Electromagnetic Interactions of Neutrinos

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References

1 - Books

[1-1]
Neutrinos in particle physics, astronomy and cosmology, Zhi-zhong Xing, Shun Zhou, Zhejiang University Press, Hangzhou, 2011. ISBN 978-7308080248. http://www.zjupress.com/en/redir.php?catalog_id=64&book_id=1446.
[Xing:2011zza]
[1-2]
Massive Neutrinos in Physics and Astrophysics, R. N. Mohapatra, P. B. Pal, World Scientific, 2004. Third Edition, Lecture Notes in Physics, Vol. 72. http://www.worldscientific.com/books/physics/5024.html.
[Mohapatra:2004]
[1-3]
Physics of neutrinos and applications to astrophysics, M. Fukugita, T. Yanagida, Springer, 2003. http://www.springeronline.com/sgw/cda/frontpage/0,11855,5-10100-22-2258836-0,00.html.
[Fukugita:2003en]
[1-4]
Stars as laboratories for fundamental physics: The astrophysics of neutrinos, axions, and other weakly interacting particles, G.G. Raffelt, University of Chicago Press, 1996. ISBN 0-226-70272-3. http://wwwth.mpp.mpg.de/members/raffelt/pages/mybook.html.
[Raffelt:1996wa]

2 - Reviews

[2-1]
Taiwan EXperiment On NeutrinO - History, Status and Prospects, Henry Tsz-King Wong, The Universe 3 (2015) 22-37, arXiv:1608.00306.
[Wong:2016lmb]
[2-2]
Electromagnetic neutrinos in terrestrial experiments and astrophysics, Carlo Giunti, Konstantin A. Kouzakov, Yu-Feng Li, Alexey V. Lokhov, Alexander I. Studenikin et al., Annalen Phys. 528 (2016) 198-215, arXiv:1506.05387.
[Giunti:2015gga]
[2-3]
Majorana neutrinos and other Majorana particles: Theory and experiment, Evgeny Akhmedov, arXiv:1412.3320, 2014.
[Akhmedov:2014kxa]
[2-4]
Theory of neutrino-atom collisions: the history, present status and BSM physics, Konstantin A. Kouzakov, Alexander I. Studenikin, Adv.High Energy Phys. 2014 (2014) 569409, arXiv:1406.4999.
[Kouzakov:2014lka]
[2-5]
Neutrino electromagnetic interactions: a window to new physics, Carlo Giunti, Alexander Studenikin, Rev.Mod.Phys. 87 (2015) 531, arXiv:1403.6344.
[Giunti:2014ixa]
[2-6]
Electromagnetic Properties of Neutrinos, C. Broggini, C. Giunti, A. Studenikin, Adv. High Energy Phys. 2012 (2012) 459526, arXiv:1207.3980.
[Broggini:2012df]
[2-7]
Field theory description of neutrino oscillations, Maxim Dvornikov, arXiv:1011.4300, 2010. In 'Neutrinos: Properties, Sources and Detection', ed by. J.P.Greene, (NOVA Science Publishers).
[Dvornikov:2010dc]
[2-8]
Neutrino electromagnetic properties, Carlo Giunti, Alexander Studenikin, Phys. Atom. Nucl. 72 (2009) 2089-2125, arXiv:0812.3646.
[Giunti:2008ve]
[2-9]
Neutrino magnetic moments, H. T. Wong, Hau-Bin Li, Mod. Phys. Lett. A20 (2005) 1103-1117.
[Wong:2005pa]
[2-10]
All electromagnetic form-factors, Marek Nowakowski, E.A. Paschos, J.M. Rodriguez, Eur.J. Phys. 26 (2005) 545-560, arXiv:physics/0402058.
[Nowakowski:2004cv]
[2-11]
Neutrinos and magnetic fields: A Short review, Kaushik Bhattacharya, Palash B. Pal, Proc.Indian Natl.Sci.Acad. 70 (2004) 145-161, arXiv:hep-ph/0212118.
[Bhattacharya:2002aj]
[2-12]
Neutrinos in cosmology, A. D. Dolgov, Phys. Rep. 370 (2002) 333-535, arXiv:hep-ph/0202122.
[Dolgov:2002wy]
[2-13]
Astrophysics probes of particle physics, G. G. Raffelt, Phys. Rept. 333 (2000) 593-618.
[Raffelt:2000kp]
[2-14]
Particle physics from stars, Georg G. Raffelt, Ann.Rev.Nucl.Part.Sci. 49 (1999) 163-216, arXiv:hep-ph/9903472.
[Raffelt:1999tx]
[2-15]
Limits on neutrino electromagnetic properties: An update, G. G. Raffelt, Phys. Rept. 320 (1999) 319-327.
[Raffelt:1999gv]
[2-16]
The Laboratory and astrophysical constraints on the neutrino charge radius, Pierre Salati, Astropart.Phys. 2 (1994) 269-290.
[Salati:1993tf]
[2-17]
On using a neutrino magnetic moment to attack the solar neutrino problem, X. Shi, D.N. Schramm, R. Rosner, D.S. Dearborn, Comments Nucl.Part.Phys. 21 (1993) 151-182.
[Shi:1992ek]
[2-18]
Electric charge quantization, Robert Foot, H. Lew, R. R. Volkas, J. Phys. G19 (1993) 361-372, arXiv:hep-ph/9209259.
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[2-19]
The Solar neutrino problem and the neutrino magnetic moment, Joao Pulido, Phys.Rept. 211 (1992) 167-199.
[Pulido:1991fb]
[2-20]
Astrophysical methods to constrain axions and other novel particle phenomena, Georg G. Raffelt, Phys. Rept. 198 (1990) 1-113.
[Raffelt:1990yz]
[2-21]
Charge quantization in the standard model and some of its extensions, Robert Foot, Girish C. Joshi, H. Lew, R.R. Volkas, Mod.Phys.Lett. A5 (1990) 2721-2732.
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[2-22]
Cosmology and elementary particles, A. D. Dolgov, Ya. B. Zeldovich, Rev. Mod. Phys. 53 (1981) 1-41.
[Dolgov:1981hv]

3 - Reviews - Conference Proceedings

[3-1]
Nuclear Physics and Astrophysics of Neutrino Oscillations, A.B. Balantekin, JPS Conf.Proc. 14 (2017) 010701, arXiv:1609.02207. NIC 2016.
[Balantekin:2016ndb]
[3-2]
Lepton Dipole Moments, Adam West, arXiv:1607.00925, 2016. Physics In Collision 2015.
[West:2016equ]
[3-3]
Status and perspectives of neutrino magnetic moments, Alexander Studenikin, J. Phys. Conf. Ser. 718 (2016) 062076, arXiv:1603.00337. 14th International Conference on Topics in Astroparticle and Underground Physics (Turin, Italy, September 7-11, 2015).
[Studenikin:2016ykv]
[3-4]
Neutrino magnetic moment, millicharge and charge radius, Konstantin A. Kouzakov, Alexander I. Studenikin, Nucl. Part. Phys. Proc. 265-266 (2015) 323-326, arXiv:1503.01403. NOW 2014.
[Kouzakov:2015qaa]
[3-5]
Electromagnetic neutrino: a short review, Alexander I. Studenikin, Nucl.Part.Phys.Proc. 273-275 (2016) 1711-1718, arXiv:1412.3144. XXXVII International Conference on High Energy Physics, Valencia, Spain, 2-9 July 2014.
[Studenikin:2014exa]
[3-6]
Neutrino electromagnetic properties and new physics, Alexander Studenikin, Ilya Tokarev, PoS EPS-HEP2013 (2014) 531, arXiv:1312.7365. 2013 European Physical Society Conference on High Energy Physics (EPS-HEP 2013), 18-24 July 2013, Stockholm, Sweden.
[Studenikin:2013saa]
[3-7]
Neutrino electromagnetic properties and new bounds on neutrino magnetic moments, Konstantin A. Kouzakov, Alexander I. Studenikin, Mikhail B. Voloshin, J. Phys. Conf. Ser. 375 (2012) 042045, arXiv:1112.4050. XII International Conference on Topics in Astroparticle and Underground Physics (TAUP 2011), Munich 5-9 September 2011.
[Kouzakov:2011mt]
[3-8]
Electromagnetic properties of neutrinos, Carlo Giunti, Alexander Studenikin, J. Phys. Conf. Ser. 203 (2010) 012100, arXiv:1006.1502. International Conference on Topics in Astroparticle and Underground Physics, Rome (Italy), July 1-5, 2009.
[Giunti:2010zz]
[3-9]
Neutrino magnetic moment: a window to new physics, Alexander Studenikin, Nucl. Phys. Proc. Suppl. 188 (2009) 220-222, arXiv:0812.4716. Neutrino Oscillation Workshop, Conca Specchiulla (Otranto, Italy) September 6-13, 2008.
[Studenikin:2008bd]
[3-10]
Reactor Neutrino Experiments, Jun Cao, arXiv:0712.0897, 2007. XXIII International Symposium on Lepton and Photon Interactions at High Energy (LP07), 13-18 Aug 2007, Daegu, Korea.
[Cao:2007qv]
[3-11]
Neutrino magnetic moment, A.B. Balantekin, AIP Conf.Proc. 847 (2006) 128-133, arXiv:hep-ph/0601113.
[Balantekin:2006sw]
[3-12]
Recent Results of non-accelarator-based neutrino experiments, Yifang Wang, Int. J. Mod. Phys. A20 (2005) 5244, arXiv:hep-ex/0411028. '32nd International Conference on High Energy Physics', Aug. 16-22, 2004, Beijing, P.R. China.
[Wang:2004wu]
[3-13]
Neutrino Magnetic Moments: Status and Prospects, Henry T. Wong, Nucl. Phys. Proc. Suppl. 143 (2005) 205, arXiv:hep-ex/0409003. XXIst International Conference on Neutrino Physics and Astrophysics, Paris, 2004.
[Wong:2004sp]
[3-14]
Neutrino Physics - Theory, W. Grimus, Lect. Notes Phys. 629 (2004) 169, arXiv:hep-ph/0307149. 41 Internationale Universitatswochen fur Theoretische Physik, Flavour Physics, Schladming, Styria, Austria, February 22-28, 2003.
[Grimus:2003es]
[3-15]
The neutrino magnetic moment and time variations of the solar neutrino flux, E. Kh. Akhmedov, arXiv:hep-ph/9705451, 1997. Fourth International Solar Neutrino Conference, Heidelberg, Germany, 8-11 Apr 1997.
[Akhmedov:1997yv]

