phenomenology - Universality

[29-1]
Lepton universality violation in the MF331 model, P. N. Thu, N. T. Duy, A. E. Carcamo Hernandez, D. T. Huong, PTEP 2023 (2023) 123B01, arXiv:2304.03003.
[Thu:2023xai]
[29-2]
New Perspectives for Testing Electron-Muon Universality, Robert Fleischer, Eleftheria Malami, Anders Rehult, K. Keri Vos, JHEP 06 (2023) 033, arXiv:2303.08764.
[Fleischer:2023zeo]
[29-3]
Testing Lepton Flavor Universality at Future $Z$ Factories, Tin Seng Manfred Ho, Xu-Hui Jiang, Tsz Hong Kwok, Lingfeng Li, Tao Liu, arXiv:2212.02433, 2022.
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[29-4]
Interplay of dineutrino modes with semileptonic rare $\boldsymbol{B}$-decays, Rigo Bause, Hector Gisbert, Marcel Golz, Gudrun Hiller, JHEP 12 (2021) 061, arXiv:2109.01675.
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[29-5]
More Indications for Lepton Nonuniversality in $b \to s \ell^+ \ell^-$, T. Hurth, F. Mahmoudi, D. Martinez Santos, S. Neshatpour, Phys.Lett.B 824 (2022) 136838, arXiv:2104.10058.
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[29-6]
On the significance of new physics in $b\to s\ell^+\ell^-$ decays, Davide Lancierini, Gino Isidori, Patrick Owen, Nicola Serra, Phys.Lett.B 822 (2021) 136644, arXiv:2104.05631.
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[29-7]
On Lepton Flavor Universality in Top Quark Decays, Jernej F. Kamenik, Andrey Katz, Daniel Stolarski, JHEP 1901 (2019) 032, arXiv:1808.00964.
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[29-8]
Probing Lepton Flavour Universality with $K \to \pi\nu\bar\nu$ decays, Marzia Bordone, Dario Buttazzo, Gino Isidori, Joachim Monnard, Eur.Phys.J. C77 (2017) 618, arXiv:1705.10729.
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Lepton universality violation and lepton flavor conservation in $B$-meson decays, Rodrigo Alonso, Benjamin Grinstein, Jorge Martin Camalich, JHEP 10 (2015) 184, arXiv:1505.05164.
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[29-10]
Probing lepton non-universality in tau neutrino Scattering, Hongkai Liu, Ahmed Rashed, Alakabha Datta, Phys. Rev. D92 (2015) 073016, arXiv:1505.04594.
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Tests of flavor universality for neutrino-Z couplings in future neutrino experiments, A.B. Balantekin, I. Sahin, B. Sahin, Phys. Rev. D78 (2008) 073003, arXiv:0807.3385.
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30 - Phenomenology - Strangeness of the Nucleon

[30-1]
Global Fit of Electron and Neutrino Elastic Scattering Data to Determine the Strange Quark Contribution to the Vector and Axial Form Factors of the Nucleon, S. F. Pate, V. Papavassiliou, J. P. Schaub, D. P. Trujillo, M. V. Ivanov, M. B. Barbaro, C. Giusti, arXiv:2402.10854, 2024.
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[30-2]
Using supernova neutrinos to probe strange spin of proton with JUNO and THEIA, Bhavesh Chauhan, arXiv:2211.08443, 2022.
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[30-3]
The Strangest Proton?, Ferran Faura, Shayan Iranipour, Emanuele R. Nocera, Juan Rojo, Maria Ubiali, Eur.Phys.J. C80 (2020) 1168, arXiv:2009.00014.
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[30-4]
Massive charged-current coefficient functions in deep-inelastic scattering at NNLO and impact on strange-quark distributions, Jun Gao, JHEP 1802 (2018) 026, arXiv:1710.04258.
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[30-5]
Determination of Strange Sea Quark Distributions from Fixed-target and Collider Data, S. Alekhin et al., Phys. Rev. D91 (2015) 094002, arXiv:1404.6469.
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[30-6]
Neutrinos from Pion Decay at Rest to Probe the Proton Strangeness, Giulia Pagliaroli, Carolina Lujan-Peschard, Manimala Mitra, Francesco Vissani, Phys. Rev. Lett. 111 (2013) 022001, arXiv:1210.4225.
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[30-7]
Neutrino dimuon production and the dynamical determination of strange parton distributions, P. Jimenez-Delgado, Phys. Lett. B689 (2010) 177-180, arXiv:1002.2104.
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[30-8]
Precision determination of electroweak parameters and the strange content of the proton from neutrino deep-inelastic scattering, Richard D.Ball et al. (NNPDF), Nucl. Phys. B823 (2009) 195-233, arXiv:0906.1958.
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[30-9]
Determination of Strange Sea Distributions from Neutrino- Nucleon Deep Inelastic Scattering, S. Alekhin, S. Kulagin, R. Petti, Phys. Lett. B675 (2009) 433-440, arXiv:0812.4448.
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[30-10]
The influence of direct $D$-meson production to the determination on the nucleon strangeness asymmetry via dimuon events in neutrino experiments, Puze Gao, Bo-Qiang Ma, Eur. Phys. J. C58 (2008) 37-46, arXiv:0808.3527.
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[30-11]
Signals for strange quark contributions to the neutrino (antineutrino) scattering in quasi-elastic region, Myung-Ki Cheoun, K. S. Kim, J. Phys. Soc. Jap. 78 (2009) 084202, arXiv:0807.5000.
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[30-12]
Ambiguities of neutrino(antineutrino) scattering on the nucleon due to the uncertainties of relevant strangeness form factors, Myung-Ki Cheoun, K. S. Kim, J. Phys. G35 (2008) 065107, arXiv:0712.4097.
[Cheoun:2007av]
[30-13]
Form factors and other measures of strangeness in the nucleon, M. Diehl, Th. Feldmann, P. Kroll, Phys. Rev. D77 (2008) 033006, arXiv:0711.4304.
[Diehl:2007uc]
[30-14]
Strangeness content of the nucleon in quasielastic neutrino-nucleus reactions, N. Jachowicz, P. Vancraeyveld, P. Lava, C. Praet, J. Ryckebusch, Phys. Rev. C76 (2007) 055501, arXiv:0708.4135.
[Jachowicz:2007ek]
[30-15]
Strange quark contributions to neutrino and antineutrino nucleus scattering via neutral current in quasi-elastic region, K. S. Kim, Myung Ki Cheoun, arXiv:0707.2767, 2007.
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[30-16]
The Strange Parton Distribution of the Nucleon: Global Analysis and Applications, H.L. Lai et al., JHEP 04 (2007) 089, arXiv:hep-ph/0702268.
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[30-17]
Neutrino-nucleus quasi-elastic scattering and strange quark effects, Andrea Meucci, Carlotta Giusti, Franco Davide Pacati, Nucl. Phys. A773 (2006) 250-262, arXiv:nucl-th/0601052.
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[30-18]
Probing nucleon strange asymmetry from charm production in neutrino deep inelastic scattering, Puze Gao, Bo-Qiang Ma, Eur. Phys. J. C44 (2005) 63, arXiv:hep-ph/0506300.
