DOI: https://doi.org/10.18524/1810-4215.2014.27.83068

PARTICLES, NEUTRINO AND PHOTONS IN THE MAGNETOSPHERE OF A COLLAPSING STAR

V. G. Kryvdyk

Анотація


The formation of the stellar
magnetosphere during the gravitational collapse is
discussed. Primary protons and electrons accelerate in the
star’s magnetosphere during its gravitational collapse. In
what follows, the flux of particles, photons and neutrinos
generated in the magnetosphere is multiplied in a cascade
process initiated by the self-interaction of particles and
their interaction with magnetic fields. These processes are
especially effective for the formation of magnetospheres
in collapsing stars

Ключові слова


stellar collapse, particle acceleration, neutrino generation, magnetospheres of collapsing stars

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Посилання


Alecian E., et al.: 2008, Astron. and Astroph., 481, L99.

Arnett W. D.: 1967, Canad. J. Phys., 45, 1621.

Arnett W. D.: 1979, Gravitational cоllapse of evolved stars

as a problem in physics.In: “Sources of gravitational

radiation”. Ed. Smarr. Gambridge, pp. 163-174.

Baiotti L., Giacomazzo B., Rezzolla L.: 2008, Phys. Rev.

D, 78, id. 084033.

Bouret J.- C. et al. : 2008, MNRAS, 389, 75.

Braaten E., Segel D.: 1993, Phys. Rev. D, 48, 1478.

Bruenn S.W.: 1985, Ap. J. Supl. Ser., 58, 771.

Canuto V. et al.: 1970, Phys. Rev. D., 2, 281.

Cherepashchuk A.M.: 2003, Physics Uspekchi, 46, 335.

Chevalier R. A.: 2005, Ap. J., 619, 839.

Chiu H.Y., Morrison P.: 1960, Phys. Rev. Lett., 5, 573.

Chiu H.Y.: 1961, Phys. Rev., 123, 1040.

Chiu H.Y., Salpeter E.E.: 1964, Phys. Rev. Lett., 12, 413.

Chiu H.Y. Stabler R.C.: 1961, Phys. Rev., 122, 1317.

Dicus D. A.: 1972, Phys. Rev. D, 6, 941.

Donati J.F. et al: 2002, MNRAS, 333, 55.

Donati J.F. et al.: 2001, MNRAS, 326, 1265.

Dutta S.T., Ratkovich S., Prakash M.: 2004, Phys. Rev. D,

, id. 023005.

Eldridge J.J., Tout C.A.: 2004, MNRAS, 353, 87.

Fassio-Canuto L.: 1969, Phys. Rev., 187, 2141.

Friman B.L., Maxwell O.V.: 1979, Ap. J., 232, 541.

Ginzburg V.L., Ozernoy L.M.: 1964, Zh. Exper. i Theor.

Fiz., 47, 1030.

Goldreich P., Julian :1969, Ap. J., 157, 869.

Hajakawa S.: 1978a, Cosmic ray physics. Part 1. Nuclear

aspects, Mir, Moskva.

Hajakawa S.: 1978b, Cosmic ray physics. Part 2. Astrophysical

aspects, Mir, Moskva.

Hansen C. J.: 1968, Astrophys. Space Sci., 1, 499.

Heitel W.: 1954, The quantum theory of radiation, Oxford

University Press, Oxford.

Hubrig S. et al: 2013, Astron. and Astrophys., 551, id.A33,

pp.

Itoh N. et al: 1989, Ap. J., 339, 354.

Jordan S.: 2009, Proc. IAU Symposium, 259, 369.

Kepler S.O. et al.: 2013, MNRAS, 429, 2934.

Koers H.B.J., Wijers R.A.M.J.: 2005, MNRAS, 364, 934.

Kryvdyk V.: 1999, MNRAS, 309, 593.

Kryvdyk V.: 2001, Adv. Space Res., 28, 463.

Kryvdyk V.: 2003, Adv. Space Res., 31, 1315.

Kryvdyk V.: 2004, Adv. Space Res., 33, 484.

Kryvdyk V.: 2010, Kinem. Phys. Cel. Bodies, 25, 277.

Landstreet J. D.: 1967, Phys. Rev., 153, 1372.

Lattimer J.M. et al.: 1991, Phys. Rev. Lett., 66, 2701.

Leng K.R.: 1974, Astrophysical formulae, SpringerVerlag, Berlin-Heidelberg-New York.

Munakata H., Kohyama Y., Itoh N.: 1985, Ap. J., 296, 197.

Petrosian G., Beaudet V., Salpeter E.E.: 1967, Phys. Rev.,

, 1445.

Pontekorvo B.M.: 1959, JETP, 36, 1615.

Qian Y.Z., Woosley S.E.: 1996, Ap. J., 471, 331.

Ratkovic S., Dutta S.I., Prakash M.: 2003, Phys. Rev. D,

, id. 123002.

Reynoso M.M., Romero G.E., Sampayo O.A.: 2006,

Astron. Astrophys., 454, 11.

Ritus V. I.: 1961, JETP, 41, 1285.

Ruderman M.A., Sutherland: 1975, Ap. J., 196, 51.

Sturrock P. A.: 1971, Ap. J., 164, 529.

Tubbs D.L., Schramm D.N.: 1975, Ap. J., 201, 467.

Wade G.A. et al.: 2014, Proc. IAU Symp., 302, 265.

Wooslej S.E., Heger A.: 2006, Ap. J., 637, 914.

Zeldovich J.B., Novikov I.D.: 1971, Theory of gravity and

stellar evolution. Nauka, Moscow (in Russian).




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