4 - Experiment

[4-1]
The PVLAS experiment: measuring vacuum magnetic birefringence and dichroism with a birefringent Fabry-Perot cavity, F. Della Valle et al., Eur. Phys. J. C76 (2016) 24, arXiv:1510.08052.
[DellaValle:2015xxa]
[4-2]
First results from the new PVLAS apparatus: a new limit on vacuum magnetic birefringence, F. Della Valle et al., arXiv:1406.6518, 2014.
[1406.6518]
[4-3]
Gemma experiment: The results of neutrino magnetic moment search, A.G. Beda, V.B. Brudanin, V.G. Egorov, D.V. Medvedev, V.S. Pogosov et al., Phys.Part.Nucl.Lett. 10 (2013) 139-143.
[Beda:2013mta]
[4-4]
The results of search for the neutrino magnetic moment in GEMMA experiment, A.G. Beda, V.B. Brudanin, V.G. Egorov, D.V. Medvedev, V.S. Pogosov et al., Adv.High Energy Phys. 2012 (2012) 350150.
[Beda:2012zz]
[4-5]
Study of solar and other unknown anti-neutrino fluxes with Borexino at LNGS, G. Bellini (Borexino), Phys. Lett. B696 (2011) 191-196, arXiv:1010.0029.
[Bellini:2010gn]
[4-6]
Upper limit on the neutrino magnetic moment from three years of data from the GEMMA spectrometer, A. G. Beda et al. (GEMMA), arXiv:1005.2736, 2010.
[Beda:2010hk]
[4-7]
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.
[Deniz:2009mu]
[4-8]
GEMMA experiment: three years of the search for the neutrino magnetic moment, A. G. Beda et al. (GEMMA), Phys. Part. Nucl. Lett. 7 (2010) 406-409, arXiv:0906.1926.
[Beda:2009kx]
[4-9]
A neutrino experiment at the Krasnoyarsk underground reactor, V. I. Aleshin et al., Instrum. Exp. Tech. 51 (2008) 499-505.
[Aleshin:2008zz]
[4-10]
The first result of the neutrino magnetic moment measurement in the GEMMA experiment, A. G. Beda et al. (GEMMA), Phys. Atom. Nucl. 70 (2007) 1873-1884, arXiv:0705.4576.
From the abstract: The upper limit for the neutrino magnetic moment is $\mu_\nu < 5.8\times 10^{-11}$ Bohr magnetons at 90\% CL.
[Beda:2007hf]
[4-11]
A Search of Neutrino Magnetic Moments with a High-Purity Germanium Detector at the Kuo-Sheng Nuclear Power Station, H. T. Wong et al. (TEXONO), Phys. Rev. D75 (2007) 012001, arXiv:hep-ex/0605006.
From the abstract: The limit on the neutrino magnetic moments of $\mu_\nu < 7.4\times 10^{-11}$ Bohr magnetons at 90\% CL was derived.
[Wong:2006nx]
[4-12]
Final results on the neutrino magnetic moment from the MUNU experiment, Z. Daraktchieva et al. (MUNU), Phys. Lett. B615 (2005) 153, arXiv:hep-ex/0502037.
From the abstract: ... a new upper limit on the neutrino magnetic moment $\mu_e^{\text{short}} < 9 \times 10^{-11} \mu_B $ at 90\% C.L. was derived.
[Daraktchieva:2005kn]
[4-13]
Production of Electron Neutrinos at Nuclear Power Reactors and the Prospects for Neutrino Physics, B. Xin et al. (TEXONO), Phys. Rev. D72 (2005) 012006, arXiv:hep-ex/0502001.
[Xin:2005ky]
[4-14]
Limit On the Neutrino Magnetic Moment Using 1496 Days of Super-Kamiokande-I Solar Neutrino Data, D. W. Liu et al. (Super-Kamiokande), Phys. Rev. Lett. 93 (2004) 021802, arXiv:hep-ex/0402015.
[Liu:2004ny]
[4-15]
Limits on the neutrino magnetic moment from the MUNU experiment, Z. Daraktchieva et al. (MUNU), Phys. Lett. B564 (2003) 190, arXiv:hep-ex/0304011.
From the article: ... it seems safe at this stage to restrict the analysis at electron energies above 900 keV. Then the following limit on the electron neutrino magnetic moment $\mu_e$ is obtained: $\mu_{e} < 1.0 \times 10^{-10} \mu_B$ at 90% C.L.
[Daraktchieva:2003dr]
[4-16]
New limits on neutrino magnetic moments from the Kuo-Sheng reactor neutrino experiment, H. B. Li (TEXONO), Phys. Rev. Lett. 90 (2003) 131802, arXiv:hep-ex/0212003.
From the abstract: An upper limit to the antineutrino magnetic moment of $1.3 \times 10^{-10}$ Bohr magnetons is obtained at 90% C.L.
[Li:2002pn]
[4-17]
A new measurement of the $\bar\nu_e$-$e^-$ elastic cross section at very low energy, C. Amsler et al. (MUNU), Phys. Lett. B545 (2002) 57-61.
From the article: An upper limit to the antineutrino magnetic moment of $2.3 \times 10^{-10}$ bohr magnetons is obtained at 90% C.L. We observe that our result is in agreement with the one of Reines et collaborators. Actually the analysis of Vogel and Engel shows that they also got a result $1-2\sigma$ above the weak prediction.
[Amsler:2002tu]
[4-18]
Experimental study of electromagnetic properties of the muon-neutrino in neutrino - electron scattering, P. Vilain et al. (CHARM-II), Phys. Lett. B345 (1995) 115-118.
[Vilain:1994hm]
[4-19]
Study of electron-neutrino electron elastic scattering at LAMPF, R.C. Allen, H.H. Chen, P.J. Doe, R. Hausammann, W.P. Lee et al., Phys. Rev. D47 (1993) 11-28.
[Allen:1992qe]
[4-20]
Experiment on anti-neutrino scattering by electrons at a reactor of the Rovno nuclear power plant, A. I. Derbin et al. (Rovno), JETP Lett. 57 (1993) 768-772.
From the article: An upper limit to the antineutrino magnetic moment of $1.9 \times 10^{-10}$ bohr magnetons is obtained at 90% C.L.
[Derbin:1993wy]
[4-21]
Limitations on the magnetic moment and charge radius of the electron-anti-neutrino, G. S. Vidyakin, V. N. Vyrodov, I. I. Gurevich, Yu. V. Kozlov, V. P. Martemyanov, S. V. Sukhotin, V. G. Tarasenkov, E. V. Turbin, S. Kh. Khakhimov, JETP Lett. 55 (1992) 206-210. [Pisma Zh. Eksp. Teor. Fiz. 55, 212 (1992)].
[Vidyakin:1992nf]
[4-22]
Experimental bound on the charge radius of the electron neutrino, R.C. Allen, H.H. Chen, P.J. Doe, R. Hausamann, W.P. Lee et al., Phys. Rev. D43 (1991) 1-3.
[Allen:1990xn]
[4-23]
Determination of electroweak parameters from the elastic scattering of muon-neutrinos and anti-neutrinos on electrons, L.A. Ahrens, S.H. Aronson, P.L. Connolly, B.G. Gibbard, M.J. Murtagh et al., Phys. Rev. D41 (1990) 3297-3316.
[Ahrens:1990fp]
[4-24]
Detection of anti-electron-neutrino e Scattering, F. Reines, H.S. Gurr, H.W. Sobel, Phys. Rev. Lett. 37 (1976) 315-318.
[Reines:1976pv]
[4-25]
Neutrino magnetic moment upper limit, C.L. Cowan, F. Reines, Phys. Rev. 107 (1957) 528-530.
[Cowan:1957pp]
[4-26]
Upper limit on the neutrino magnetic moment, C.L. Cowan, F. Reines, F.B. Harrison, Phys. Rev. 96 (1954) 1294.
[Cowan:1954pq]

5 - Experiment - Conference Proceedings

[5-1]
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]
[5-2]
Studies of Neutrino-Electron Scattering at the Kuo-Sheng Reactor Neutrino Laboratory, M. Deniz, H.T. Wong (TEXONO), arXiv:0810.0809, 2008. ICHEP08, Philadelphia, USA, July 2008.
[Deniz:2008rw]
[5-3]
MUNU final results, Zornitza Daraktchieva, MUNU (MUNU), Nucl. Phys. Proc. Suppl. 221 (2011) 62-66, arXiv:0808.1366. Neutrino 2006 Santa Fe, New Mexico.
[Daraktchieva:2008gb]
[5-4]
The new result of the neutrino magnetic moment measurement in the GEMMA experiment, A.G. Beda, V.B. Brudanin, E.V. Demidova, V.G. Egorov, M.G. Gavrilov et al., 2007. 13th Lomonosov Conference on Elementary Particle Physics, 23-29 Aug 2007, Moscow, Russia.
[Beda:2007zz]
[5-5]
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]
[5-6]
Low Energy Neutrino Physics at the Kuo-Sheng Reactor Neutrino Laboratory in Taiwan, H. T. Wong (TEXONO), Nucl. Phys. Proc. Suppl. 138 (2005) 333, arXiv:hep-ex/0311001. TAUP-2003, September 2003, Seattle.
[Wong:2003xj]
[5-7]
Highlights of the TEXONO Research Program on Neutrino and Astroparticle Physics, H. T. Wong, J. Li, Z. Y. Zhou (TEXONO), arXiv:hep-ex/0307001, 2003. International Symposium on Neutrino and Dark Matter in Nuclear Physics (NDM03), Nara, Japan, June 9-14, 2003.
[Wong:2003ht]
[5-8]
The new limit for the magnetic moment of the electron antineutrino from the MUNU experiment, Z. Daraktchieva et al. (MUNU), arXiv:hep-ex/0305057, 2003. XXXVIII Rencontre De Moriond: Electroweak Interactions and Unified Theories, Les Arcs, France, March 15-22, 2003.
[Daraktchieva:2003pw]
[5-9]
Status on the searches of neutrino magnetic moment at the Kuo-Sheng power reactor, H. T. Wong (TEXONO), arXiv:hep-ex/0209003, 2002. International Conference on High Energy Physics, 2002.
[Wong:2002ub]

6 - Experiment - Detector

[6-1]
Low energy tracking and particles identification in the MUNU Time Projection Chamber at 1 bar. Possible application in low energy solar neutrino spectroscopy, Z. Daraktchieva et al. (MUNU), J. Phys. G35 (2008) 125107, arXiv:0710.1049.
[Daraktchieva:2007gz]

7 - Theory

[7-1]
Non-cyclic geometric phases and helicity transitions for neutrino oscillations in magnetic field, Sandeep Joshi, Sudhir R. Jain, arXiv:1703.05027, 2017.
[1703.05027]
[7-2]
Electromagnetic properties of massive neutrinos in low-energy elastic neutrino-electron scattering, Konstantin A. Kouzakov, Alexander I. Studenikin, arXiv:1703.00401, 2017.
[Kouzakov:2017hbc]
[7-3]
Transition Radiation by Neutrinos at an Edge of Magnetic Field, A. Ioannisian, N. Kazarian, arXiv:1702.00943, 2017.
[Ioannisian:2017mqy]
[7-4]
Geometric phase of neutrinos in matter and in magnetic field: differences between Dirac and Majorana neutrinos, A. Capolupo, S.M. Giampaolo, B. C. Hiesmayr, G. Vitiello, arXiv:1610.08679, 2016.
[Capolupo:2016idi]
[7-5]
Decay of photon with high as well as low energy, Indranath Bhattacharyya, arXiv:1606.03083, 2016.
[Bhattacharyya:2016qwa]
[7-6]
Towards the detecting of pseudo-Hermitian anomalies for negative square masses neutrinos in intensive magnetic fields, Vasily Rodionov, arXiv:1603.08425, 2016.
[1603.08425]
[7-7]
Geometric phase for neutrino propagation in magnetic field, Sandeep Joshi, Sudhir R. Jain, Phys. Lett. B754 (2016) 135-138, arXiv:1601.05255.
[Joshi:2016unj]
[7-8]
Neutrino spin and dispersion in magnetized medium, P.A. Eminov, Adv. High Energy Phys. 2016 (2016) 2523062, arXiv:1510.03280.
[Eminov:2015uwa]
[7-9]
Triangle Inequalities for Majorana-Neutrino Magnetic Moments, Jean-Marie Frere, Julian Heeck, Simon Mollet, Phys. Rev. D92 (2015) 053002, arXiv:1506.02964.
[Frere:2015pma]
[7-10]
Magnetic Dipole Moment of Neutrino, Samina S. Masood, arXiv:1506.01284, 2015.
[Masood:2015pha]
[7-11]
Nonlinear neutrino-photon interactions inside strong laser pulses, Sebastian Meuren, Christoph H. Keitel, Antonino Di Piazza, JHEP 1506 (2015) 127, arXiv:1504.02722.
[Meuren:2015iha]
[7-12]
Radiative emission of neutrino pair free of quantum electrodynamic backgrounds, M. Yoshimura, N. Sasao, M. Tanaka, PTEP 2015 (2015) 053B06, arXiv:1501.05713.
[Yoshimura:2015fna]
[7-13]
Generalized two-point tree-level amplitude $jf \to j^{\, \prime} f^{\, \prime}$ in a magnetized medium, A.V. Kuznetsov, D.A. Rumyantsev, D.M. Shlenev, Int.J.Mod.Phys. A30 (2015) 1550049, arXiv:1501.03482.
[Kuznetsov:2015nea]
[7-14]
Radiative decay of keV-mass sterile neutrinos in a strongly magnetized plasma, Alexandra A. Dobrynina, Nicolay V. Mikheev, Georg G. Raffelt, Phys. Rev. D90 (2014) 113015, arXiv:1410.7915.
[Dobrynina:2014zza]
[7-15]
A study of neutral particle decay in magnetic field with the 'Worldline Instanton' approach, Petr Satunin, JETP Lett. 101 (2015) 657-663, arXiv:1407.6527.
[Satunin:2014toa]
[7-16]
Instantaneous Power Radiated from Magnetic Dipole Moments, Peter D. Morley, Douglas J. Buettner, Astropart.Phys. 62 (2014) 7-11, arXiv:1407.1274.
[Morley:2014pja]
[7-17]
Creation of electron-positron pairs at excited Landau levels by neutrino in a strong magnetic field, A.V. Kuznetsov, D.A. Rumyantsev, V.N. Savin, Int.J.Mod.Phys. A29 (2014) 1450136, arXiv:1406.3904.
[Kuznetsov:2014rba]
[7-18]
Spin light of electron in dense neutrino fluxes, Ilya Balantsev, Alexander Studenikin, arXiv:1405.6598, 2014.
[Balantsev:2014bfa]
[7-19]
U'(1) Neutrino Interaction at Very Low Energies, J. Gamboa, arXiv:1402.4537, 2014.
[Gamboa:2014nfa]
[7-20]
Magnetic moments of active and sterile neutrinos, A.B. Balantekin, N. Vassh, Phys. Rev. D89 (2014) 073013, arXiv:1312.6858.
[Balantekin:2013sda]
[7-21]
Electromagnetic properties of spin-3/2 Majorana particles, Jose F Nieves, Phys. Rev. D 88, 036006 (2013) 036006, arXiv:1308.5889.
[Nieves:2013csa]
[7-22]
Role of Magnetic Interaction in Dense Plasma, S. Sarkar, K. Pal, A. K. Dutt-Mazumder, Advances in High Energy Physics, 530895 (2013) 530895, arXiv:1307.5682.
[Sarkar:2013nza]
[7-23]
Neutrino spin oscillations in matter under the influence of gravitational and electromagnetic fields, Maxim Dvornikov, JCAP 1306 (2013) 015, arXiv:1306.2659.
[Dvornikov:2013pta]
[7-24]
Gauge Independence of Magnetic Moment and Vanishing Charge of Dirac Neutrinos: an Exact One-loop Demonstration, Wen-Tao Hou, Yi Liao, Hong-Jun Liu, Phys. Rev. D 87, 073001 (2013) 073001, arXiv:1302.3667.
[Hou:2013ola]
[7-25]
Motion of a charged fermion with an anomalous magnetic moment in magnetized media, I.A. Balantsev, A.I. Studenikin, I.V. Tokarev, Phys.Atom.Nucl. 76 (2013) 489-503.
[Balantsev:2013aya]
[7-26]
Decay of a massive neutrino in magnetized electron gas, Alexei I. Ternov, Pavel A. Eminov, Phys. Rev. D87 (2013) 113001.
[Ternov:2013ana]
[7-27]
Creation of neutral fermions with anomalous magnetic moments from a vacuum by inhomogeneous magnetic field, S.P. Gavrilov, D.M. Gitman, Physical Review D 87, 125025 (2013) 125025, arXiv:1211.6776.
[Gavrilov:2012aw]
[7-28]
Canonical quantization, path integral representations, and pseudoclassical description of massive Weyl neutrinos in external backgrounds, Maxim Dvornikov, D.M. Gitman, Phys. Rev. D87 (2013) 025027, arXiv:1211.5367.
[Dvornikov:2012ah]
[7-29]
Millicharged neutrino with anomalous magnetic moment in rotating magnetized matter, Alexander Studenikin, Ilya Tokarev, Nucl. Phys. B884 (2014) 396, arXiv:1209.3245.
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Production of single plasmons and photons by neutrinos in a medium, R.F. Sawyer, Phys. Rev. D46 (1992) 1180-1185.
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Charge quantization, exotic fermions and some extensions of the standard model, Robert Foot, Int.J.Mod.Phys. A6 (1991) 1467-1479.
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Resonant Enhancement of Neutrino Oscillations in Longitudinal Magnetic Field, Evgeny K. Akhmedov, M.Yu. Khlopov, Sov.J.Nucl. Phys. 47 (1988) 689-691.
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[7-174]
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[7-177]
Polarization loss and induced electric charge of neutrinos in plasmas, V.N. Oraevsky, V.B. Semikoz, Ya.A. Smorodinsky, JETP Lett. 43 (1986) 709-712.
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[7-178]
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Comments on the electromagnetic properties of Majorana fermions, E.E. Radescu, Phys. Rev. D32 (1985) 1266.
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Radiative Decays of Massive Neutrinos, Palash B. Pal, Lincoln Wolfenstein, Phys. Rev. D25 (1982) 766.
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Majorana Neutrinos and their Electromagnetic Properties, Boris Kayser, Phys. Rev. D26 (1982) 1662.
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The Processes $\mu \to e \gamma$, $\mu \to e e \bar{e}$, $\nu' \to \nu \gamma$ in the Weinberg-Salam Model with Neutrino Mixing, S.T. Petcov, Sov. J. Nucl. Phys. 25 (1977) 340. Errata: ibid 25 (1977) 698; ibid 25 (1977) 1336.
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Natural Suppression of Symmetry Violation in Gauge Theories: Muon - Lepton and Electron Lepton Number Nonconservation, Benjamin W. Lee, Robert E. Shrock, Phys. Rev. D16 (1977) 1444.
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On the $\gamma \to \nu \bar\nu$ and $\nu \to \gamma \nu$ Reactions in Strong Magnetic Fields, V.V Skobelev, Zh.Eksp.Teor.Fiz. 71 (1976) 1263-1267.
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Neutrino Magnetic Moment, Plasmon Cherenkov Radiation, and the Solar Neutrino Problem, Mark Radomski, Phys. Rev. D12 (1975) 2208-2211.
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Electromagnetic Interaction of Neutrinos in Gauge Theories of Weak Interactions, V. K. Cung, M. Yoshimura, Nuovo Cim. A29 (1975) 557.
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Neutrino charge radius in a model of weak and electromagnetic interactions, Gordon J. Aubrecht, K. Tanaka, Phys. Rev. D10 (1974) 3522-3525.
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Electromagnetic radius of the neutrino, L. F. Landovitz, W. Schreiber, Phys. Rev. D7 (1973) 3014-3017.
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Static quantities in Weinberg's model of weak and electromagnetic interactions, William A. Bardeen, R. Gastmans, B.E. Lautrup, Nucl. Phys. B46 (1972) 319-331.
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Photoneutrino Processes in a Strong Field, D. V. Galtsov, N. S. Nikitina, Sov. Phys. JETP 35 (1972) 1047. [Zh. Eksp. Teor. Fiz. 62, 2008 (1972)].
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Radiative corrections in quantum electrodynamics with intense field and their analytical properties, V.I. Ritus, Annals Phys. 69 (1972) 555-582.
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8 - Theory - Conference Proceedings