[Gao:2005gj]
[30-19]
Strange-quark contribution to the ratio of neutral- to charged-current cross sections in neutrino-nucleus scattering, B.I.S. van der Ventel, J. Piekarewicz, Phys. Rev. C73 (2006) 025501, arXiv:nucl-th/0506071.
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Determination of the strange form factors of the nucleon from \nu p, \bar{\nu} p, and parity-violating \vec{e}p elastic scattering, S. F. Pate, Phys. Rev. Lett. 92 (2004) 082002, arXiv:hep-ex/0310052.
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[30-21]
D Meson Production in Neutrino DIS and Polarized Strange Quark Distribution, Kazutaka Sudoh, Aip Conf. Proc. 675 (2003) 370, arXiv:hep-ph/0212246.
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Strange form factors of the proton: A new analysis of the nu (anti-nu) data of the BNL-734 experiment, W. M. Alberico et al., Nucl. Phys. A651 (1999) 277-286, arXiv:hep-ph/9812388.
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The ratio of p and n yields in NC nu(anti-nu) nucleus scattering and strange form factors of the nucleon, W. M. Alberico et al., Phys. Lett. B438 (1998) 9-13, arXiv:hep-ph/9712441.
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Inelastic nu and anti-nu scattering on nuclei and *strangeness* of the nucleon, W. M. Alberico et al., Nucl. Phys. A623 (1997) 471-497, arXiv:hep-ph/9703415.
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Elastic neutrino N and anti-neutrino N scattering and strange form-factors of the nucleons, W. M. Alberico, Samoil M. Bilenky, C. Giunti, C. Maieron, Z. Phys. C70 (1996) 463-472, arXiv:hep-ph/9508277.
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[30-28]
Strange matrix elements in the proton from neutral current experiments, David B. Kaplan, Aneesh Manohar, Nucl. Phys. B310 (1988) 527.
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31 - Phenomenology - Strangeness of the Nucleon - Talks

[31-1]
On the dynamical determination of strange parton distributions, P. Jimenez-Delgado, PoS DIS2010 (2010) 114, arXiv:1006.5910. XVIII International Workshop on Deep-Inelastic Scattering and Related Subjects (DIS 2010), April 19 -23, 2010, Convitto della Calza, Firenze, Italy.
[Jimenez-Delgado:2010qxk]
[31-2]
Strange and Anti-strange Sea Distributions from Neutrino-Nucleon Deep Inelastic Scattering, S. Alekhin, S. Kulagin, R. Petti, arXiv:0910.3762, 2009. DIS 2009 - QCD and Deep Inelastic Scattering, Madrid, Spain, April 26-30, 2009.
[Alekhin:2009ye]
[31-3]
Strange form factors of the nucleon, R. Bijker, Rev. Mex. Fis. S52N4 (2006) 1-4, arXiv:nucl-th/0701022. XXIX Symposium on Nuclear Physics, Cocoyoc, Morelos, Mexico, January 3-6, 2006.
[Bijker:2006tnf]
[31-4]
Manifestation of the JLab proton polarization data on the behaviour of strange nucleon form factors, S. Dubnicka, A.Z. Dubnickova, Eur.Phys.J. A32 (2007) 399-401, arXiv:hep-ph/0608342. PAVI06 International Workshop, 16-20 May, 2006, Milos, Greece.
[Dubnicka:2006eow]
[31-5]
Strange nucleon form factors: Solitonic approach to G_{M}^{s}, G_{E}^{s}, \tilde{G}_{A}^{p} and \tilde{G}_{A}^{n} and comparison with world data, Klaus Goeke, Hyun-Chul Kim, Antonio Silva, Diana Urbano, Eur. Phys. J. A32 (2007) 393-397, arXiv:hep-ph/0608262. International Workshop 'From Parity Violation to Hadronic Structure and more...', May 16 - May 20, 2006, Milos, Greece.
[Goeke:2006gi]
[31-6]
Flavor content of nucleon form factors in a VMD approach, R. Bijker, Eur. Phys. J. A32 (2007) 403-407, arXiv:nucl-th/0607058. PAVI06, Milos, Greece, May 16-20, 2006.
[Bijker:2006id]
[31-7]
Neutrino scattering as a probe for the strange content of the nucleon, W.M. Alberico, Acta Phys. Polon. B37 (2006) 2269-2278, arXiv:hep-ph/0605340. 20th Max Born Symposium, Wroclaw (Poland), December 7-10, 2005.
[Alberico:2006as]
[31-8]
Strangeness contribution to the vector and axial form factors of the nucleon, S.F. Pate, G.A. MacLachlan, D.W. McKee, V. Papavassiliou, AIP Conf. Proc. 842 (2006) 309-311, arXiv:hep-ex/0512032. PANIC 2005.
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[31-9]
Neutrino-production of charm and the strangeness asymmetry of the nucleon, S. Kretzer, arXiv:hep-ph/0408287, 2004. 12th International Workshop on Deep Inelastic Scattering (DIS 2004), Strbske Pleso, Slovakia, 14-18 Apr 2004.
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[31-10]
Looking for strangeness with neutrino-nucleon scattering, W. M. Alberico, S. M. Bilenky, C. Maieron, Aip Conf. Proc. 721 (2004) 350, arXiv:hep-ph/0311053. NuFact 03, 5th International Workshop on Neutrino Factories and Superbeams, Columbia University, New York, 5-11 June 2003.
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[31-11]
Strange Form Factors in Neutrino Scattering, C. Maieron W.M. Alberico, arXiv:hep-ph/0210017, 2002. International Workshop on Parity Violation, Mainz, June 5-8, 2002.
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[31-12]
Neutrino (antineutrino) nucleon scattering and strange form factors of the nucleon, W. M. Alberico, C. Giunti, Samoil M. Bilenky, C. Maieron, Nucl. Phys. A663 (2000) 833-836. 15th International Conference on Particles and Nuclei (PANIC 99), Uppsala, Sweden, 10-16 June 1999.
[Alberico:2000vd]
[31-13]
Possible tests of the *strangeness* of the nucleon, W. M. Alberico, Samoil M. Bilenky, C. Giunti, arXiv:hep-ph/9610314, 1996. 13th International Seminar on High-energy Physics Problems (ISHEPP 96): Relativistic Nuclear Physics and Quantum Chromodynamics, Dubna, Russia, 2-7 Sep 1996.
[Alberico:1996df]
[31-14]
Inclusive neutrino and antineutrino processes and the problem of the spin of proton, W. M. Alberico, Samoil M. Bilenky, C. Giunti, arXiv:hep-ph/9610291, 1996. 12th International Symposium on High-energy Spin Physics (SPIN96), Amsterdam, Netherlands, 10-14 Sep 1996.
[Alberico:1996xq]
[31-15]
The problem of the spin of the proton and elastic neutrino proton scattering, Samoil M. Bilenky, W. M. Alberico, C. Giunti, C. Maieron, arXiv:hep-ph/9605305, 1996. Adriatico Research Conference on Trends in Collider Spin Physics, Trieste, Italy, 4-8 Dec 1995.
