Диссертация (1104029), страница 17
Текст из файла (страница 17)
Smirnov // Phys. Lett. B. — 1991. — Vol. 260. — P.161.[101] Vidal, J. Nondynamical contributions to left-right transitions in the Solarneutrino problem / J. Vidal, J. Wudka // Phys. Lett. B. — 1990. — Vol.249. — P. 473.[102] Akhmedov, E. Resonant spin-flip precession of neutrinos and pusar velocities/ E. Akhmedov, A. Lanza, D. Sciama // Phys. Rev. D.
— 1997. — Vol. 56. —P. 6117.[103] Egorov, A. Neutrino oscillations in electromagnetic fields / A. Egorov, A.Lobanov, A. Studenikin // Phys. Lett. B. — 2000. — Vol. 491. — P. 137-142.[104] Studenikin, A. I. The four new effects in neutrino oscillations / A. I. Studenikin// Nucl. Phys. B Proc. Suppl.
— 2005. — Vol. 143.— P. 570.[105] Lee, B. W. Natural suppression of symmetry violation in gauge theories: muon- lepton and electron lepton number nonconservation / B. W. Lee, R. E. Shrock// Phys. Rev. D. — 1977. — Vol. 16. — P. 1444.[106] Final results on the neutrino magnetic moment from the MUNU experiment/ Z. Daraktchieva et al.
// Phys. Lett. B. — 2005. — Vol. 615. — P. 153-159.[107] A search of neutrino magnetic moments with a high-purity germanium detectorat the kuo-sheng nuclear power station / H. T. Wong et al. // Phys. Rev. D.— 2007. — Vol. 75. — P. 012001.107[108] Direct Measurement of the Be-7 Solar Neutrino Flux with 192 Days of BorexinoData / C. Arpesella et al. // Phys. Rev. Lett. — 2008. — Vol.
101. — P. 091302.[109] GEMMA experiment: Three years of the search for the neutrino magneticmoment / A. G. Beda et al. // Phys. Part. Nucl. Lett. — 2010. — Vol. 7. —P. 406-409.[110] Bernstein, J. Electromagnetic properties of the neutrino / J. Bernstein, M.Ruderman, G. Feinberg // Phys. Rev. — 1963. — Vol. 132.
— P. 1227-1233.[111] Babu, K. S. Quantization of electric charge from anomaly constraints and amajorana neutrino / K. S. Babu, R. N. Mohapatra // Phys. Rev. D. — 1990.— Vol. 41. — P. 271.[112] Charge quantization in the standard model and some of its extensions / R.Foot, G. C. Joshi, H. Lew, R. R. Volkas // Mod. Phys. Lett. A.
— 1990. —Vol. 5. — P. 2721-2732.[113] Foot, R. Electric charge quantization / R. Foot, H. Lew, R. R. Volkas // J.Phys. G. — 1993. — Vol. 19. — P. 361-372.[114] Leinson, L. B. Coulomb scattering of a neutrino from nuclei in a dense plasma/ L. B. Leinson, V. N. Oraevsky, V. B. Semikoz // Phys. Lett. B. — 1988. —Vol. 209. — P. 80-82.[115] Nieves, J. F. The electromagnetic vertex of neutrinos in an electron backgroundand a magnetic field / J. F. Nieves // Phys. Rev. D.
— 2003. — Vol. 68. —P. 113003.[116] Duan, H. Neutrino processes in strong magnetic fields and implications forsupernova dynamics / H. Duan, Y.-Zh. Qian // Phys. Rev. D. — 2004. — Vol.69. — P. 123004.[117] Studenikin, A. New bounds on neutrino electric millicharge from limits onneutrino magnetic moment / A.
Studenikin // arXiv:1302.1168[hep-ph].[118] Marinelli, M. The electric neutrality of matter: a summary / M. Marinelli, G.Morpurgo // Phys. Lett. B. — 1984. — Vol. 137. — P. 439.[119] Experimental limit for the charge of the free neutron / J. Baumann, J. Kalus,R. Gahler, W. Mampe // Phys.