[8-1]
Electromagnetic Properties of a Hot and Dense Medium, Samina Masood, arXiv:1611.03675, 2016. ICHEP 2016.
[Masood:2016kjr]
[8-2]
Neutrino spin and spin-flavour oscillations in transversally moving or polarized matter, Alexander Studenikin, arXiv:1610.06563, 2016. 27th International Conference on Neutrino Physics and Astrophysics (South Kensington, London, UK, July 4-9 2016).
[Studenikin:2016iwq]
[8-3]
Instability of strong magnetic field and neutrino magnetic dipole moment, Hyun Kyu Lee, arXiv:1610.05647, 2016. 14th Italian-Korean Symposium on Relativistic Astrophysics, Pescara, July 20-24.
[Lee:2016ylx]
[8-4]
Non-Hermitian ${\cal PT}$-symmetric relativistic quantum theory in an intensive magnetic field, V.N. Rodionov, Springer Proc.Phys. 184 (2016) 357-369, arXiv:1603.07443. XVth conference on Pseudo-Hermitian Hamiltonians in Quantum Physics that was held in Palermo (Italy).
[Rodionov:2016tyf]
[8-5]
Neutrino processes $\nu\bar\nu\to e^- e^+$ and $\nu\to \nue^- e^+$ in a strong magnetic field, A.V. Kuznetsov, D.A. Rumyantsev, V.N. Savin, J. Phys. Conf. Ser. 675 (2016) 032019, arXiv:1511.00907. International Conference on Particle Physics and Astrophysics, Moscow, MEPhI, October 5-10, 2015.
[Kuznetsov:2015eqt]
[8-6]
Neutrino electromagnetic properties: new approach to oscillations in magnetic fields, Alexander Dmitriev, Riccardo Fabbricatore, Alexander Studenikin, PoS CORFU2014 (2015) 050, arXiv:1506.05311. Summer School on Standard Model and Beyond in the Corfu Summer Institute 2014.
[Dmitriev:2015ega]
[8-7]
Spin light of relativistic electrons in neutrino fluxes, Ilya A. Balantsev, Alexander I. Studenikin, Int. J. Mod. Phys. A30 (2015) 1530044, arXiv:1502.05346. XXXVII International Conference on High Energy Physics, Valencia, Spain, 2-9 July 2014.
[Balantsev:2014lba]
[8-8]
Neutrinoless double beta decay mediated by the neutrino magnetic moment, Marek Gozdz, Wieslaw A. Kaminski, Acta Phys.Polon. B47 (2016) 1245, arXiv:1411.1877. XXI Nuclear Physics Workshop, Kazimierz (Poland) 2014.
[Gozdz:2014gna]
[8-9]
Plasmon decay to a neutrino pair via neutrino electromagnetic moments in a strongly magnetized medium, A. V. Borisov, P. E. Sizin, BOOK (2015) 122-124, arXiv:1406.3301. 16th Lomonosov Conference on Elementary Particle Physics, Moscow State University, Moscow, Russia, August 2013.
[Borisov:2014cqa]
[8-10]
New bounds on neutrino magnetic moment and re-examination of plasma effect in neutrino spin light, A. V. Grigoriev, A. V. Lokhov, A. I. Studenikin, A. I. Ternov, Nuovo Cim. C035N1 (2012) 57-62, arXiv:1112.5263. 25th Rencontres de Physique de la Vallee d'Aoste on 'Results and Perspectives in Particle Physics', La Thuile, February 27 - March 5, 2011.
[Grigoriev:2011rq]
[8-11]
Massive Majorana neutrinos in matter and a magnetic field, Maxim Dvornikov, arXiv:1110.5859, 2011. 15th International Baksan School 'Particles and Cosmology - 2011'.
[Dvornikov:2011tu]
[8-12]
Electromagnetic neutrino-atom collisions: The role of electron binding, Konstantin A. Kouzakov, Alexander I. Studenikin, Nucl. Phys. Proc. Suppl. 217 (2011) 353-356, arXiv:1108.2872. NOW2010.
[Kouzakov:2011ig]
[8-13]
Transition Radiation by Standard Model Neutrinos at an Interface, A.N. Ioaniaian, D.A. Ioanniaian, N.A. Kazarian, arXiv:1106.2285, 2011. XLVIth Rencontres de Moriond EW 2011.
[Ioaniaian:2011gv]
[8-14]
Electrically Millicharged Neutrino in Media, I. Balantsev, A. Studenikin, Nucl. Phys. Proc. Suppl. 229-232 (2012) 542, arXiv:1012.3653. XXIV International Conference on Neutrino Physics and Astrophysics (14-19 June 2010, Athens, Greece).
[Balantsev:2010cy]
[8-15]
Neutrino electromagnetic properties and magnetic moment induced transition of neutrino between different mass states, A. Grigoriev, A. Lokhov, A. Studenikin, A. Ternov, Nucl. Phys. Proc. Suppl. 229-232 (2012) 447, arXiv:1012.3067. XXIV International Conference on Neutrino Physics and Astrophysics (14-19 June 2010, Athens, Greece).
[Grigoriev:2010ni]
[8-16]
Neutrino magnetic moment in a magnetized plasma, N.V. Mikheev, E.N. Narynskaya, Phys. Atom. Nucl. 73 (2010) 2133-2138, arXiv:1011.1779. XVI International Seminar Quarks'2010, Kolomna, Moscow Region, June 6-12, 2010.
[Mikheev:2010yj]
[8-17]
A decay of the ultra-high-energy neutrino $\nu_e \to e^- W^+$ in a magnetic field and its influence on the shape of the neutrino spectrum, A.V. Kuznetsov, N.V. Mikheev, A.V. Serghienko, arXiv:1010.0582, 2010. XVI International Seminar Quarks'2010, Kolomna, Moscow Region, June 6-12, 2010.
[Kuznetsov:2010rg]
[8-18]
Spin light in neutrino transition between different mass states, Alexander Grigoriev, Alexey Lokhov, Alexander Studenikin, Alexei Ternov, arXiv:1003.0630, 2010. 9th Conference on Quantum Field Theory Under the Influence of External Conditions (Univ. of Oklahoma, Norman, OK USA, September 21-25, 2009).
[Grigoriev:2010uk]
[8-19]
Spin light mode of massive neutrino radiative decay in matter, Alexander Grigoriev, Alexey Lokhov, Alexander Studenikin, arXiv:1001.0101, 2010. 21st Rencontres de Blois (France), June 21-26, 2009.
[Grigoriev:2010ti]
[8-20]
Neutrino magnetic moment and neutrino energy quantization in rotating media, I. Balantsev, Yu. Popov, A. Studenikin, Nuovo Cim. 032C (2009) 53-61, arXiv:0906.2391. XXIII Recontres de Physique de la Vallee D'Aoste on 'Results and Perspectives in Particle Physics' (La Thuile, Italy, March 1-7, 2009).
[Balantsev:2009fd]
[8-21]
Neutrino dispersion in magnetized plasma, N. V. Mikheev, E. N. Narynskaya, arXiv:0812.0519, 2008. XV International Seminar Quarks'2008, Sergiev Posad, Moscow Region, May 23-29, 2008.
[Mikheev:2008sy]
[8-22]
Neutrinos, Electrons and Muons in Electromagnetic Fields and Matter: The Method of Exact Solutions, Konstantin A. Kouzakov, Alexander I. Studenikin, arXiv:0808.3046, 2008. XXth Rencontres de Blois 2008.
[Kouzakov:2008rh]
[8-23]
Spin Effects for Neutrinos and Electrons Moving in Dense Matter, A.V. Grigoriev, A.M. Savochkin, A.I. Studenikin, A.I. Ternov, arXiv:0804.2829, 2008. XII Workshop On High Energy Spin Physics (DSPIN-07), September 3-7, 2007, JINR, Dubna, Russia.
[Grigoriev:2008zq]
[8-24]
Method of wave equations exact solutions in studies of neutrinos and electrons interaction in dense matter, Alexander Studenikin, J. Phys. A41 (2008) 164047, arXiv:0804.1417. Workshop on Quantum Field Theory under the Influence of Extrenal Conditions (QFEXT'07), Univ. of Leipzig, September 17-21, 2007.
[Studenikin:2008qk]
[8-25]
Neutrino self-energy in a magnetized charge-symmetric medium, Alberto Bravo Garcia, Kaushik Bhattacharya, Sarira Sahu, AIP Conf. Proc. 1026 (2008) 121-126, arXiv:0711.2046. XI Mexican workshop on particles and fields 2007.
[BravoGarcia:2007vi]
[8-26]
Neutrinos and electrons in background matter, Alexander Studenikin, Nuclear Physics B (Proc. Suppl. ) 221 (2011) 400, arXiv:hep-ph/0611104. Neutrino 2006 Conference, June 2006, Santa Fe, New Mexico.
[Studenikin:2006jv]
[8-27]
Spin light of electron in matter, Alexander Grigoriev et al., arXiv:hep-ph/0611103, 2006. 12th Lomonosov Conference on Elementary Particle Physics, August 2005, Moscow.
[Grigoriev:2006ju]
[8-28]
Spin light of neutrino in matter: a new type of electromagnetic radiation, Alexander Grigoriev, Andrey Lobanov, Alexander Studenikin, Alexei Ternov, arXiv:hep-ph/0610294, 2006. 14th International Seminar on High Energy Physics 'Quarks-2006' (St. Petersburg, Repino, May 19-25, 2006).
[Kuznetsov:2006yr]
[8-29]
Neutrino dispersion in external magnetic field and plasma, A.V. Kuznetsov, N.V. Mikheev, arXiv:hep-ph/0606259, 2006. XIV International Seminar Quarks'2006, St.-Petersburg, Repino, Russia, May 19-25, 2006.
[Kuznetsov:2006cf]
[8-30]
Neutrino propagation in magnetized plasma, A.V. Kuznetsov, N.V. Mikheev, arXiv:hep-ph/0605114, 2006. XL PNPI Winter School on Nuclear and Particle Physics and XII St. Petersburg School on Theoretical Physics, St. Petersburg, Repino, Russia, February 20-26, 2006.
[Grigoriev:2006dx]
[8-31]
Magnetic Moments of Dirac Neutrinos, Nicole F. Bell et al., AIP Conf. Proc. 842 (2006) 874-876, arXiv:hep-ph/0601005. PANIC'05.
[Bell:2006dq]
[8-32]
Quantum Theory of Neutrino Spin-Light in Matter, A. Grigoriev, A. Studenikin, A. Ternov, Grav. Cosmol. 11 (2005) 132, arXiv:hep-ph/0502231. Cosmion-2004 (2-16 September 2004, Moscow-St.Peterburg, Russia, 22-26 September 2004, Paris-Meudon, France).
[Grigoriev:2005bc]
[8-33]
Neutrino in magnetic fields: from the first studies to the new effects in neutrino oscillations, Alexander Studenikin, Nucl. Phys. Proc. Suppl. 143 (2005) 570-570, arXiv:hep-ph/0407010. XXI International Conference on Neutrino Physics and Astrophysics (Paris, 14-19 June, 2004).
[Studenikin:2004tv]
[8-34]
The effective neutrino charge radius, J. Papavassiliou, J. Bernabeu, D. Binosi, J. Vidal, Eur. Phys. J. C33 (2004) S865, arXiv:hep-ph/0310028. EPS2003 - Aachen, Germany, July 2003.
[Papavassiliou:2003rx]
[8-35]
On the neutrino vector and axial vector charge radius, Enrico Nardi, Aip Conf. Proc. 670 (2003) 118, arXiv:hep-ph/0212266. X Mexican School of Particles and Fields, Playa del Carmen, Mexico, October 30 - November 6, 2002.
[Nardi:2002ir]
[8-36]
On the definition and observability of the neutrino charge radius, J. Papavassiliou, J. Bernabeu, J. Vidal, Nucl. Phys. Proc. Suppl. 114 (2003) 197-201, arXiv:hep-ph/0210312. XXX International Meeting on Fundamental Physics, IMFP2002, Jaca (Huesca), January 28th - February 1st, 2002.
[Papavassiliou:2002te]