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32 - Phenomenology - Models

[32-1]
New Constraint on Dark Photon at T2K Off-Axis Near Detector, Takeshi Araki, Kento Asai, Tomoya Iizawa, Hidetoshi Otono, Takashi Shimomura, Yosuke Takubo, JHEP 11 (2023) 056, arXiv:2308.01565.
[Araki:2023xgb]
[32-2]
Longer-Lived Mediators from Charged Mesons and Photons at Neutrino Experiments, Bhaskar Dutta, Aparajitha Karthikeyan, Doojin Kim, arXiv:2308.01491, 2023.
[Dutta:2023fnl]
[32-3]
A neutrino window to scalar leptoquarks: from low energy to colliders, Valentina De Romeri, Victor Martin Lozano, G. Sanchez Garcia, Phys.Rev.D 109 (2024) 055014, arXiv:2307.13790.
[DeRomeri:2023cjt]
[32-4]
Probing right-handed neutrinos dipole operators, Daniele Barducci, Enrico Bertuzzo, Marco Taoso, Claudio Toni, JHEP 03 (2023) 239, arXiv:2209.13469.
[Barducci:2022gdv]
[32-5]
Vector-Neutrino Interaction in a Screening Framework, and Neutrino Oscillation, H. Yazdani Ahmadabadi, H. Mohseni Sadjadi, arXiv:2209.13367, 2022.
[YazdaniAhmadabadi:2022wiq]
[32-6]
Constraining general U(1) interactions from neutrino-electron scattering measurements at DUNE near detector, Kaustav Chakraborty, Arindam Das, Srubabati Goswami, Samiran Roy, JHEP 04 (2022) 008, arXiv:2111.08767.
[Chakraborty:2021apc]
[32-7]
COHERENT constraints on $Z'$ in 331$\beta$ model, D. T. Binh, L. T. Hue, V. H. Binh, D. V. Soa, H. N. Long, arXiv:2109.08118, 2021.
[Binh:2021iww]
[32-8]
Complementarity between dark matter direct searches and CE$\nu$NS experiments in $U(1)'$ models, Leon M. G. de la Vega, L. J. Flores, Newton Nath, Eduardo Peinado, JHEP 21 (2020) 146, arXiv:2107.04037.
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[32-9]
A Light Mediator Relating Neutrino Reactions, I. Alikhanov, E. A. Paschos, Universe 7 (2021) 204, arXiv:2106.12364.
[Alikhanov:2021dhb]
[32-10]
New Interference Effects from Light Gauge Bosons in Neutrino-Electron Scattering, P. S. Bhupal Dev, Doojin Kim, Kuver Sinha, Yongchao Zhang, Phys.Rev.D 104 (2021) 075001, arXiv:2105.09309.
[Dev:2021xzd]
[32-11]
Probing new neutral gauge bosons with CEvNS and neutrino-electron scattering, Omar G. Miranda, Dimitrios K. Papoulias, Mariam Tortola, Jose W. F. Valle, Phys.Rev. D101 (2020) 073005, arXiv:2002.01482.
[Miranda:2020zji]
[32-12]
New Physics Probes: Atomic Parity Violation, Polarized Electron Scattering and Neutrino-Nucleus Coherent Scattering, Giorgio Arcadi, Manfred Lindner, Jessica Martins, Farinaldo S. Queiroz, Nucl.Phys. B959 (2020) 115158, arXiv:1906.04755.
[Arcadi:2019uif]
[32-13]
Compilation of low-energy constraints on 4-fermion operators in the SMEFT, Adam Falkowski, Martin Gonzalez-Alonso, Kin Mimouni, JHEP 1708 (2017) 123, arXiv:1706.03783.
[Falkowski:2017pss]
[32-14]
Sizable NSI from the $SU(2)_L$ scalar doublet-singlet mixing and the implications in DUNE, David V. Forero, Wei-Chih Huang, JHEP 1703 (2017) 018, arXiv:1608.04719.
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[32-15]
Lepton Flavor Violating Non-Standard Interactions via Light Mediators, Yasaman Farzan, Ian M. Shoemaker, JHEP 1607 (2016) 033, arXiv:1512.09147.
[Farzan:2015hkd]
[32-16]
Collider limits on leptophilic interactions, Francisco del Aguila, Mikael Chala, Jose Santiago, Yasuhiro Yamamoto, JHEP 1503 (2015) 059, arXiv:1411.7394.
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[32-17]
Do leptoquarks manifest themselves in ultra-high energy neutrino interactions?, I. Alikhanov, JHEP 1307 (2013) 093, arXiv:1305.2905.
[Alikhanov:2013fda]
[32-18]
Correlation between the Charged Current Interactions of Light and Heavy Majorana Neutrinos, Zhi-zhong Xing, Phys. Lett. B660 (2008) 515-521, arXiv:0709.2220.
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On muon decay in left-right symmetric electroweak models, P. Herczeg, Phys. Rev. D34 (1986) 3449.
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33 - Phenomenology - Models - Talks

[33-1]
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.
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[33-2]
Neutrino nucleus reactions within the GiBUU model, O. Lalakulich, K. Gallmeister, U. Mosel, J. Phys. Conf. Ser. 408 (2013) 012053, arXiv:1110.0674. NUFACT 11, XIIIth International Workshop on Neutrino Factories, Super beams and Beta beams, 1-6 August 2011, CERN and University of Geneva.
[Lalakulich:2011eh]

34 - History

[34-1]
Physics with charm particles produced in neutrino interactions. A historical recollection, Ubaldo Doew, Eur. Phys. J. H37 (2012) 115-137, arXiv:1103.4572.
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[34-2]
The neutrino: From poltergeist to particle, F. Reines, Rev. Mod. Phys. 68 (1996) 317-327.
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[34-3]
Weak interaction Physics: From its Birth to the Electroweak Model, Jose Leite Lopes, Quimica Nova 11 (1988) 146-163. http://www4.prossiga.br/lopes/prodcien/birth/Birth.html.
[Lopes-birth-88]

35 - History - Talks

[35-1]
Edward Teller and Nuclei: Along the Trail to the Neutrino, W. C. Haxton, arXiv:0808.1098, 2008. Edward Teller Centennial Symposium.
[Haxton:2008vt]
[35-2]
Uncovering the Nature of the Weak Interaction, Jonathan L. Rosner, arXiv:hep-ph/0610100, 2006. Jim Cronin's 75th birthday celebration, Chicago, September 8-9, 2006.
[Rosner:2006dk]

36 - Future Experiments

[36-1]
Characterization and Optimization of Cryogenic Pure CsI Detector for CLOVERS Experiment, Chenguang Su, Qian Liu, Yangheng Zheng, arXiv:2402.05026, 2024.
[Su:2024rlt]
[36-2]
Accessing new physics with an undoped, cryogenic CsI CEvNS detector for COHERENT at the SNS, P. S. Barbeau et al., arXiv:2311.13032, 2023.
[COHERENT:2023sol]
[36-3]
Physics Opportunities at a Beam Dump Facility at PIP-II at Fermilab and Beyond, A. A. Aguilar-Arevalo et al., arXiv:2311.09915, 2023.
[Aguilar-Arevalo:2023dai]
[36-4]
Investigating the fluxes and physics potential of LHC neutrino experiments, Felix Kling, Toni Makela, Sebastian Trojanowski, Phys.Rev.D 108 (2023) 095020, arXiv:2309.10417.