Rev. D. — 1988. — Vol. 37. — P. 3107-3112.108[120] Electrically charged compact stars and formation of charged black holes / S.Ray et al. // Phys. Rev. D. — 2003. — Vol. 68. — P. 084004.[121] Observation of a neutrino burst from the supernova SN 1987a / K. Hirata etal. // Phys. Rev. Lett. — 1987. — Vol. 58. — P.
1490-1493.[122] Iorio, L. Constraining the electric charges of some astronomical bodies inReissner-Nordstrom spacetimes and generic r−2 -type power-law potentialsfrom orbital motions/ L. Iorio // Gen. Rel. Grav. — 2012. — Vol. 44. — P.1753-1767.[123] Giunti, C. Fundamentals of neutrino physics and astrophysics / C. Giunti, Ch.W. Kim.
— Oxford university press, 2007. — 728 p.[124] Pal, P. B. Particle physics confronts the solar neutrino problem / P. B. Pal.// Int. J. Mod. Phys. A. — 1992. — Vol. 7. — P. 5387-5460.[125] Lobanov, A. E. Neutrino oscillations in moving and polarized matter underthe influence of electromagnetic fields / A. E. Lobanov, A. I.
Studenikin //Phys. Lett. B. — 2005. — Vol. 515. — P. 94-98.[126] Studenikin, A. Neutrino quantum states and spin light in matter / A.Studenikin, A. Ternov // Phys. Lett. B. — 2005. — Vol. 608. — P. 107-114.[127] Grigorev, A. Quantum theory of neutrino spin light in dense matter / A.Grigorev, A. Studenikin, A. Ternov // Phys.
Lett. B. — 2005. — Vol. 622. —P. 199-206.[128] Kirichenko, P. Neutrino flavor oscillations in matter moving with acceleration /P. Kirichenko, A. Studenikin, I. Tokarev // Abstracts of the 25th InternationalConference on Neutrino Physics and Astrophysics — Kyoto, 2012. — P. 86.[129] Nunokawa, H.
The effect of random matter density perturbations on the MSWsolution to the solar neutrino problem / H. Nunokawa, A. Rossi, V. B. Semikoz,J. W. F. Valle // Nucl. Phys. B. — 1996. — Vol. 472. — P. 495-517.[130] Nunokawa, H. Neutrino conversions in a polarized medium / H. Nunokawa, V.B. Semikoz, A. Yu. Smirnov, J.
W. F. Valle // Nucl. Phys. B. — 1997. — Vol.501. — P. 17-40.109[131] Loeb, A. Bound neutrino sphere and spontaneous neutrino pair creation incold neutron stars / A. Loeb // Phys. Rev. Lett. — 1990. — Vol. 64. — P. 115.[132] Neutrino Landau damping / L. Oliveira e Silva et al. // Phys. Lett. A. — 2000.— Vol. 270. — P.
265-272.[133] Mikheyev, S. P. Resonant neutrino oscillations in matter / S. P. Mikheyev, A.Yu. Smirnov // Prog. Part. Nucl. Phys. — 1989. — Vol. 23. — P. 41-136.[134] Core-Collapse supernovae: reflections and directions / H. Janka et al. // Prog.Theor. Exp. Phys. — 2012. — Vol. 2012. — P. 01A309.[135] Pauli, W. Relativistic Field Theories of Elementary Particles / W. Pauli //Rev.
Mod. Phys. — 1941. — Vol. 13. — P. 203-232.[136] Furry, W. On Bound States and Scattering in Positron Theory / W. Furry //Phys. Rev. — 1951. — Vol. 81. — P. 115-124.[137] Studenikin, A. Quantum treatment of neutrino in background matter / A.Studenikin // J. Phys. A. — 2006. — Vol. 39. — P. 6769-6776.[138] Studenikin, A. Neutrinos and electrons in matter: a new approach / A.Studenikin // Ann. Found. de Broigle. — 2006. — Vol.