9 - Theory - Spin and Spin-Flavor Precession

[9-1]
Neutrino spin-flavor oscillations derived from the mass basis, Riccardo Fabbricatore, Alexander Grigoriev, Alexander Studenikin, J. Phys. Conf. Ser. 718 (2016) 062058, arXiv:1604.01245.
[Fabbricatore:2016nec]
[9-2]
Neutrino propagation in media: Flavor-, helicity-, and pair correlations, A. Kartavtsev, G. Raffelt, H. Vogel, Phys. Rev. D91 (2015) 125020, arXiv:1504.03230.
[Kartavtsev:2015eva]
[9-3]
Spin-flavor oscillations of Dirac neutrinos described by relativistic quantum mechanics, Maxim Dvornikov, Phys. Atom. Nucl. 75 (2012) 227-238, arXiv:1008.3115.
[Dvornikov:2010pd]
[9-4]
Pure quantum states of neutrino with rotating spin in dense magnetized matter, E. V. Arbuzova, A. E. Lobanov, E. M. Murchikova, Phys. Rev. D81 (2010) 045001, arXiv:0903.3358.
[Arbuzova:2009uj]
[9-5]
Oscillations of Dirac and Majorana neutrinos in matter and magnetic field, Maxim Dvornikov, Jukka Maalampi, Phys. Rev. D79 (2009) 113015, arXiv:0809.0963.
[Dvornikov:2008xc]
[9-6]
Neutrino spin rotation in dense matter and electromagnetic field, E. V. Arbuzova, A. E. Lobanov, E. M. Murchikova, Phys. Atom. Nucl. 72 (2009) 141-146, arXiv:0711.2649.
[Arbuzova:2007yv]
[9-7]
Neutrino spin-flavor oscillations in frequently varying external fields, Maxim Dvornikov, Phys. Atom. Nucl. 70 (2007) 342-348, arXiv:hep-ph/0410152.
[Dvornikov:2004ms]
[9-8]
Mutual influence of resonant spin flavor precession and resonant neutrino oscillations, E. Kh. Akhmedov, Sov. Phys. JETP 68 (1989) 690-696.
[Akhmedov:1989df]
[9-9]
Resonance enchancement of the neutrino spin precession in matter and the solar neutrino problem, E. Kh. Akhmedov, Sov. J. Nucl. Phys. 48 (1988) 382-383.
[Akhmedov:1988nc]
[9-10]
The magnetic moment of the neutrino and its implications for neutrino signal from SN1987a, Riccardo Barbieri, R. N. Mohapatra, T. Yanagida, Phys. Lett. B213 (1988) 69.
[Barbieri:1988xw]
[9-11]
Resonance enhancement of neutrino oscillations in a longitudinal magnetic field, E. Kh. Akhmedov, M. Yu. Khlopov, Sov. J. Nucl. Phys. 47 (1988) 689-691.
[Akhmedov:1988ng]
[9-12]
Resonant amplification of neutrino oscillations in longitudinal magnetic field, E. Kh. Akhmedov, M. Yu. Khlopov, Mod. Phys. Lett. A3 (1988) 451-457.
[Akhmedov:1988hd]
[9-13]
Resonant amplification of neutrino spin rotation in matter and the solar-neutrino problem, E. Kh. Akhmedov, Phys. Lett. B213 (1988) 64.
[Akhmedov:1988uk]
[9-14]
Resonant spin-flavor precession of solar and supernova neutrinos, Chong-Sa Lim, William J. Marciano, Phys. Rev. D37 (1988) 1368.
[Lim:1988tk]
[9-15]
Electromagnetic properties of neutrino and possible semiannual variation cycle of the solar neutrino flux, L. B. Okun, M. B. Voloshin, M. I. Vysotsky, Sov. J. Nucl. Phys. 44 (1986) 440.
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[9-16]
Neutrino magnetic moment and time variation of solar neutrino flux, M. B. Voloshin, M. I. Vysotsky, Sov. J. Nucl. Phys. 44 (1986) 544.
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[9-17]
Neutrino electrodynamics and possible consequences for solar neutrinos, L. B. Okun, M. B. Voloshin, M. I. Vysotsky, Sov. Phys. JETP 64 (1986) 446-452.
[Okun:1986na]
[9-18]
On the electric dipole moment of neutrino, L. B. Okun, Sov. J. Nucl. Phys. 44 (1986) 546.
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Majorana Neutrinos and Magnetic Fields, J. Schechter, J. W. F. Valle, Phys. Rev. D24 (1981) 1883-1889.
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10 - Theory - Spin and Spin-Flavor Precession - Conference Proceedings

[10-1]
Plasma induced neutrino spin flip via the neutrino magnetic moment, A.V. Kuznetsov, N.V. Mikheev, arXiv:0712.1267, 2007. 13th Lomonosov Conference on Elementary Particle Physics, Moscow State University, Moscow, Russia, August 23-29, 2007.
[Kuznetsov:2007ct]
[10-2]
Neutrino spin-flavor oscillations in rapidly varying magnetic fields, Maxim Dvornikov, Conf.Proc. C0508252 (2005) 69-72, arXiv:hep-ph/0611167. 12th Lomonosov Conference on Elementary Particle Physics, August 25-31, 2005, Moscow, Russia.
[Dvornikov:2006mc]

11 - Theory - Models

[11-1]
Electron electric dipole moment in Inverse Seesaw models, Asmaa Abada, Takashi Toma, JHEP 1608 (2016) 079, arXiv:1605.07643.
[Abada:2016awd]
[11-2]
Electromagnetic properties of neutrinos in the left-right model, O.M. Boyarkin, G.G. Boyarkina, Phys. Rev. D90 (2014) 025001.
[Boyarkin:2014oza]
[11-3]
Majorana neutrino magnetic moments in the gauge mediated supersymmetry breaking MSSM model, Marek Gozdz, Wieslaw A. Kaminski, Phys. Rev. D79 (2009) 075023, arXiv:1201.1246.
[Gozdz:2009zz]
[11-4]
A proposal for the origin of the neutrino magnetic moment, M. Novello, E. Bittencourt, Int.J.Mod.Phys. 29 (2014) 1450075, arXiv:1111.2347.
[Novello:2014yea]
[11-5]
Photon-neutrino interaction in theta-exact covariant noncommutative field theory, R. Horvat, D. Kekez, P. Schupp, J. Trampetic, J. You, Phys. Rev. D84 (2011) 045004, arXiv:1103.3383.
[Horvat:2011iv]
[11-6]
A model for right-handed neutrino magnetic moments, Alberto Aparici, Arcadi Santamaria, Jose Wudka, J. Phys. G37 (2010) 075012, arXiv:0911.4103.
[Aparici:2009oua]
[11-7]
Electric Dipole Moment and Neutrino Mixing due to Planck Scale Effects, Bipin Singh Koranga, Electron. J. Theor. Phys. 7 (2010) 1-6, arXiv:0810.4394.
[Koranga:2008kp]
[11-8]
Dark consequences from light neutrino condensations, Raul Horvat, Peter Minkowski, Josip Trampetic, Phys. Lett. B671 (2009) 51-54, arXiv:0809.0582.
[Horvat:2008uc]
[11-9]
Neutrino mixings and magnetic moments due to Planck scale effects, Bipin Singh Koranga, Electron. J. Theor. Phys. 5 (2008) 133-140, arXiv:0707.2045.
[Koranga:2007ca]
[11-10]
Neutrino Magnetic Moments and Minimal Supersymmetric SO(10) Model, Takeshi Fukuyama, Tatsuru Kikuchi, Nobuchika Okada, Int. J. Mod. Phys. A19 (2004) 4825, arXiv:hep-ph/0306025.
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[11-11]
Charged neutrinos and atoms in the standard model, E. Takasugi, M. Tanaka, Prog.Theor.Phys. 87 (1992) 679-684.
[Takasugi:1991wa]
[11-12]
Neutrino magnetic moment and the dicyclic group, Darwin Chang, Wai-Yee Keung, S. Lipovaca, Goran Senjanovic, Phys. Rev. Lett. 67 (1991) 953-956.
[Chang:1991ri]
[11-13]
Charge nonconservation and charges of neutrinos, neutron and atoms, E. Takasugi, M. Tanaka, Phys. Rev. D44 (1991) 3706-3708.
[Takasugi:1991ai]
[11-14]
Zee model on Majorana neutrino mass and magnetic moment, B.K. Pal, Phys. Rev. D44 (1991) 2261-2264.
[Pal:1991qr]
[11-15]
Charge conjugation and neutrino magnetic moments, Howard Georgi, Lisa Randall, Phys.Lett. B244 (1990) 196-202.
[Georgi:1990se]
[11-16]
A Mechanism for large neutrino magnetic moments, Stephen M. Barr, E.M. Freire, A. Zee, Phys. Rev. Lett. 65 (1990) 2626-2629.
[Barr:1990um]
[11-17]
A model for a large neutrino magnetic transition moment and naturally small mass, Miriam Leurer, Neil Marcus, Phys.Lett. B237 (1990) 81.
[Leurer:1989hx]
[11-18]
Large transition magnetic moment of the neutrino from horizontal symmetry, K.S. Babu, Rabindra N. Mohapatra, Phys. Rev. D42 (1990) 3778-3793.
[Babu:1990wv]
[11-19]
Dirac neutrino magnetic moments in the left-right symmetric model, Subhash Rajpoot, Phys.Lett. B237 (1990) 77.
[Rajpoot:1990hj]
[11-20]
A neutrino with a large magnetic moment and a naturally small mass, Riccardo Barbieri, Rabindra N. Mohapatra, Phys.Lett. B218 (1989) 225.
[Barbieri:1988fh]
[11-21]
A light Zeldovich-Konopinski-Mahmoud neutrino with a large magnetic moment, G. Ecker, W. Grimus, H. Neufeld, Phys.Lett. B232 (1989) 217.
[Ecker:1989ph]
[11-22]
Magnetic Moments of Dirac and Majorana Neutrinos, K.S. Babu, V.S. Mathur, Phys.Lett. B196 (1987) 218.
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[11-23]
A Particle Physics Model for Voloshin-Vysotskii-Okun Solution to the Solar Neutrino Problem, M. Fukugita, T. Yanagida, Phys. Rev. Lett. 58 (1987) 1807.
[Fukugita:1987ti]
[11-24]
Magnetic Moment of Dirac Neutrinos, Jiang Liu, Phys. Rev. D35 (1987) 3447.
[Liu:1987nf]
[11-25]
Radiative Neutrino Decay in Left-right Models, Utpal Chattopadhyay, Palash B. Pal, Phys. Rev. D34 (1986) 3444.
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[11-26]
Two U(1)'s and Epsilon Charge Shifts, Bob Holdom, Phys. Lett. B166 (1986) 196.
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[11-27]
Neutrino magnetic moment in supersymmetry, S.N. Biswas, A. Goyal, J.N. Passi, Phys. Rev. D28 (1983) 671-673.
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[11-28]
Properties of Neutrinos in a Class of Gauge Theories, M. A. B. Beg, W. J. Marciano, M. Ruderman, Phys. Rev. D17 (1978) 1395.
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[11-29]
Neutrino Decay in Gauge Theories, G. T. Zatsepin, A. Yu. Smirnov, Yad. Fiz. 28 (1978) 1569-1579.
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[11-30]
Exotic Decays of the Muon and Heavy Leptons in Gauge Theories, W. J. Marciano, A. I. Sanda, Phys. Lett. B67 (1977) 303.
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[11-31]
Neutrino Magnetic Moment, Jihn E. Kim, Phys. Rev. D14 (1976) 3000.
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12 - Theory - Models - Conference Proceedings