[Kling:2023tgr]
[36-5]
The LHC as a Neutrino-Ion Collider, Juan M. Cruz-Martinez, Max Fieg, Tommaso Giani, Peter Krack, Toni Makela, Tanjona Rabemananjara, Juan Rojo, arXiv:2309.09581, 2023.
[Cruz-Martinez:2023sdv]
[36-6]
CE$\nu$NS Experiment Proposal at CSNS, Chenguang Su, Qian Liu, Tianjiao Liang (CEvNS@CSNS), Phys.Sci.Forum 8 (2023) 19, arXiv:2303.13423.
[Su:2023klh]
[36-7]
Development of proton beam irradiation system for the NA65/DsTau experiment, Shigeki Aoki et al., JINST 18 (2023) P10008, arXiv:2303.13070.
[DsTauNA65:2023ogo]
[36-8]
Lead perovskites as CE$\nu$NS detectors, Cesar Jesus-Valls, Federico Sanchez, Front.in Phys. 11 (2023) 1191954, arXiv:2302.01597.
[Jesus-Valls:2023srk]
[36-9]
Precision pulse shape simulation for proton detection at the Nab experiment, Leendert Hayen et al., Phys.Rev.C 107 (2023) 065503, arXiv:2212.03438.
[Hayen:2022dsg]
[36-10]
Richness out of smallness: a Possible Staged Blueprint on Future Colliders, Meng Lu, Qiang Li, Zhengyun You, Ce Zhang (PKU SYSU Novel Collider Group), arXiv:2210.06690, 2022.
[Lu:2022ibc]
[36-11]
SND@LHC: The Scattering and Neutrino Detector at the LHC, G. Acampora et al. (SND@LHC), arXiv:2210.02784, 2022.
[SNDLHC:2022ihg]
[36-12]
The RED-100 experiment, D. Yu. Akimov et al., JINST 17 (2022) T11011, arXiv:2209.15516.
[Akimov:2022xvr]
[36-13]
Physics Opportunities in the ORNL Spallation Neutron Source Second Target Station Era, J. Asaadi et al., arXiv:2209.02883, 2022. 2022 Snowmass Summer Study.
[Asaadi:2022ojm]
[36-14]
Snowmass 2021 Scintillating Bubble Chambers: Liquid-noble Bubble Chambers for Dark Matter and CE$\nu$NS Detection, E. Alfonso-Pita et al., arXiv:2207.12400, 2022.
[Alfonso-Pita:2022akn]
[36-15]
The FASER Detector, Henso Abreu et al. (FASER), arXiv:2207.11427, 2022.
[FASER:2022hcn]
[36-16]
Conceptual Design Report of DaRveX: Decay at Rest $\nu_e$ + Lead Cross Section Measurement at J-PARC MLF, F. Suekane et al., arXiv:2205.11769, 2022.
[2205.11769]
[36-17]
Exploring coherent elastic neutrino-nucleus scattering using reactor electron antineutrinos in the NEON experiment, J.J. Choi et al., Eur.Phys.J.C 83 (2023) 226, arXiv:2204.06318.
[NEON:2022hbk]
[36-18]
LANSCE-PSR Short-Pulse Upgrade for Improved Dark Sector Particle Searches with the Coherent Captain Mills Experiment, R.G. Van de Water et al., arXiv:2204.01860, 2022.
[VandeWater:2022qot]
[36-19]
Bubble Chamber Detectors with Light Nuclear Targets: A Snowmass 2021 White Paper, Luis Alvarez-Ruso et al., arXiv:2203.11319, 2022.
[Alvarez-Ruso:2022exy]
[36-20]
Enhanced NeUtrino BEams from kaon Tagging (ENUBET), A. Longhin, F. Terranova (ENUBET), arXiv:2203.08319, 2022.
[Longhin:2022tkk]
[36-21]
Broader Impact of Cyclotron-based Neutrino Sources, Jose Alonso (IsoDAR), arXiv:2203.08106, 2022.
[Alonso:2022roj]
[36-22]
Report of the Snowmass'21 Workshop on High-Power Cyclotrons and FFAs, Daniel Winklehner, Andreas Adelmann, Jose R. Alonso, Luciano Calabretta, Hiroki Okuno, Thomas Planche, Malek Haj Tahar, arXiv:2203.07919, 2022.
[Winklehner:2022rdu]
[36-23]
Neutrinos from Stored Muons (nuSTORM), L. Alvarez Ruso et al., arXiv:2203.07545, 2022.
[nuSTORM:2022div]
[36-24]
Future Advances in Photon-Based Neutrino Detectors: A SNOWMASS White Paper, Joshua R. Klein et al., arXiv:2203.07479, 2022.
[Klein:2022tqr]
[36-25]
Prompt electron and tau neutrinos and antineutrinos in the forward region at the LHC, Weidong Bai, Milind Vaman Diwan, Maria Vittoria Garzelli, Yu Seon Jeong, Karan Kumar, Mary Hall Reno, JHEAp 34 (2022) 212-216, arXiv:2203.07212.
[Bai:2022jcs]
[36-26]
Passive low energy nuclear recoil detection with color centers - PALEOCCENE, Krystal Alfonso et al., arXiv:2203.05525, 2022.
[Alfonso:2022meh]
[36-27]
The Forward Physics Facility at the High-Luminosity LHC, Jonathan L. Feng et al., J.Phys.G 50 (2023) 030501, arXiv:2203.05090. 2022 Snowmass Summer Study.
[Feng:2022inv]
[36-28]
Physics Opportunities for the Fermilab Booster Replacement, John Arrington et al., arXiv:2203.03925, 2022.
[Arrington:2022pon]
[36-29]
Development of a compact muon veto for the NUCLEUS experiment, V. Wagner et al., JINST 17 (2022) T05020, arXiv:2202.03991.
[NUCLEUS:2022rcz]
[36-30]
Development of data processing and analysis pipeline for the RICOCHET experiment, J. Colas, J. Billard, S. Ferriol, J. Gascon, T. Salagnac (RICOCHET), J.Low Temp.Phys. (2022), arXiv:2111.12856.
[Colas:2021pxr]
[36-31]
Transition Edge Sensor Chip Design of Modular CE$\nu$NS Detector for the Ricochet Experiment, Ran Chen (RICOCHET), J.Low Temp.Phys. (2022), arXiv:2111.05757.
[Chen:2021tap]
[36-32]
First observation of isolated nuclear recoils following neutron capture, A.N. Villano, M. Fritts, N. Mast, S. Brown, P. Cushman, K. Harris, V. Mandic, Phys.Rev.D 105 (2022) 083014, arXiv:2110.02751.
[Villano:2021eof]
[36-33]
The Forward Physics Facility: Sites, Experiments, and Physics Potential, Luis A. Anchordoqui et al., Phys.Rept. 968 (2022) 2215, arXiv:2109.10905.
[Anchordoqui:2021ghd]
[36-34]
SENSEI: Characterization of Single-Electron Events Using a Skipper-CCD, Liron Barak et al., Phys.Rev.Applied 17 (2022) 014022, arXiv:2106.08347.