31. — P. 289-316.[139] Studenikin, A. Method of wave equations exact solutions in studies of neutrinosand electrons interaction in dense matter / A. Studenikin // J. Phys. A. —2008. — Vol. 41. — P. 164047.[140] Frolov, I. E. Synchrotron Radiation in the Standard Model Extension / I. E.Frolov, V. Ch. Zhukovsky // J. Phys. A. — 2007.
— Vol. 40.— P. 10625-10640.[141] Studenikin, A. I. New effects of nonzero neutrino electric charge /A. I. Studenikin, I. V. Tokarev // Nucl. Phys. B Proc. Suppl. — 2013. —Vol. 237-238.— P. 317-319.[142] Neutrino electromagnetic interactions in extreme external conditions / A.Grigoriev et al. // Proceedings of the XXIVth Rencontres de Blois: ParticlePhysics and Cosmology — Blois, 2012.— P. 337-340.[143] Landau, L.
Diamagnetismus der Metalle / L. Landau // Zeitschrift fur Physik.— 1930. — Vol. 64. — P. 629-637.110[144] Grigoriev, A. V. Quantum states of the neutrino in a nonuniformly movingmedium / A. V. Grigoriev, A. M. Savochkin, A. I. Studenikin // Russ. Phys.J. — 2007. — Vol. 50. — P. 845-852.[145] Balantsev, I.
A. On the problem of relativistic particles motion in strongmagnetic field and dense matter / I. A. Balantsev, Yu. V. Popov, A. I.Studenikin // J. Phys. A. — 2011. — Vol. 44. — P. 255301.[146] Arbuzova, E. V. Pure quantum states of neutrino with rotating spin in densemagnetized matter / E. V. Arbuzova, A. E. Lobanov, E. M. Murchikova //Phys. Rev. D. — 2010. — Vol. 81.
— P. 045001.[147] Lobanov, A. Spin light of neutrino in matter and electromagnetic fields / A.Lobanov, A. Studenikin // Phys. Lett. B — 2003. — Vol. 564. — P. 27-34.[148] Grigoriev, A. The effect of plasmon mass on spin light of neutrino in densematter / A. Grigoriev, A. Lokhov, A. Studenikin, A. Ternov // Phys. Lett. B.— 2012. — Vol. 718. — P.
512-515.[149] Ternov, A. I. Decay of a massive neutrino in magnetized electron gas / A. I.Ternov, P. A. Eminov // Phys. Rev. D. — 2013. — Vol. 87. — P. 113001.[150] Schwinger, J. S. On the classical radiation of accelerated electrons / J. S.Schwinger // Phys. Rev. — 1949. — Vol. 75. — P. 1912.[151] Mikaelian, K.
O. New mechanism for slowing down the rotation of dense stars/ K. O. Mikaelian // Astrophys. J. — 1977. — Vol. 214. — P. L23.[152] Epstein, R. Neutrino angular momentum loss in rotating stars / R. Epstein// Astrophys. J. — 1978. — Vol. 219. — P. L39-L41.[153] Dvornikov, M. Spin-down of neutron stars by neutrino emission / M.Dvornikov, C.
Dib // Phys. Rev. D. — 2010. — Vol. 82. — P. 043006.[154] Faucher-Giguere, C.-A. Birth and evolution of isolated radio pulsars / C.-A.Faucher-Giguere, V. M. Kaspi // Astrophys. J. — 2006. — Vol. 643. — P. 332355.[155] The Pulsar Search Collaboratory: discovery and timing of five new pulsars /R. Rosen et al. // Astrophys. J. — 2013. — Vol. 768. — P. 85.111[156] Two superluminous supernovae from the early universe discovered by theSupernova Legacy Survey / D. A.
![](https://s.studizba.com/z.php?f=/templates/si/i/noavatar.png&w=100&h=100&t=1"){kind=avatar}