[12-1]
Right-handed neutrino magnetic moments, Alberto Aparici, Kyungwook Kim, Arcadi Santamaria, Jose Wudka, J. Phys. G37 (2010) 075012, arXiv:1311.7337. 16th International Symposium on particles, strings and cosmology, PASCOS 2010 (Valencia, Spain).
[Aparici:2009mj]
[12-2]
Neutralino Induced Majorana Neutrino Transition Magnetic Moments, Marek Gozdz, W. A. Kaminski, Int. J. Mod. Phys. E18 (2009) 1094, arXiv:1201.1243. I've decided to move the collection of my papers to arXiv for easier access. Proceedings of the Nuclear Physics Workshop in Kazimierz Dolny, Poland, 2008.
[Gozdz:2009zza]
[12-3]
Majorana neutrino magnetic moments, M. Gozdz, F. Simkovic, W. A. Kaminski, Int. J. Mod. Phys. E15 (2006) 441, arXiv:1201.1237. Nuclear Physics Workshop in Kazimierz Dolny, Poland, 2005.
[Gozdz:2006jv]
[12-4]
Fermion-boson loops with bilinear R-parity violation leading to Majorana neutrino mass and magnetic moments, M. Gozdz, W. A. Kaminski, Int. J. Mod. Phys. E17 (2008) 276, arXiv:1201.1235. Nuclear Physics Workshop in Kazimierz Dolny, Poland, 2007.
[Gozdz:2012dt]

13 - Phenomenology

[13-1]
Circular polarisation: a new probe of dark matter and neutrinos in the sky, Celine Bohm, Celine Degrande Olivier Mattelaer, Aaron C. Vincent, arXiv:1701.02754, 2017.
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[13-2]
Cool WISPs for stellar cooling excesses, Maurizio Giannotti, Igor Irastorza, Javier Redondo, Andreas Ringwald, JCAP 1605 (2016) 057, arXiv:1512.08108.
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[13-3]
Updating neutrino magnetic moment constraints, B. C. Canas, O. G. Miranda, A. Parada, M. Tortola, J. W. F. Valle, Phys. Lett. B753 (2016) 191-198, arXiv:1510.01684.
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[13-4]
Majorana Neutrino Magnetic Moment and Neutrino Decoupling in Big Bang Nucleosynthesis, N. Vassh, E. Grohs, A.B. Balantekin, G.M. Fuller, Phys. Rev. D92 (2015) 125020, arXiv:1510.00428.
[Vassh:2015yza]
[13-5]
Could Geoneutrinos Interact With the Geomagnetic Field?, C.A.B. Quintero, J.A. Helayel Neto, arXiv:1508.03493, 2015.
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[13-6]
Sensitivities to neutrino electromagnetic properties at the TEXONO experiment, T. S. Kosmas, O. G. Miranda, D. K. Papoulias, M. Tortola, J. W. F. Valle, Phys. Lett. B750 (2015) 459-465, arXiv:1506.08377.
[Kosmas:2015vsa]
[13-7]
Neutrino transition magnetic moments within the non-standard neutrino-nucleus interactions, D.K. Papoulias, T.S. Kosmas, Phys.Lett. B747 (2015) 454-459, arXiv:1506.05406.
[Papoulias:2015iga]
[13-8]
Probing neutrino magnetic moments at Spallation Neutron Source facilities, T. S. Kosmas, O. G. Miranda, D. K. Papoulias, M. Tortola, J. W. F. Valle, Phys. Rev. D92 (2015) 013011, arXiv:1505.03202.
[Kosmas:2015sqa]
[13-9]
Implications of a Primordial Magnetic Field for Magnetic Monopoles, Axions, and Dirac Neutrinos, Andrew J. Long, Tanmay Vachaspati, Phys. Rev. D91 (2015) 103522, arXiv:1504.03319.
[Long:2015cza]
[13-10]
Electroweak Hall Effect of Neutrino and Coronal Heating, Kenzo Ishikawa, Yutaka Tobita, arXiv:1503.07285, 2015.
[Ishikawa:2015gfa]
[13-11]
Improved bounds on the dipole moments of the tau-neutrino at high-energy $\gamma^* e^-$ and $\gamma^* \gamma^*$ collisions: ILC and CLIC, A. Gutierrez-Rodriguez, M. Koksal, A.A. Billur, Phys. Rev. D91 (2015) 093008, arXiv:1412.2094.
[Gutierrez-Rodriguez:2014fva]
[13-12]
Constraining neutrino electromagnetic properties by germanium detectors, Jiunn-Wei Chen et al., Phys. Rev. D91 (2015) 013005, arXiv:1411.0574.
[Chen:2014ypv]
[13-13]
Anomalous radiative transitions, Kenzo Ishikawa, Toshiki Tajima, Yutaka Tobita, PTEP 2015 (2014) 013B02, arXiv:1409.4339.
[Ishikawa:2014uma]
[13-14]
Limits on the neutrino magnetic dipole moment from the luminosity function of hot white dwarfs, Marcelo Miguel Miller Bertolami, Astron.Astrophys. 562 (2014) A123, arXiv:1407.1404.
[Bertolami:2014noa]
[13-15]
Constraining the neutrino magnetic dipole moment from white dwarf pulsations, Alejandro H. Corsico, Leandro G. Althaus, Marcelo M. Miller Bertolami, S. O. Kepler, Enrique Garcia-Berro, JCAP 1408 (2014) 054, arXiv:1406.6034.
[Corsico:2014mpa]
[13-16]
Neutrino Magnetic Moment, CP Violation and Flavor Oscillations in Matter, Y. Pehlivan, A. B. Balantekin, Toshitaka Kajino, Phys. Rev. D90 (214) 065011, arXiv:1406.5489.
[Pehlivan:2014zua]
[13-17]
Combining dark matter detectors and electron-capture sources to hunt for new physics in the neutrino sector, Pilar Coloma, Patrick Huber, Jonathan M. Link, JHEP 1411 (2014) 042, arXiv:1406.4914.
[Coloma:2014hka]
[13-18]
Constraints on Millicharged Neutrinos via Atomic Ionizations with Germanium Detectors at sub-keV Sensitivities, Jiunn-Wei Chen et al., Phys. Rev. D90 (2014) 011301, arXiv:1405.7168.
[Chen:2014dsa]
[13-19]
The $0\nu2\beta$ decay and neutrino magnetic moment, Marek Gozdz, Wieslaw A. Kaminski, Phys. Rev. D89 (2014) 113005, arXiv:1404.6661.
[Gozdz:2014pla]
[13-20]
Can a millicharged dark matter particle emit an observable gamma-ray line?, Chaimae El Aisati, Thomas Hambye, Tiziana Scarna, JHEP 1408 (2014) 133, arXiv:1403.1280.
[Aisati:2014nda]
[13-21]
On sensitivity of neutrino-helium ionizing collisions to neutrino magnetic moments, K. A. Kouzakov, A. I. Studenikin, Phys.Part.Nucl.Lett. 11 (2014) 458-461, arXiv:1402.3786. 10 pages, 1 figure, to appear in Phys. Part. Nucl. Lett.
[Kouzakov:2014pua]
[13-22]
Detecting the neutrino magnetic moment at hadron colliders, O. M. Boyarkin, G. G. Boyarkina, Phys. Rev. D90 (2014) 105021.
[Boyarkin:2014hva]
[13-23]
Laser photons acquire circular polarization by interacting with a Dirac or Majorana neutrino beam, Rohoollah Mohammadi, She-Sheng Xue, Phys.Lett. B731 (2014) 272, arXiv:1312.3862.
[Mohammadi:2013ksa]
[13-24]
Evidence for cosmic neutrino background form CMB circular polarization, Rohoollah Mohammadi, Eur.Phys.J. C74 (2014) 3102, arXiv:1312.2199.
[Mohammadi:2013dea]
[13-25]
Pair Production of Majorana Neutrinos by Annihilation of Charged Particles in High Energy Collision, Young Moon Goh, Hyun Kyu Lee, Won-Gi Paeng, Yongsung Yoon, J. Korean Phys. Soc. 56, 1884 (2010), arXiv:1311.6210.
[Goh:2013txa]
[13-26]
Atomic ionization of germanium due to neutrino magnetic moments, Jiunn-Wei Chen et al., Phys.Lett. B731 (2014) 159-162, arXiv:1311.5294.
[Chen:2013lba]
[13-27]
Neutrino and axion bounds from the globular cluster M5 (NGC 5904), Nicolas Viaux et al., Phys. Rev. Lett. 111 (2013) 231301, arXiv:1311.1669.
[Viaux:2013lha]
[13-28]
Particle-physics constraints from the globular cluster M5: Neutrino Dipole Moments, Nicolas Viaux et al., Astron.Astrophys. 558 (2013) A12, arXiv:1308.4627.
[Viaux:2013hca]
[13-29]
Ionization of hydrogen by neutrino magnetic moment, relativistic muon, and WIMP, Jiunn-Wei Chen, C.-P. Liu, Chien-Fu Liu, Chih-Liang Wu, Phys. Rev. D88 (2013) 033006, arXiv:1307.2857.
[Chen:2013iud]
[13-30]
Nonstandard neutrino interactions and transition magnetic moments, Kristopher J. Healey, Alexey A. Petrov, Dmitry Zhuridov, Phys. Rev. D87 (2013) 117301, arXiv:1305.0584.
[Healey:2013vka]
[13-31]
Constraints on electromagnetic properties of sterile neutrinos from MiniBooNE results, Alexander Radionov, Phys. Rev. D88 (2013) 015016, arXiv:1303.4587.
[Radionov:2013mca]
[13-32]
A Big-Bang Nucleosynthesis Limit on the Neutral Fermion Decays into Neutrinos, Motohiko Kusakabe, A.B. Balantekin, Toshitaka Kajino, Y. Pehlivan, Phys.Rev D87 (2013) 085045, arXiv:1303.2291.
[Kusakabe:2013sna]
[13-33]
CP violation in neutrino-photon scattering, I. Alikhanov, J. Phys. G41 (2014) 025005, arXiv:1303.0779.
[Alikhanov:2013yfa]
[13-34]
New bounds on neutrino electric millicharge from limits on neutrino magnetic moment, Alexander Studenikin, Europhys.Lett. 107 (2014) 21001, arXiv:1302.1168.
[Studenikin:2013my]
[13-35]
New limits on neutrino magnetic moment through non-vanishing 13-mixing, Marcelo Moraes Guzzo, Pedro Cunha de Holanda, Orlando Luis Goulart Peres, arXiv:1212.1396, 2012.
[Guzzo:2012rf]
[13-36]
The effect of electromagnetic properties of neutrinos on the photon-neutrino decoupling temperature, S. C. Inan, M. Koksal, Int. J. Mod. Phys. A27 (2012) 1250187, arXiv:1204.3593.
[Inan:2012eu]
[13-37]
New limits on radiative sterile neutrino decays from a search for single photons in neutrino interactions, S. N. Gninenko, Phys. Lett. B710 (2012) 86-90, arXiv:1201.5194.
[Gninenko:2012rw]
[13-38]
Electromagnetic properties of the neutrinos in gamma-proton collision at the LHC, I. Sahin, Phys. Rev. D85 (2013) 033002, arXiv:1201.4364.
[Sun:2013ria]
[13-39]
Heavy Sterile Neutrinos in Tau Decays and the MiniBooNE Anomaly, Claudio Dib, Juan Carlos Helo, Martin Hirsch, Sergey Kovalenko, Ivan Schmidt, Phys. Rev. D85 (2012) 011301, arXiv:1110.5400.
[Dib:2011hc]
[13-40]
Back-to-back pair correlation of Majorana neutrinos with transit magnetic moments, Hyun Kyu Lee, Phys. Rev. D84 (2011) 077302, arXiv:1109.5766.
[Lee:2011rk]
[13-41]
Supernova neutrino signals by liquid Argon detector and neutrino magnetic moment, Takashi Yoshida et al., Phys. Lett. B704 (2011) 108-112, arXiv:1109.2667.
[Yoshida:2011fc]
[13-42]
Sterile neutrino decay as a common origin for LSND/MiniBooNe and T2K excess events, S.N. Gninenko, Phys. Rev. D85 (2012) 051702, arXiv:1107.0279.
[Gninenko:2011hb]
[13-43]
Testing neutrino magnetic moment in ionization of atoms by neutrino impact, K.A. Kouzakov, A.I. Studenikin, M.B. Voloshin, JETP Lett. 93 (2011) 623-627, arXiv:1105.5543.
[Kouzakov:2011ka]
[13-44]
Neutrino-impact ionization of atoms in searches for neutrino magnetic moment, Konstantin A. Kouzakov, Alexander I. Studenikin, Mikhail B. Voloshin, Phys. Rev. D83 (2011) 113001, arXiv:1101.4878.
[Kouzakov:2011vx]
[13-45]
Search for electromagnetic properties of the neutrinos at the LHC, I. Sahin, M. Koksal, JHEP 03 (2011) 100, arXiv:1010.3434.
[Sahin:2010zr]
[13-46]
Neutrino scattering on atomic electrons in searches for neutrino magnetic moment, M.B. Voloshin, Phys. Rev. Lett. 105 (2010) 201801, arXiv:1008.2171.
[Voloshin:2010vm]
[13-47]
Neutrino magnetic moment effects in electron-capture measurements at GSI, Avraham Gal, Nucl. Phys. A842 (2010) 102-112, arXiv:1004.4098.
[Gal:2008sw]
[13-48]
Enhanced Sensitivities for the Searches of Neutrino Magnetic Moments through Atomic Ionization, Henry T. Wong, Hau-Bin Li, Shin-Ted Lin, Phys. Rev. Lett. 105 (2010) 061801, arXiv:1001.2074.
[Wong:2010pb]
[13-49]
New Lower Limits on the Lifetime of Heavy Neutrino Radiative Decay, S. Cecchini et al., Astropart. Phys. 34 (2011) 486-492, arXiv:0912.5086.
[Cecchini:2009fx]
[13-50]
Reexamination of a Bound on the Dirac Neutrino Magnetic Moment from the Supernova Neutrino Luminosity, A.V. Kuznetsov, N.V. Mikheev, A. A. Okrugin, Int. J. Mod. Phys. A24 (2009) 5977-5989, arXiv:0907.2905.
[Kuznetsov:2009zm]
[13-51]
Enhanced production of TeV right-handed neutrinos through the large magnetic moment, Tatsuru Kikuchi, Phys. Lett. B671 (2009) 272-275, arXiv:0810.4381.
[Kikuchi:2008ki]
[13-52]
The Impact of Neutrino Magnetic Moments on the Evolution of Massive Stars, Alexander Heger, Alexander Friedland, Maurizio Giannotti, Vincenzo Cirigliano, Astrophys. J. 696 (2009) 608-619, arXiv:0809.4703.
[Heger:2008er]
[13-53]
Neutrino mass spectrum from gravitational waves generated by double neutrino spin-flip in supernovae, Herman J. Mosquera Cuesta, Gaetano Lambiase, Astrophys.J. 689 (2008) 371, arXiv:0809.0526.
[Cuesta:2008te]
[13-54]
Neutral Current induced $\pi^0$ production and neutrino magnetic moment, M. Sajjad Athar, S. Chauhan, S. K. Singh, Phys. Rev. D78 (2008) 037301, arXiv:0808.1221.
[Athar:2008bv]
[13-55]
Dirac neutrino magnetic moment and the shock wave revival in a supernova explosion, A.V. Kuznetsov, N.V. Mikheev, A. A. Okrugin, Phys. Atom. Nucl. 71 (2008) 2165-2168, arXiv:0804.1916.
[Kuznetsov:2008yk]
[13-56]
Neutrino magnetic moment signatures in the supernova neutrino signal, Oleg Lychkovskiy, arXiv:0804.1005, 2008.
[Lychkovskiy:2008da]
[13-57]
Probing neutrino magnetic moment and unparticle interactions with Borexino, D. Montanino, M. Picariello, J. Pulido, Phys. Rev. D77 (2008) 093011, arXiv:0801.2643.
[Montanino:2008hu]
[13-58]
Improved limit on electron neutrino charge radius through a new evaluation of the weak mixing angle, J. Barranco, O. G. Miranda, T. I. Rashba, Phys. Lett. B662 (2008) 431-435, arXiv:0707.4319.
[Barranco:2007ea]
[13-59]
Impact of the Neutrino Magnetic Moment on Supernova r-process Nucleosynthesis, A.B. Balantekin, C. Volpe, J. Welzel, JCAP 0709 (2007) 016, arXiv:0706.3023.
[Balantekin:2007xq]
[13-60]
Revisiting cosmological bounds on radiative neutrino lifetime, A. Mirizzi, D. Montanino, P.D. Serpico, Phys. Rev. D76 (2007) 053007, arXiv:0705.4667.
[Mirizzi:2007jd]
[13-61]
Search for millicharged particles in reactor neutrino experiments: A Probe of the PVLAS anomaly, S.N. Gninenko, N.V. Krasnikov, A. Rubbia, Phys. Rev. D75 (2007) 075014, arXiv:hep-ph/0612203.
[Gninenko:2006fi]
[13-62]
Model independent bounds on magnetic moments of Majorana neutrinos, Nicole F. Bell, Mikhail Gorchtein, Michael J. Ramsey-Musolf, Petr Vogel, Peng Wang, Phys. Lett. B642 (2006) 377-383, arXiv:hep-ph/0606248.
[Bell:2006wi]
[13-63]
What can we learn from neutrino electron scattering?, Andre de Gouvea, James Jenkins, Phys. Rev. D74 (2006) 033004, arXiv:hep-ph/0603036.
[deGouvea:2006cb]
[13-64]
Neutrino Electromagnetic Form Factors Effect on the Neutrino Cross Section in Dense Matter, A. Sulaksono, C.K. Williams, P.T.P. Hutauruk, T. Mart, Phys. Rev. C73 (2006) 025803, arXiv:nucl-th/0601002.
[Sulaksono:2006eu]
[13-65]
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]
[13-66]
How Magnetic is the Dirac Neutrino?, Nicole F. Bell et al., Phys. Rev. Lett. 95 (2005) 151802, arXiv:hep-ph/0504134.
[Bell:2005kz]
[13-67]
Neutrino Electromagnetic Form Factor and Oscillation Effects on Neutrino Interaction With Dense Matter, C.K. Williams, P.T.P. Hutauruk, A. Sulaksono, T. Mart, Phys. Rev. D71 (2005) 017303, arXiv:hep-ph/0501148.
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[13-68]
An Approach to Explain the Long Cooling Times of Anomalous X-ray Pulsars and Soft Gamma Repeaters with the Neutrino Magnetic Moment, Efe Yazgan, Mehmet T. Zeyrek, PoS HEP2005 (2006) 015, arXiv:astro-ph/0412404.
[Yazgan:2004kb]
[13-69]
Possible neutrino gravitoelectric dipole moments and atmospheric and solar neutrino anomalies, An. S. Kuznetsov, arXiv:hep-ph/0407031, 2004.
[Kuznetsov:2004xn]
[13-70]
Neutrino Propagation in a Strongly Magnetized Medium, E. Elizalde, E. J. Ferrer, V. de la Incera, Phys. Rev. D70 (2004) 043012, arXiv:hep-ph/0404234.
[Elizalde:2004mw]
[13-71]
Neutrino emission in neutron matter from magnetic moment interactions, Prashanth Jaikumar, K. R. S. Balaji, Charles Gale, Phys. Rev. C69 (2004) 055804, arXiv:astro-ph/0402315.
[Jaikumar:2004at]
[13-72]
Bounds on the magnetic moment and electric dipole moment of the $\tau$-neutrino via the process $e^{+}e^{-}\to \nu \bar \nu \gamma$, A. Gutierrez-Rodriguez, M. A. Hernandez-Ruiz, A. Del Rio-De Santiago, Phys. Rev. D69 (2004) 073008, arXiv:hep-ph/0401208.
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[13-84]
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[13-85]
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[13-88]
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[13-90]
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[13-113]
The Neutrino electromagnetic moments and charge radius confront Kamiokande-II and Homestake experimental results, Ana M. Mourao, Joao Pulido, John P. Ralston, Phys.Lett. B285 (1992) 364-370. Erratum-ibid. B288 (1992) 421.
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The Solar neutrino problem and the neutrino magnetic moment, Joao Pulido, Phys.Rept. 211 (1992) 167-199.
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[13-118]
New bound on neutrino dipole moments from globular cluster stars, G.G. Raffelt, Phys. Rev. Lett. 64 (1990) 2856-2858.
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[13-119]
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14 - Phenomenology - Conference Proceedings