[SENSEI:2021hcn]
[36-35]
LEvEL: Low-Energy Neutrino Experiment at the LHC, Kevin J. Kelly, Pedro A. N. Machado, Alberto Marchionni, Yuber F. Perez-Gonzalez, JHEP 08 (2021) 087, arXiv:2103.00009.
[Kelly:2021jgj]
[36-36]
Prospects of detecting the reactor $\bar{\nu_e}$-Ar coherent elastic scattering with a low threshold dual-phase argon projection chamber at Taishan, Yu-Ting Wei, Meng-Yun Guan, Jin-Chang Liu, Ze-Yuan Yu, Chang-Gen Yang, Cong Guo, Wei-Xing Xiong, You-Yu Gan, Qin Zhao, Jia-Jun Li, Rad.Det.Tech.Meth. 5 (2021) 297-306, arXiv:2012.00966.
[Wei:2020rbm]
[36-37]
Large-mass single-electron-resolution detector for dark matter and neutrino elastic interaction searches, V. Iyer et al., Nucl.Instrum.Meth.A 1010 (2021) 165489, arXiv:2011.02234.
[Iyer:2020nxe]
[36-38]
Conceptual Design Report - eSPS, M. Aicheler et al., arXiv:2009.06938, 2020.
[Aicheler:2020dax]
[36-39]
Prospect of undoped inorganic scintillators at 77 Kelvin for the detection of non-standard neutrino interactions at the Spallation Neutron Source, Keyu Ding, Daniel Pershey, Dmitry Chernyak, Jing Liu, Eur.Phys.J. C80 (2020) 1146, arXiv:2008.00939.
[Ding:2020uxu]
[36-40]
Development of a Sealed Liquid Xenon Time Projection Chamber with a Graphene-Coated Electrode, Yuehuan Wei, Jianyu Long, Francesco Lombardi, Zhiheng Jiang, Jingqiang Ye, Kaixuan Ni, JINST 16 (2021) P01018, arXiv:2007.16194.
[Wei:2020cwl]
[36-41]
Phonon-mediated High-voltage Detector with Background Rejection for Low-mass Dark Matter and Reactor Coherent Neutrino Scattering Experiments, H. Neog, R. Mahapatra, N. Mirabolfathi, M. Platt, A. Jastram, G. Agnolet, A. Kubik, H. Chen, B. Mohanty, Nucl.Instrum.Meth.A 1033 (2022) 166707, arXiv:2006.13139.
[Neog:2020ily]
[36-42]
Further studies on the physics potential of an experiment using LHC neutrinos, N. Beni et al., J.Phys. G47 (2020) 125004, arXiv:2004.07828.
[Beni:2020yfy]
[36-43]
SND@LHC, C. Ahdida et al. (SHiP), arXiv:2002.08722, 2020.
[SHiP:2020sos]
[36-44]
Technical Proposal: FASERnu, Henso Abreu et al. (FASER), arXiv:2001.03073, 2020.
[FASER:2020gpr]
[36-45]
EMPHATIC: A proposed experiment to measure hadron scattering and productioncross sections for improved neutrino flux predictions, T. Akaishi et al., arXiv:1912.08841, 2019.
[EMPHATIC:2019xmc]
[36-46]
Lepton-Nucleus Cross Section Measurements for DUNE with the LDMX Detector, Artur M. Ankowski, Alexander Friedland, Shirley Weishi Li, Omar Moreno, Philip Schuster, Natalia Toro, Nhan Tran, Phys.Rev. D101 (2020) 053004, arXiv:1912.06140.
[Ankowski:2019mfd]
[36-47]
The liquid argon detector and measurement of SiPM array at liquid argon temperature, Cong Guo, Mengyun Guan, Xilei Sun, Weixing Xiong, Peng Zhang, Changgen yang, Nucl.Instrum.Meth. A980 (2020) 164488, arXiv:1911.01378.
[Guo:2019fpa]
[36-48]
Coherent Elastic Neutrino-Nucleus Scattering at the European Spallation Source, D. Baxter et al., JHEP 2002 (2020) 123, arXiv:1911.00762.
[Baxter:2019mcx]
[36-49]
Physics Briefing Book, Richard Keith Ellis et al., arXiv:1910.11775, 2019.
[EuropeanStrategyforParticlePhysicsPreparatoryGroup:2019qin]
[36-50]
XSEN: a $\nu$N Cross Section Measurement using High Energy Neutrinos from pp collisions at the LHC, N. Beni et al., arXiv:1910.11340, 2019.
[XSEN:2019bel]
[36-51]
Neutrino-electron elastic scattering for flux determination at the DUNE oscillation experiment, Chris M. Marshall, Kevin S. McFarland, Callum Wilkinson, Phys.Rev. D101 (2020) 032002, arXiv:1910.10996.
[Marshall:2019vdy]
[36-52]
First ground-level laboratory test of the two-phase xenon emission detector RED-100, D.Yu. Akimov et al., JINST 15 (2020) P02020, arXiv:1910.06190.
[RED-100:2019rpf]
[36-53]
Contact-less phonon detection with massive cryogenic absorbers, Johannes Goupy et al., Appl.Phys.Lett. 115 (2019) 223506, arXiv:1906.10397.
[Goupy:2019wrx]
[36-54]
DsTau: Study of tau neutrino production with 400 GeV protons from the CERN-SPS, Shigeki Aoki et al., JHEP 2001 (2020) 033, arXiv:1906.03487.
[DsTau:2019wjb]
[36-55]
Data-Driven Modeling of Electron Recoil Nucleation in PICO C$_3$F$_8$ Bubble Chambers, C. Amole et al., Phys.Rev. D100 (2019) 082006, arXiv:1905.12522.
[PICO:2019rsv]
[36-56]
Exploring CEvNS with NUCLEUS at the Chooz Nuclear Power Plant, G. Angloher et al., Eur.Phys.J. C79 (2019) 1018, arXiv:1905.10258.
[NUCLEUS:2019igx]
[36-57]
Electron extraction efficiency study for dual-phase xenon dark matter experiments, Jingke Xu, Sergey Pereverzev, Brian Lenardo, James Kingston, Daniel Naim, Adam Bernstein, Kareem Kazkaz, Mani Tripathi, Phys.Rev. D99 (2019) 103024, arXiv:1904.02885.
[Xu:2019dqb]
[36-58]
Wide band spectroscopic response of monocrystallines to low dose neutron and gamma radiation, Yossi Mosbacher, Micha Weiss, Hagar Landsman, Nadav Priel, Ilan Eliyahu, Arik Kreisel, Offir Ozeri, David Hershkovich, Ori Cheshnovsky, Ranny Budnik, arXiv:1902.10668, 2019.
[Mosbacher:2019igk]
[36-59]
Compact, directional neutron detectors capable of high-resolution nuclear recoil imaging, I. Jaegle et al., Nucl.Instrum.Meth. A945 (2019) 162296, arXiv:1901.06657.
[Jaegle:2019jpx]
[36-60]
High intensity cyclotrons for neutrino physics, Daniel Winklehner et al., Nucl.Instrum.Meth. A907 (2018) 231-243, arXiv:1807.03759.
[Winklehner:2018kqi]
[36-61]
Racetrack FFAG muon decay ring for nuSTORM with triplet focusing, J.-B. Lagrange, R.B. Appleby, J.M. Garland, J. Pasternak, S. Tygier, JINST 13 (2018) P09013, arXiv:1806.02172.
[Lagrange:2018bck]
[36-62]
CMS-XSEN: LHC Neutrinos at CMS. Experiment Feasibility Study, S. Buontempo, G. M. Dallavalle, G. De Lellis, D. Lazic, F. L. Navarria, arXiv:1804.04413, 2018.
[Buontempo:2018gta]
[36-63]
A new scheme to measure the electron-neutrino correlation - the case of $^{6}$He, I. Mukul et al., arXiv:1711.08299, 2017.
[Mukul:2017myi]
[36-64]
Measuring Neutron Spectrum at MIT Research Reactor Utilizing He-3 Bonner Cylinder Approach with an Unfolding Analysis, A. F. Leder et al., JINST 13 (2018) P02004, arXiv:1710.00802.
[Leder:2017lva]
[36-65]
Study of tau-neutrino production at the CERN SPS, S. Aoki et al., arXiv:1708.08700, 2017.
[Aoki:2017spj]
[36-66]
The $\nu$-cleus experiment: A gram-scale fiducial-volume cryogenic detector for the first detection of coherent neutrino-nucleus scattering, R. Strauss et al., Eur.Phys.J. C77 (2017) 506, arXiv:1704.04320.
[Strauss:2017cuu]
[36-67]
Lithium antineutrino source in the tandem scheme of the accelerator and neutron producting tungsten target, V. I. Lyashuk, arXiv:1609.02127, 2016.
[Lyashuk:2016lxq]
[36-68]
Background Studies for the MINER Coherent Neutrino Scattering Reactor Experiment, G. Agnolet et al. (MINER), Nucl.Instrum.Meth. A853 (2017) 53-60, arXiv:1609.02066.
[MINER:2016igy]
[36-69]
TITUS: the Tokai Intermediate Tank for the Unoscillated Spectrum, C. Andreopoulos et al., arXiv:1606.08114, 2016.
[Andreopoulos:2016rqc]
[36-70]
Results of the engineering run of the Coherent Neutrino Nucleus Interaction Experiment (CONNIE), A. Aguilar-Arevalo et al. (CONNIE), JINST 11 (2016) P07024, arXiv:1604.01343.
[CONNIE:2016nav]
[36-71]
The COHERENT Experiment at the Spallation Neutron Source, D. Akimov et al. (COHERENT), arXiv:1509.08702, 2015.
[COHERENT:2015mry]
[36-72]
Letter of Intent to Construct a nuPRISM Detector in the J-PARC Neutrino Beamline, S. Bhadra et al. (nuPRISM), arXiv:1412.3086, 2014.
[nuPRISM:2014mzw]
[36-73]
Charge Coupled Devices for detection of coherent neutrino-nucleus scattering, Guillermo Fernandez Moroni et al., Phys. Rev. D91 (2015) 072001, arXiv:1405.5761.
[FernandezMoroni:2014qlq]
[36-74]
Expression of Interest: The Atmospheric Neutrino Neutron Interaction Experiment (ANNIE), I. Anghel et al. (ANNIE), arXiv:1402.6411, 2014.
[ANNIE:2014sbf]
[36-75]
Large Gaseous Detector of Ionizing Eradiation in Search for Coherent Neutrino-Nucleus Scattering, A.V.Kopylov, I.V.Orekhov, V.V.Petukhov, A.E.Solomatin, arXiv:1311.6564, 2013.
[Kopylov:2013zda]
[36-76]
A New Method for Measuring Coherent Elastic Neutrino Nucleus Scattering at an Off-Axis High-Energy Neutrino Beam Target, S.J. Brice et al., Phys. Rev. D89 (2014) 072004, arXiv:1311.5958.
[Brice:2013fwa]
[36-77]
Coherent Scattering Investigations at the Spallation Neutron Source: a Snowmass White Paper, D. Akimov et al., arXiv:1310.0125, 2013.
[CSI:2013qki]
[36-78]
Exclusive Topologies reconstruction in LAr-TPC experiments: a Novel Approach for precise Neutrino-Nucleus Cross-Sections Measurements, O. Palamara, K. Partyka, F. Cavanna, arXiv:1309.7480, 2013.
[Palamara:2013maa]
[36-79]
Neutrino physics with multi-ton scale liquid xenon detectors, L. Baudis et al., JCAP 1401 (2014) 044, arXiv:1309.7024.
[Baudis:2013qla]
[36-80]
Precision $\bar\nu_e$-electron Scattering Measurements with IsoDAR to Search for New Physics, J.M. Conrad et al., Phys. Rev. D89 (2014) 072010, arXiv:1307.5081.
[Conrad:2013sqa]
[36-81]
Perspectives to measure neutrino-nuclear neutral current coherent scattering with two-phase emission detector, D. Yu. Akimov et al. (RED), JINST 8 (2013) P10023, arXiv:1212.1938.
[RED:2012hpm]
[36-82]
Letter of Intent: A new investigation of $\nu_\mu \to \nu_e$ oscillations with improved sensitivity in an enhanced MiniBooNE experiment, A. A. Aguilar-Arevalo et al. (MiniBooNE), arXiv:1210.2296, 2012.
[MiniBooNE:2012jhj]
[36-83]
An active electron polarized scintillating GSO target for neutrino physics, B. Baiboussinov et al., Nucl. Instrum. Meth. A694 (2012) 335-340.
[Baiboussinov:2012bd]
[36-84]
Project-X: A new high intensity proton accelerator complext at Fermilab, R. Tschirhart, arXiv:1109.3500, 2011.
[Tschirhart:2011yu]
[36-85]
Expression of Interest for Neutrinos Scattering on Glass: NuSOnG, T. Adams et al. (NuSOnG), arXiv:0907.4864, 2009.
[NuSOnG:2009nwp]
[36-86]
Renaissance of the ~1 TeV Fixed-Target Program, T. Adams et al., Int. J. Mod. Phys. A25 (2010) 777-813, arXiv:0905.3004.
[Adams:2009mc]
[36-87]
A High Resolution Neutrino Experiment in a Magnetic Field for Project-X at Fermilab, S. R. Mishra, R. Petti, C. Rosenfeld, PoS NUFACT08 (2008) 069, arXiv:0812.4527.
[Mishra:2008nx]
[36-88]
Terascale Physics Opportunities at a High Statistics, High Energy Neutrino Scattering Experiment: NuSOnG, T. Adams et al. (NuSOnG), Int. J. Mod. Phys. A24 (2009) 671-717, arXiv:0803.0354.
[NuSOnG:2008weg]
[36-89]
Study of accelerator neutrino interactions in a liquid argon TPC, A. Martinez de la Ossa, arXiv:hep-ex/0703026, 2007.
[MartinezdelaOssaRomero:2007rm]
[36-90]
An experiment for the measurement of the bound-beta decay of the free neutron, W. Schott et al., Eur. Phys. J. A30 (2006) 603-611, arXiv:hep-ex/0602047.
[Schott:2006pt]
[36-91]
Bringing the SciBar Detector to the Booster Neutrino Beam, A. A. Aguilar-Arevalo et al. (SciBooNE), arXiv:hep-ex/0601022, 2006.