[14-1]
New limits on neutrino magnetic moments from low energy neutrino data, B C Canas, O G Miranda, A Parada, M Tortola, J W F Valle, J. Phys. Conf. Ser. 761 (2016) 012043, arXiv:1609.08563. XV Mexican Workshop on Particles and Fields and the XXX Annual Meeting of the Division of Particles and Fields of the Mexican Physical Society.
[Canas:2016kfy]
[14-2]
Neutrino-atom collisions, Konstantin A. Kouzakov, Alexander I. Studenikin, J. Phys. Conf. Ser. 718 (2016) 062031, arXiv:1603.02462. TAUP 2015.
[Kouzakov:2016ajg]
[14-3]
Theory of ionizing neutrino-atom collisions: The role of atomic recoil, Konstantin A. Kouzakov, Alexander I. Studenikin, Nucl.Part.Phys.Proc. 273-275 (2016) 2609-2611, arXiv:1412.7061. XXXVII International Conference on High Energy Physics, Valencia, Spain, 2-9 July 2014.
[Kouzakov:2014yha]
[14-4]
New astrophysical limit on neutrino millicharge, Alexander I. Studenikin, Ilya V. Tokarev, Nucl.Part.Phys.Proc. 273-275 (2016) 2332-2334, arXiv:1411.7962. XXXVII International Conference on High Energy Physics, Valencia, Spain, 2-9 July 2014.
[Studenikin:2014vpa]
[14-5]
New bounds on neutrino electric millicharge from GEMMA experiment on neutrino magnetic moment, Victor B. Brudanin, Dmitry V. Medvedev, Alexander S. Starostin, Alexander I. Studenikin, Nucl.Part.Phys.Proc. 273-275 (2016) 2605-2608, arXiv:1411.2279. XXXVII International Conference on High Energy Physics, Valencia, Spain, 2-9 July 2014.
[Brudanin:2014iya]
[14-6]
Testing Fundamental Particle Physics with the Galactic White Dwarf Luminosity Function, Marcelo M. Miller Bertolami, Brenda E. Melendez, Leandro G. Althaus, Jordi Isern, ASP Conf.Ser. 493 (2015) 133, arXiv:1410.1677. 19th European Workshop on White Dwarfs.
[Bertolami:2014rta]
[14-7]
The Effect of Sterile States on the Magnetic Moments of Neutrinos, A.B. Balantekin, N. Vassh, AIP Conf.Proc. 1604 (2014) 150-155, arXiv:1404.1393. CETUP' (Center for Theoretical Underground Physics and Related Areas) 2013 Summer Institute.
[Balantekin:2014mqa]
[14-8]
New constraints on neutrino millicharge from terrestrial experiments and astrophysics, Alexander Studenikin, Ilya Tokarev, arXiv:1312.7269, 2013. 25th Rencontres de Blois on Particle Physics and Cosmology, 26-31 May 2013, Blois, France.
[Studenikin:2013zpa]
[14-9]
New Results on Neutrino Magnetic Moments and on Democratic Neutrinos, Dmitry Zhuridov, arXiv:1309.2540, 2013. DPF 2013 Meeting of the American Physical Society Division of Particles and Fields, Santa Cruz, California, August 13-17, 2013.
[Zhuridov:2013ika]
[14-10]
New effects of nonzero neutrino electric charge, A. Studenikin, I. Tokarev, Nucl. Phys. Proc. Suppl. 237-238 (2013) 317-319.
[Studenikin:2013yaa]
[14-11]
New signals in dark matter detectors, Joachim Kopp, J. Phys. Conf. Ser. 485 (2014) 012032, arXiv:1210.2703. PASCOS 2012.
[Kopp:2012dz]
[14-12]
Electromagnetic neutrino-atom collisions: The role of electron binding, Konstantin A. Kouzakov, Alexander I. Studenikin, Nucl. Phys. Proc. Suppl. 217 (2011) 353-356, arXiv:1108.2872. NOW2010.
[Kouzakov:2011ig]
[14-13]
On neutrino-atom scattering in searches for neutrino magnetic moments, Konstantin A. Kouzakov, Alexander I. Studenikin, Mikhail B. Voloshin, Nucl. Phys. Proc. Suppl. 229-232 (2012) 496, arXiv:1102.0643. XXIV International Conference on Neutrino Physics and Astrophysics, Athens, June 14-19, 2010.
[Kouzakov:2011uq]
[14-14]
Reexamination of a Bound on the Dirac Neutrino Magnetic Moment from the Supernova Neutrino Luminosity, A.V. Kuznetsov, N.V. Mikheev, A.A. Okrugin, arXiv:1011.2100, 2010. XVI International Seminar Quarks'2010, Kolomna, Moscow Region, June 6-12, 2010.
[Kuznetsov:2010fe]
[14-15]
How Magnetic is the Neutrino?, Nicole F. Bell, Int. J. Mod. Phys. A22 (2007) 4891-4899, arXiv:0707.1556. Festschrift in honour of B. H. J McKellar and G. C. Joshi.
[Bell:2007nu]
[14-16]
Model Independent Naturalness Bounds on Magnetic Moments of Majorana Neutrinos, Mikhail Gorchtein et al., AIP Conf. Proc. 903 (2007) 287-290, arXiv:hep-ph/0610388. SUSY06, the 14th International Conference on Supersymmetry and the Unification of Fundamental Interactions, UC Irvine, California, 12-17 June 2006.
[Gorchtein:2006na]
[14-17]
Effects of the neutrino electromagnetic form factors on the neutrino and antineutrino mean free paths in dense matter, P. T. P. Hutauruk, A. Sulaksono, T. Mart, Nucl. Phys. A782 (2007) 400-405, arXiv:nucl-th/0608080. 5th International Conference on Perspectives in Hadronic Physics, Trieste, Italy, 22-26 May 2006.
[Hutauruk:2006re]
[14-18]
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]
[14-19]
Generalized Dirac-Pauli equation and spin light of neutrino in magnetized matter, Alexander Grigoriev, Alexander Studenikin, Alexei Ternov, arXiv:hep-ph/0502210, 2005. 11th Lomonosov Conference on Elementary Particle Physics.
[Grigoriev:2005rt]
[14-20]
Spin Flavor Oscillation of Neutrinos in Rotating Gravitational Fields and Their Effects on Pulsar Kicks, G. Lambiase, Braz. J. Phys. 35 (2005) 462, arXiv:astro-ph/0412408. Second International Workshop DICE2004, From Decoherence and Emergent Classicality to Emergent Quantum Mechanics Piombino (Tuscany), September 1-4, 2004.
[Lambiase:2004kf]
[14-21]
Constraining neutrino magnetic moment with solar and reactor neutrino data, M. A. Tortola, PoS AHEP2003 (2003) 022, arXiv:hep-ph/0401135. International Workshop on Astroparticle and High Energy Physics (AHEP-2003), Valencia, Spain, 14-18 October 2003.
[Tortola:2004vh]
[14-22]
Neutrinos under Strong Magnetic Fields, Efrain J. Ferrer, Vivian de la Incera, Aip Conf. Proc. 689 (2003) 63, arXiv:hep-ph/0308017. Fourth Tropical Workshop on Particle Physics and Cosmology, Cairns, Australia, June 9-13, 2003.
[Ferrer:2003wi]
[14-23]
New effects in neutrino oscillations in matter and electromagnetic fields, Alexander Studenikin, arXiv:hep-ph/0306280, 2003. 4th International Bruno Pontecorvo School on `Neutrino Oscillations, CP and CPT Violation: the Three Windows to Physics Beyond the Standard Model`, Capri, May 26-29, 2003.
[Studenikin:2003yn]
[14-24]
General amplitude of the n - vertex one-loop process in a strong magnetic field, D. A. Rumyantsev A. V. Kuznetsov, N. V. Mikheev, arXiv:hep-ph/0210029, 2002. 12th International Seminar 'Quarks-2002', Valday and Novgorod, Russia, June 1-7, 2002.
[Kuznetsov:2002sj]
[14-25]
$\mu_\nu$, M. Vysotsky, Mod. Phys. Lett. A18 (2003) 877, arXiv:hep-ph/0209070. 'Search for Dark Matter and Neutrino Magnetic Moment', ITEP, 11.12.2001.
[Vysotsky:2002yu]
[14-26]
Dirac Neutrino Anapole Moment, A. Rosado L. G. Cabral-Rosetti, M. Moreno, AIP Conf.Proc. 623 (2002) 347-350, arXiv:hep-ph/0206083. VIII Mexican Workshop on Particles and Fields of the Division de Particulas y Campos de la Sociedad Mexicana de Fisica (DPyC-SMF), Cd. de Zacatecas, Zacatecas, Mexico November 14-20, 2001.
[CabralRosetti:2002qx]

15 - Phenomenology - Spin and Spin-Flavor Precession

[15-1]
Helicity oscillations of Dirac and Majorana neutrinos, Alexandra Dobrynina, Alexander Kartavtsev, Georg Raffelt, Phys. Rev. D93 (2016) 125030, arXiv:1605.04512.
[Dobrynina:2016rwy]
[15-2]
Combined effect of NSI and SFP on solar electron neutrino oscillation, Deniz Yilmaz, Adv.High Energy Phys. 2016 (2016) 1435191, arXiv:1601.03161.
[Yilmaz:2016ilw]
[15-3]
Transition Magnetic Moments and Collective Neutrino Oscillations: Three-Flavor Effects and Detectability, Andre de Gouvea, Shashank Shalgar, JCAP 1304 (2013) 018, arXiv:1301.5637.
[deGouvea:2013zp]
[15-4]
Effect of Transition Magnetic Moments on Collective Supernova Neutrino Oscillations, Andre de Gouvea, Shashank Shalgar, JCAP 1210 (2012) 027, arXiv:1207.0516.
[deGouvea:2012hg]
[15-5]
A reduction in the UHE neutrino flux due to neutrino spin precession, J. Barranco, O. G. Miranda, C. A. Moura, A. Parada, Phys. Lett. B718 (2012) 26-29, arXiv:1205.4285.
[Barranco:2012xj]
[15-6]
Neutrino Spin Flavor Precession and Leptogenesis, Juan Barranco, Roberto Cota, David Delepine, Shaaban Khalil, Phys. Rev. D86 (2012) 113009, arXiv:1205.1250.
[Barranco:2012ir]
[15-7]
Spin flip of neutrinos with magnetic moment in core-collapse supernova, Oleg Lychkovskiy, Sergei Blinnikov, Phys.Atom.Nucl. 73 (2010) 614-624, arXiv:0905.3658.
[Lychkovskiy:2009pm]
[15-8]
Dirac-Neutrino Magnetic Moment and the Dynamics of a Supernova Explosion, A. V. Kuznetsov, N. V. Mikheev, A. A. Okrugin, JETP Lett. 89 (2009) 97-101, arXiv:0903.2321.
[Kuznetsov:2009we]
[15-9]
Mimicking diffuse supernova antineutrinos with the Sun as a source, Georg Raffelt, Timur Rashba, Phys. Atom. Nucl. 73 (2010) 609-613, arXiv:0902.4832.
[Raffelt:2009mm]
[15-10]
Light sterile neutrinos, spin flavour precession and the solar neutrino experiments, C.R. Das, Joao Pulido, Marco Picariello, Phys. Rev. D79 (2009) 073010, arXiv:0902.1310.
[Das:2009kw]
[15-11]
Joint analysis of solar neutrino and new KamLAND data in the RSFP framework, D. Yilmaz, arXiv:0810.1037, 2008.
[Yilmaz:2008vh]
[15-12]
Plasma induced neutrino spin flip via the neutrino magnetic moment, A.V. Kuznetsov, N.V. Mikheev, arXiv:0712.1267, 2007. 13th Lomonosov Conference on Elementary Particle Physics, Moscow State University, Moscow, Russia, August 23-29, 2007.
[Kuznetsov:2007ct]
[15-13]
New bounds on the neutrino magnetic moment from the plasma induced neutrino chirality flip in a supernova, Alexander V. Kuznetsov, Nickolay V. Mikheev, Journal of Cosmology and Astroparticle PHYSICS11 (2007) 031, arXiv:0709.0110.
[Kuznetsov:2007mp]
[15-14]
Do solar neutrinos probe neutrino electromagnetic properties?, Alexander Friedland, arXiv:hep-ph/0505165, 2005.
[Friedland:2005xh]
[15-15]
Random magnetic fields inducing solar neutrino spin-flavor precession in a three generation context, M. M. Guzzo, P. C. de Holanda, O. L. G. Peres, Phys. Rev. D72 (2005) 073004, arXiv:hep-ph/0504185.
[Guzzo:2005rr]
[15-16]
Pulsar Kicks Induced by Spin Flavor Oscillations of Neutrinos in Gravitational Fields, G. Lambiase, Mon. Not. Roy. Astron. Soc. 362 (2005) 867, arXiv:astro-ph/0411242.
[Lambiase:2004qk]
[15-17]
Does the neutrino magnetic moment have an impact on solar physics?, A. B. Balantekin, C. Volpe, Phys. Rev. D72 (2005) 033008, arXiv:hep-ph/0411148.
[Balantekin:2004tk]
[15-18]
Enhanced solar anti-neutrino flux in random magnetic fields, O. G. Miranda, T. I. Rashba, A. I. Rez, J. W. F. Valle, Phys. Rev. D70 (2004) 113002, arXiv:hep-ph/0406066.
[Miranda:2004nz]
[15-19]
Implications of SNO and BOREXINO results on Neutrino Oscillations and Majorana Magnetic Moments, Sin Kyu Kang, C. S. Kim, Phys. Lett. B584 (2004) 98, arXiv:hep-ph/0403059.
[Kang:2004tx]
[15-20]
LMA and sterile neutrinos: a case for resonance spin flavour precession?, Bhag C. Chauhan, Joao Pulido, JHEP 0406 (2004) 008, arXiv:hep-ph/0402194.
[Chauhan:2004sf]
[15-21]
Constraining the neutrino magnetic moment with anti-neutrinos from the Sun, O. G. Miranda, T. I. Rashba, A. I. Rez, J. W. F. Valle, Phys. Rev. Lett. 93 (2004) 051304, arXiv:hep-ph/0311014.
[Miranda:2003yh]
[15-22]
Neutrino Oscillations, Solar Antineutrinos and the Solar Magnetic Fields, S. Dev, S. Kumar, arXiv:hep-ph/0308054, 2003.
[Dev:2003ak]
[15-23]
Resonant spin-flavor conversion of supernova neutrinos: Dependence on presupernova models and future prospects, Shin'ichiro Ando, Katsuhiko Sato, Phys. Rev. D68 (2003) 023003, arXiv:hep-ph/0305052.
[Ando:2003pj]
[15-24]
KamLAND, solar antineutrinos and the solar magnetic field, Bhag C. Chauhan, Joao Pulido, E. Torrente-Lujan, Phys. Rev. D68 (2003) 033015, arXiv:hep-ph/0304297.
[Chauhan:2003wr]
[15-25]
KamLAND Bounds on Solar Antineutrinos and neutrino transition magnetic moments, E. Torrente-Lujan, JHEP 0304 (2003) 054, arXiv:hep-ph/0302082.
[TorrenteLujan:2003cx]
[15-26]
Solar neutrino oscillations and bounds on neutrino magnetic moment and solar magnetic field, E. K. Akhmedov, J. Pulido, Phys. Lett. B553 (2003) 7, arXiv:hep-ph/0209192.
[Akhmedov:2002mf]
[15-27]
Constraining Majorana neutrino electromagnetic properties from the LMA-MSW solution of the solar neutrino problem, W. Grimus, M. Maltoni, T. Schwetz, M. A. Tortola, J. W. F. Valle, Nucl. Phys. B648 (2003) 376-396, arXiv:hep-ph/0208132.
[Grimus:2002vb]
[15-28]
Confronting spin flavor solutions of the solar neutrino problem with current and future solar neutrino data, J. Barranco, O. G. Miranda, T. I. Rashba, V. B. Semikoz, J. W. F. Valle, Phys. Rev. D66 (2002) 093009, arXiv:hep-ph/0207326.
[Barranco:2002te]
[15-29]
Resonance spin flavour precession of solar neutrinos after SNO NC data, B. C. Chauhan, J. Pulido, Phys. Rev. D66 (2002) 053006, arXiv:hep-ph/0206193.
[Chauhan:2002jw]
[15-30]
SNO and the neutrino magnetic moment solution of the solar neutrino problem, E. K. Akhmedov, J. Pulido, Phys. Lett. B485 (2000) 178-186, arXiv:hep-ph/0005173.
[Akhmedov:2000fj]
[15-31]
Resonance spin flavor precession and solar neutrinos, J. Pulido, E. K. Akhmedov, Astropart. Phys. 13 (2000) 227-244, arXiv:hep-ph/9907399.
[Pulido:1999xp]
[15-32]
Solar neutrino data, neutrino magnetic moments and flavor mixing, E. Kh. Akhmedov, A. Lanza, S. T. Petcov, Phys. Lett. B348 (1995) 124-132, arXiv:hep-ph/9411299.
[Akhmedov:1994ix]
[15-33]
Pontecorvo's original oscillations revisited, E. Kh. Akhmedov, S. T. Petcov, A. Yu. Smirnov, Phys. Lett. B309 (1993) 95-102, arXiv:hep-ph/9301247.
[Akhmedov:1993ta]
[15-34]
Implications of gallium solar neutrino data for the resonant spin flavor precession scenario, E. Kh. Akhmedov, A. Lanza, S. T. Petcov, Phys. Lett. B303 (1993) 85-94, arXiv:hep-ph/9301239.
[Akhmedov:1993fv]
[15-35]
Solar and supernova neutrino physics with Sudbury Neutrino Observatory, A. B. Balantekin, F. Loreti, Phys. Rev. D45 (1992) 1059-1065.
[Balantekin:1992dv]
[15-36]
Oscillation-assisted resonance spin-flavor precession and time variations of the solar neutrino flux, E. Kh. Akhmedov, Phys. Lett. B257 (1991) 163-167.
[Akhmedov:1991nt]
[15-37]
The Geometrical phase in neutrino spin precession and the solar neutrino problem, A.Yu. Smirnov, Phys. Lett. B260 (1991) 161-164.
[Smirnov:1991ia]
[15-38]
Anti-neutrinos from the sun, E. Kh. Akhmedov, Phys. Lett. B255 (1991) 84-88.
[Akhmedov:1991uk]
[15-39]
Direct tests for solar neurino mass, mixing and Majorana magnetic moment, R.S. Raghavan, A.B. Balantekin, F. Loreti, A.J. Baltz, S. Pakvasa et al., Phys. Rev. D44 (1991) 3786-3790.
[Raghavan:1991em]
[15-40]
Resonant spin flavor precession of neutrinos and the solar neutrino problem, E. Kh. Akhmedov, O. V. Bychuk, Sov. Phys. JETP 68 (1989) 250-257.
[Akhmedov:1989ds]
[15-41]
Hybrid Solution of the Solar Neutrino Problem in Anticorrelation With Sunspot Activity, Hisakazu Minakata, Hiroshi Nunokawa, Phys. Rev. Lett. 63 (1989) 121.
[Minakata:1988gm]
[15-42]
The solar neutrino puzzle and the $\nu_{L}\to\nu_{R}$ conversion hypothesis, Riccardo Barbieri, G. Fiorentini, Nucl. Phys. B304 (1988) 909.
[Barbieri:1987xm]
[15-43]
Resonant Helicity Flip of $\nu_e$ Due to Magnetic Moment and Dynamics of Supernova, M.B. Voloshin, Phys.Lett. B209 (1988) 360.
[Voloshin:1988xu]