[SciBooNE:2006asj]
[36-92]
Proposal to Perform a High-Statistics Neutrino Scattering Experiment Using a Fine-grained Detector, D. Drakoulakos et al. (Minerva), arXiv:hep-ex/0405002, 2004.
[MINERvA:2004gta]
[36-93]
Precision Measurement of $\sin^2 \theta_W$ at a Reactor, J. M. Conrad, J. M. Link, M. H. Shaevitz, Phys. Rev. D71 (2005) 073013, arXiv:hep-ex/0403048.
[Conrad:2004gw]
[36-94]
A Proposal for a Near Detector Experiment on the Booster Neutrino Beamline: FINeSSE: Fermilab Intense Neutrino Scattering Scintillator Experiment, S. Brice et al. (FINeSSE), arXiv:hep-ex/0402007, 2004.
[FINeSSE:2004cca]

37 - Future Experiments - Talks

[37-1]
CE$\nu$NS at the European Spallation Source, A. Simon (nuESS), PoS TAUP2023 (2024) 171, arXiv:2401.04074. TAUP 2023.
[Simon:2024xwb]
[37-2]
Modeling and characterization of TES-based detectors for the Ricochet experiment, R. Chen et al., arXiv:2311.13007, 2023.
[Ricochet:2023lzb]
[37-3]
A proposal for experiment with high-intensity tritium neutrino source in Sarov: The search for coherent elastic neutrino-atom scattering and neutrino magnetic moment, Matteo Cadeddu, Georgy Donchenko, Francesca Dordei, Carlo Giunti, Konstantin Kouzakov, Bayarto Lubsandorzhiev, Alexander Studenikin, Vladimir Trofimov, Maxim Vyalkov, Arkady Yukhimchuk, arXiv:2302.05307, 2023. 41st International Conference on High Energy Physics (ICHEP2022 6-13 July 2022, Bologna, Italy).
[Cadeddu:2023lzd]
[37-4]
The SND@LHC Experiment, Giovanni De Lellis, Springer Proc. Phys. 292 (2023) 51-57. 8th Workshop on Theory, Phenomenology and Experiments in Flavour Physics : Neutrinos, Flavor Physics and Beyond (FPCapri22), 11-13 June 2022, Capri Island, Anacapri, Italy.
[DeLellis:2023yyp]
[37-5]
Development of an Organic Plastic Scintillator based Muon Veto Operating at Sub-Kelvin Temperatures for the NUCLEUS Experiment, Andreas Erhart, Victoria Wagner, Ludwig Klinkenberg, Thierry Lasserre, David Lhuillier, Claudia Nones, Rudolph Rogly, Vladimir Savu, Matthieu Vivier, J.Low Temp.Phys. 209 (2022) 346-354, arXiv:2205.01718. 19th International Workshop on Low Temperature Detectors 19-29 July 2021.
[NUCLEUS:2022vyj]
[37-6]
Optimization and performance of the CryoCube detector for the future RICOCHET low-energy neutrino experiment, T. Salagnac et al. (RICOCHET), J.Low Temp.Phys. (2023), arXiv:2111.12438. 19th International Workshop on Low Temperature Detectors.
[Ricochet:2021kqt]
[37-7]
HEMT-based 1K front-end electronics for the heat and ionization Ge CryoCube of the future RICOCHET CE$\nu$NS experiment, G. Baulieu et al. (RICOCHET), J.Low Temp.Phys. (2022), arXiv:2111.10308. 19th International Workshop on Low Temperature Detectors.
[Ricochet:2021cqv]
[37-8]
Ricochet Progress and Status, C. Augier et al. (RICOCHET), J.Low Temp.Phys. (2023), arXiv:2111.06745. 19th International Workshop on Low Temperature Detectors.
[Ricochet:2021rjo]
[37-9]
The Thermal Conductance of Sapphire Ball Based Detector Clamps, H. D. Pinckney, G. Yacteen, A. Serafin, S. A. Hertel (RICOCHET), J.Low Temp.Phys. 209 (2022) 1204-1211, arXiv:2111.05217. 19th International Workshop on Low Temperature Detectors.
[Pinckney:2021wtd]
[37-10]
European Spallation Source: a future for Coherent Neutrino Nucleus Scattering, Ivan Esteban, arXiv:2105.04669, 2021. 2021 EW session of the 55th Rencontres de Moriond.
[Esteban:2021axt]
[37-11]
Neutrino Oscillations and Non-standard Interactions with KM3NeT-ORCA, Nafis Rezwan Khan Chowdhury (KM3NeT), arXiv:2004.05004, 2020. NuPhys2019: Prospects in Neutrino Physics-Cavendish Conference Centre, London, 16-18 December 2019.
[KhanChowdhury:2020qqu]
[37-12]
A 1 m$^3$ Gas Time Projection Chamber with Optical Readout for Directional Dark Matter Searches: the CYGNO Experiment, E. Baracchini et al., arXiv:2001.02453, 2020. 2018 IEEE NSS/MIC.
[CYGNO:2019dwm]
[37-13]
Detector R&D for ANNIE and Future Neutrino Experiments, Emrah Tiras, arXiv:1910.08715, 2019. 2019 Meeting of the Division of Particles and Fields of the American Physical Society (DPF2019), July 29 - August 2, 2019, Northeastern University, Boston.
[Tiras:2019ozv]
[37-14]
Low-noise HEMTs for Coherent Elastic Neutrino Scattering and Low-Mass Dark Matter Cryogenic Semiconductor Detectors, A. Juillard et al., J.Low.Temp.Phys. 199 (2019) 798-806, arXiv:1909.02879. 18th International Workshop on Low Temperature Detectors 22-26 July 2019 - Milano, Italia.
[Juillard:2019njs]
[37-15]
ANNIE Phase I: Neutron Background Measurements, E. Drakopoulou, B. Richards, arXiv:1903.11879, 2019. NuPhys2018 (London, 19-21 December 2018).
[Drakopoulou:2019wph]
[37-16]
Neutron-induced background in the CONUS experiment, J. Hakenmuller et al. (CONUS), Eur.Phys.J. C79 (2019) 699, arXiv:1903.09269.
[Hakenmuller:2019ecb]
[37-17]
Future Opportunities in Accelerator-based Neutrino Physics, Andrea Dell'Acqua et al., arXiv:1812.06739, 2018. European Neutrino Town Meeting, Oct 22-24, CERN.
[DellAcqua:2018lky]
[37-18]
PEN experiment: a precise test of lepton universality, C.J. Glaser et al., arXiv:1812.00782, 2018. CIPANP2018.
[PEN:2018kgj]
[37-19]
nuSTORM FFAG Decay Ring, J. B. Lagrange, J. Pasternak, R. B. Appleby, J. M. Garland, H. Owen, S. Tygier, A. Bross, A. Liu, arXiv:1805.04159, 2018. 7th International Particle Accelerator Conference (IPAC 2016): Busan, Korea, May 8-13, 2016. https://inspirehep.net/record/1672755/files/1805.04159.pdf.
[Lagrange:2016okg]
[37-20]
The CENNS-10 Liquid Argon Detector to measure CEvNS at the Spallation Neutron Source, R. Tayloe, COHERENT collaboration, JINST 13 (2018) C04005, arXiv:1801.00086. LIDINE 2017: LIght Detection In Noble Elements, 22-24 September 2017, SLAC National Accelerator Laboratory.
[Tayloe:2017edz]
[37-21]
The Status of CONUS, Werner Maneschg (CONUS), 2018. Neutrino 2018, XXVIII International Conference on Neutrino Physics and Astrophysics, 4-9 June 2018, Heidelberg, Germany, http://doi.org/10.5281/zenodo.1286927. http://doi.org/10.5281/zenodo.1286926.
[Maneschg-Neutrino2018]
[37-22]
Baby MIND: A magnetised spectrometer for the WAGASCI experiment, M. Antonova et al., PoS NuFact2017 (2018) 078, arXiv:1704.08079. NuPhys2016 (London, 12-14 December 2016).
[Antonova:2017thk]
[37-23]
SHiP: a new facility with a dedicated detector for studying $\nu_\tau$ properties and nucleon structure functions, Annarita Buonaura (SHiP), PoS DIS2016 (2016) 260, arXiv:1609.04860. XXIV International Workshop on Deep-Inelastic Scattering and Related Subjects, 11-15 April 2016, DESY Hamburg, Germany.
[Buonaura:2016gho]
[37-24]
The CONNIE experiment, A. Aguilar-Arevalo et al. (CONNIE), J. Phys. Conf. Ser. 761 (2016) 012057, arXiv:1608.01565. XV Mexican Workshop on Particles and Fields and XXX Annual Meeting of the Division of Particles and Fields of the Mexican Physical Society.
[CONNIE:2016ggr]
[37-25]
A non-conventional neutrino beamline for the measurement of the electron neutrino cross section, A. Berra et al., arXiv:1512.08202, 2015. NuFact15.
[Berra:2015rgp]
[37-26]
The CAPTAIN Experiment, Jianming Bian, arXiv:1509.07739, 2015. DPF 2015 Meeting of the American Physical Society Division of Particles and Fields, Ann Arbor, Michigan, August 4-8, 2015.
[Bian:2015qka]
[37-27]
TITUS: An Intermediate Distance Detector for the Hyper-Kamiokande Neutrino Beam, Pierre Lasorak, Nick Prouse (TIITUS Working Group), arXiv:1504.08272, 2015. Prospects in Neutrino Physics Conference, 15 - 17 December, 2014, held at Queen Mary University of London, UK.
[Lasorak:2015eba]
[37-28]
Exploring Neutrino Interactions with MicroBooNE, Tia Miceli, arXiv:1411.4572, 2014. Physics in Collisions 2014.
[Miceli:2014cga]
[37-29]
Improving Dark Matter Searches by Measuring the Nucleon Axial Form Factor: Perspectives from MicroBooNE, Tia Miceli et al. (MicroBooNE), Phys.Procedia 61 (2015) 495-501, arXiv:1406.5204. 13th International Conference on Topics in Astroparticle and Underground Physics, Asilomar, California USA.
[Miceli:2014hva]
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Opportunities for Neutrino Physics at the Spallation Neutron Source: A White Paper, A. Bolozdynya et al., arXiv:1211.5199, 2012. Workshop on Neutrinos at the Spallation Neutron Source, May 2012.
[Bolozdynya:2012xv]
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Results from MINERvA, M. Kordosky, 2012. FNAL, 1 June 2012, Fermilab, Chicago, US. http://theory.fnal.gov/jetp/talks/minerva_results.pdf.
[Minerva-FNAL-120601]
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MicroBooNE, A Liquid Argon Time Projection Chamber (LArTPC) Neutrino Experiment, Teppei Katori (MicroBooNE), AIP Conf. Proc. 1405 (2011) 250-255, arXiv:1107.5112. 7th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt11), Dehradun, India, Mar. 7-11, 2011.
[Katori:2011uq]
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Liquid-Argon Time Projection Chambers in the U.S, M. Soderberg (ArgoNeuT), Acta Phys. Polon. B40 (2009) 2665-2670, arXiv:0910.3553. 45th Winter School in Theoretical Physics 'Neutrino Interactions: from Theory to Monte Carlo Simulations', Ladek-Zdroj, Poland, February 2-11, 2009.
[Soderberg:2009sx]
[37-34]
MicroBooNE: A New Liquid Argon Time Projection Chamber Experiment, M. Soderberg (MicroBooNE), AIP Conf. Proc. 1189 (2009) 83-87, arXiv:0910.3497. 6th International Workshop on Neutrino-Nucleus Interactions in the Few-GeV Region (NuInt09).
[Soderberg:2009rz]
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ArgoNeuT: A Liquid Argon Time Projection Chamber Test in the NuMI Beamline, M. Soderberg (ArgoNeuT), arXiv:0910.3433, 2009. DPF-2009, Detroit, MI, July 2009, eConf C090726.
[Soderberg:2009qt]
[37-36]
The CLEAR Experiment, K. Scholberg et al., arXiv:0910.1989, 2009. DPF-2009, Detroit, MI, July 2009.
[Scholberg:2009ha]
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OscSNS: Precision Neutrino Measurements at the Spallation Neutron Source, Heather Ray (OscSNS), J. Phys. Conf. Ser. 136 (2008) 022029, arXiv:0810.3175. Neutrino 08.
[Ray:2008ea]
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The MINERvA Neutrino Interaction Experiment, Richard Gran, AIP Conf. Proc. 981 (2008) 256-258, arXiv:0711.3029. 9th International Workshop On Neutrino Factories, Superbeams and Betabeams (NuFact07).
[Gran:2007kr]
[37-39]
Neutrino Scattering on Glass: NuSOnG, J. M. Conrad, AIP Conf. Proc. 981 (2008) 243-246, arXiv:0711.0548. NuFact07.
[Conrad:2007ce]
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First results of the two-phase argon avalanche detector performance with CsI photocathode, A. Bondar et al., Nucl.Instrum.Meth. A581 (2007) 241-245, arXiv:physics/0702237. 11th Vienna Conference on Instrumentation, Feb 19-24, 2007.
[Bondar:2007fr]
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Hadron Physics at J-PARC, S. Kumano, Nucl. Phys. A782 (2007) 442-449, arXiv:hep-ph/0608105. Fifth International Conference on Perspectives in Hadronic Physics: Particle-Nucleus and Nucleus-Nucleus Scattering at Relativistic Energies, May 22-26, 2006, Trieste, Italy.
[Kumano:2006xs]
[37-42]
The Design and Performance of the MINERvA Detector, H. Budd, Int. J. Mod. Phys. A20 (2005) 3073, arXiv:hep-ex/0503024. DPF04.
[Budd:2005ga]
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Towards Coherent Neutrino Detection Using Low-Background Micropattern Gas Detectors, P. Barbeau, J.I. Collar, J. Miyamoto, I. Shipsey, Ieee Trans. Nucl. Sci. 50 (2003) 1285, arXiv:hep-ex/0212034. 2002 IEEE Nuclear Science Symposium and Medical Imaging Conference, Norfolk VA, November 10-16.
[Barbeau:2002fg]

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