16 - Phenomenology - Spin and Spin-Flavor Precession - Conference Proceedings

[16-1]
Dirac neutrino magnetic moment and a possible time evolution of the neutrino signal from a supernova, R.A. Anikin, A.V. Kuznetsov, N.V. Mikheev, Astron.Lett. 36 (2010) 680, arXiv:1010.0583. XVI International Seminar Quarks'2010, Kolomna, Moscow Region, June 6-12, 2010.
[Anikin:2010rh]
[16-2]
Neutrino Dipole Moments and Solar Experiments, M. Picariello et al., arXiv:0907.0637, 2009. 44th Rencontres de Moriond in the Electroweak 09.
[Picariello:2009yv]
[16-3]
Neutrino spin-flavor oscillations in electromagnetic fields of various configurations, Maxim Dvornikov, arXiv:0708.3572, 2007. 14th International Baksan School 'Particles and Cosmology', Baksan Valley, Kabardino-Balkaria, Russia, 16-21 April 2007.
[Dvornikov:2007nv]
[16-4]
Plasma induced neutrino spin-flip in a supernova and new bounds on the neutrino magnetic moment, A.V. Kuznetsov, N.V. Mikheev, arXiv:0708.2802, 2007. XIV International School 'Particles and Cosmology', Baksan Valley, Kabardino Balkaria, Russia, April 16-21, 2007.
[Kuznetsov:2007np]
[16-5]
Neutrino chirality flip in a supernova and the bound on the neutrino magnetic moment, A.V. Kuznetsov, N.V. Mikheev, arXiv:hep-ph/0606261, 2006. XIV International Seminar Quarks'2006, St.-Petersburg, Repino, Russia, May 19-25, 2006.
[Kuznetsov:2006ch]
[16-6]
Solar Neutrinos: Spin Flavour Precession and LMA, Joao Pulido, B. C. Chauhan, R. S. Raghavan, arXiv:hep-ph/0511341, 2005. 12th Lomonosov Conference in Elementary Particle Physics, Moscow, Aug 24-31 (2005).
[Pulido:2005pt]
[16-7]
Efficient solar anti-neutrino production in random magnetic fields, O. G. Miranda, T. I. Rashba, A. I. Rez, J. W. F. Valle, PoS AHEP2003 (2003) AHEP2003/072, arXiv:hep-ph/0405107. International Workshop on Astroparticle and High Energy Physics (AHEP-2003), Valencia, Spain, 14-18 October 2003.
[Miranda:2004bq]
[16-8]
Neutrino transition magnetic moments and the solar magnetic field from the Kamland evidence, V.Antonelli et al., arXiv:hep-ph/0310262, 2003. TAUP 2003.
[Antonelli:2003za]
[16-9]
The Neutrino magnetic moment and time variations of the solar neutrino flux, Evgeny K. Akhmedov, arXiv:hep-ph/9705451, 1997.
[Akhmedov:1997yv]

17 - Phenomenology - Models

[17-1]
Phenomenology of the new physics coming from 2HDMs to the neutrino magnetic dipole moment, Carlos G. Tarazona, Rodolfo A. Diaz, John Morales, Andres Castillo, arXiv:1512.07722, 2015.
[Tarazona:2015drz]
[17-2]
Production of unstable heavy neutrinos in proto-neutron stars, C. Albertus, M. Masip, M. A. Perez-Garcia, Phys. Lett. B751 (2015) 209-214, arXiv:1509.03306.
[Albertus:2015xra]
[17-3]
Interplay between neutrino magnetic moments and $CP$ violating phases in left-right models, D. Delepine, H. Novales-Sanchez, Phys. Rev. D92 (2015) 095016, arXiv:1508.04835.
[Delepine:2015aja]
[17-4]
Constraints on neutrino masses coming from magnetic dipole moments in a two Higgs doublet model type I and II, Carlos G. Tarazona, Rodolfo A. Diaz, John Morales, arXiv:1506.00735, 2015.
[Tarazona:2015xwa]
[17-5]
Transition magnetic moment of Majorana neutrinos in the $\mu\nu$SSM, Hai-Bin Zhang, Tai-Fu Feng, Zhao-Feng Ge, Shu-Min Zhao, JHEP 1402 (2014) 012, arXiv:1401.2704.
[Zhang:2014iva]
[17-6]
Large Neutrino Magnetic Dipole Moments in MSSM Extensions, Amin Aboubrahim, Tarek Ibrahim, Ahmad Itani, Pran Nath, Phys. Rev. D89 (2014) 055009, arXiv:1312.2505.
[Aboubrahim:2013yfa]
[17-7]
Radiative Decays of Cosmic Background Neutrinos in Extensions of MSSM with a Vector Like Lepton Generation, Amin Aboubrahim, Tarek Ibrahim, Pran Nath, Phys. Rev. D88 (2013) 013019, arXiv:1306.2275.
[Aboubrahim:2013gfa]
[17-8]
Left-Right Symmetry: from Majorana to Dirac, Miha Nemevsek, Goran Senjanovic, Vladimir Tello, Phys. Rev. Lett. 110 (2013) 151802, arXiv:1211.2837.
[Nemevsek:2012iq]
[17-9]
Dark Matter, LFV and Neutrino Magnetic Moment in the Radiative Seesaw Model with Triplet Fermion, Wei Chao, Int.J.Mod.Phys. A30 (2015) 1550007, arXiv:1202.6394.
[Chao:2012sz]
[17-10]
Enhanced electromagnetic dipole moments and radiative decays of massive neutrinos due to the seesaw-induced non-unitary effects, Zhi-zhong Xing, Ye-Ling Zhou, Phys. Lett. B715 (2012) 178-182, arXiv:1201.2543.
[Luo:2012fm]
[17-11]
Magnetic dipole moment and keV neutrino dark matter, Chao-Qiang Geng, Ryo Takahashi, Phys. Lett. B710 (2012) 324-327, arXiv:1201.1534.
[Geng:2012jm]
[17-12]
Constraining an R-parity violating supergravity model with the Higgs induced Majorana neutrino magnetic moments, Marek Gozdz, Phys. Rev. D85 (2012) 055016, arXiv:1201.0873.
[Gozdz:2012xw]
[17-13]
Bounds on the dipole moments of the tau-neutrino via the process $e^{+}e^{-} \to \nu \bar\nu \gamma$ in a 331 model, A. Gutierrez-Rodriguez, Eur. Phys. J. C71 (2011) 1819, arXiv:1112.0268.
[GutierrezRodriguez:2011vg]
[17-14]
Large Tau and Tau Neutrino Electric Dipole Moments in Models with Vector Like Multiplets, Tarek Ibrahim, Pran Nath, Phys. Rev. D81 (2010) 033007, arXiv:1001.0231.
[Ibrahim:2010va]
[17-15]
Cosmological bounds on the 'millicharges' of mirror particles, Zurab Berezhiani, Angela Lepidi, Phys.Lett. B681 (2009) 276-281, arXiv:0810.1317.
[Berezhiani:2008gi]
[17-16]
An MSSM Extension with a Mirror Fourth Generation, Neutrino Magnetic Moments and LHC Signatures, Tarek Ibrahim, Pran Nath, Phys. Rev. D78 (2008) 075013, arXiv:0806.3880.
[Ibrahim:2008gg]
[17-17]
Transition magnetic moments of Majorana neutrinos in supersymmetry without R-parity in light of neutrino oscillations, Marek Gozdz, Wieslaw A. Kaminski, Fedor Simkovic, Amand Faessler, Phys. Rev. D74 (2006) 055007, arXiv:hep-ph/0606077.
[Gozdz:2006iz]
[17-18]
The Bounds on the magnetic moment of the tau-neutrino via the process $e^{+}e^{-} \to \nu \bar\nu \gamma$, C. Aydin, M. Bayar, N. Kilic, Chin. Phys. C32 (2008) 608-611, arXiv:hep-ph/0603080.
[Aydin:2006nc]
[17-19]
Constraints on UED KK-neutrino dark matter from magnetic dipole moments, Thomas Flacke, David W. Maybury, Int. J. Mod. Phys. D16 (2006) 1593-1600, arXiv:hep-ph/0601161.
[Flacke:2006tj]
[17-20]
Reactor searches for neutrino magnetic moment as a probe of extra dimensions, R.N. Mohapatra, Siew-Phang Ng, Hai-bo Yu, Phys. Rev. D70 (2004) 057301, arXiv:hep-ph/0404274.
[Mohapatra:2004ce]
[17-21]
Neutrino oscillations and Lorentz invariance breakdown, G. Lambiase, Phys. Lett. B560 (2003) 1-6.
[Lambiase:2003sq]
[17-22]
Counting extra dimensions: Magnetic Cherenkov radiation from high-energy neutrinos, Gabor Domokos, Andrea Erdas, S. Kovesi-Domokos, Astropart.Phys. 20 (2003) 215-219, arXiv:hep-ph/0212394.
[Domokos:2002us]
[17-23]
Neutrino magnetic moments in the left-right supersymmetric model, M. Frank, Phys. Rev. D60 (1999) 093005.
[Frank:1999nb]
[17-24]
Neutrino magnetic moments in left-right symmetric models, M. Czakon, J. Gluza, M. Zralek, Phys. Rev. D59 (1998) 013010.
[Czakon:1998rf]

18 - Phenomenology - Models - Conference Proceedings

[18-1]
Contribution to the neutrino magnetic moment coming from 2HDM in presence of magnetic fields, Carlos G. Tarazona, Rodolfo A. Diaz, John Moralesa, Andres Castillo, arXiv:1611.01135, 2016. 38th International Conference on High Energy Physics 3-10 August 2016. Chicago, USA.
[Tarazona:2016txe]

19 - Future Experiments

[19-1]
Search for electromagnetic properties of the neutrino in $\gamma e$ and $\gamma gamma$ collisions at CLIC, A. Senol, Phys. Rev. D85 (2012) 113015, arXiv:1204.0487.
[Senol:2012sn]
[19-2]
An active electron polarized scintillating GSO target for neutrino physics, B. Baiboussinov et al., Nucl. Instrum. Meth. A694 (2012) 335-340.
[Baiboussinov:2012bd]
[19-3]
Detecting Neutrino Magnetic Moments with Conducting Loops, Aram Apyan, Armen Apyan, Michael Schmitt, Phys. Rev. D77 (2008) 037901, arXiv:0709.3636.
[Apyan:2007wq]
[19-4]
Neutrino Properties Studied with a Triton Source Using Large TPC Detectors, Y. Giomataris, J.D. Vergados, Nucl. Instrum. Meth. A530 (2004) 330, arXiv:hep-ex/0303045.
[Giomataris:2003bp]
[19-5]
Status of the experiment on the laboratory search for the electron antineutrino magnetic moment at the level $\mu_\nu \leq 3 \times 10^{-12} \mu_B$, B. S. Neganov et al., Phys. Atom. Nucl. 64 (2001) 1948, arXiv:hep-ex/0105083.
[Neganov:2001bn]

20 - Future Experiments - Conference Proceedings

[20-1]
Ultra-Low-Energy Germanium Detector for Neutrino-Nucleus Coherent Scattering and Dark Matter Searches, Henry T. Wong, Mod. Phys. Lett. A23 (2008) 1431-1442, arXiv:0803.0033. CosPA Symoposium 2007.
[Wong:2008vk]
[20-2]
NOSTOS experiment and new trends in rare event detection, I. Giomataris et al., Nucl. Phys. Proc. Suppl. 150 (2006) 208, arXiv:hep-ex/0502033.
[Giomataris:2005bb]
[20-3]
Neutrinos in a spherical box, Giomataris, J. D. Vergados, Phys.Atom.Nucl. 67 (2004) 1097-1106, arXiv:hep-ph/0311007. NANP 2003, Dubna, Russia, June 23, 2003.
[Giomataris:2003aa]

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