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11~40MΘ前新星模型下的II型超新星爆发能研究
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Abstract:
[1] | S. A. Colgate, M. H. Johnson. Hydrodynamic origin of cosmic rays. Physical Review Letters, 1960, 5(6): 235-238. |
[2] | S. A. Colgate, R. H. White. The hydrodynamic behavior of su- pernovae explosions. The Astrophysical Journal, 1966, 143: 626- 681. |
[3] | G. E. Brown, H. A. Bethe and G. Baym. Supernova theory. Nuclear Physics A, 1982, 375(3): 481-532. |
[4] | T. Kuroda, K. Kotake and T. Takiwaki. Fully general relativistic simulations of core-collapse supernovae with an approximate neutrino transport. The Astrophysical Journal, 2012, 755(1): 11- 60. |
[5] | S. X. Nakamura, K. Sumiyoshi and T. Stato. Neutrino deuteron reaction in the heating mechanism of core-collapse supernovae. Physical Review C, 2009, 80(3): 035802. |
[6] | I. Sagert, T. Fischer, M. Hempel, G. Pagliara, J. Schaffner-Bielich, A. Mezzacappa, F.-K. Thielemann and M. Liebend?rfer. Signals of the QCD phase transition in core-collapse supernovae. Physical Review Letters, 2009, 102(8): 081101. |
[7] | B. Dasgupta, A. Dighe, A. Mirizzi and G. G. Raffelt. Spectral split in prompt supernova neutrino burst: Analytic three-flavor treatment. Physical Review D 2008, 77(11): 113007. |
[8] | D. Y. Tsvetkov, I. M. Volkov, P. V. Baklanov, S. L. Blinnikov and O. Tuchin. Photometric observations and modeling of type IIb supernova 2008ax. Peremennye Zvezdy, 2009, 29(2): 2-13. |
[9] | K. Nomoto, M. Hashimoto. Presupernova evolution of massive stars. Physics Reports, 1988, 163(1): 13-36. |
[10] | S. E. Woosley, T. A. Weaver. Presupernova models: Sensitivity to convective algorithm and coulomb corrections. Physics Reports 1988, 163(1): 79-94. |
[11] | A. Heger, N. Langer. Presupernova evolution of rotating massive stars. II. evolution of the surface properties. Astrophysical Journal, 2000, 544: 1016-1035. |
[12] | A. Heger, S. E. Woosley and H. C. Spruit. Presupernova evolution of differentially rotating massive stars including magnetic fields. Astrophysical Journal, 2005, 626: 350-363. |
[13] | S. E. Woosley, A. Heger. The progenitor stars of gamma-ray bursts. Astrophysical Journal, 2006, 637: 914-921. |
[14] | S. E. Woosley, A. Heger. Nucleosynthesis and remnants in massive stars of solar metallicity. Physics Reports, 2007, 442(1): 269-283. |
[15] | M. Limongi, A. Chieffi. Presupernova evolution and explosion of massive stars. Journal of Physics: Conference Series, 2010, 202(1): 012002. |
[16] | S. W. Bruenn. The prompt-shock supernova mechanism. I-The effect of the free-proton mass fraction and the neutrino transport algorithm. Astrophysical Jounal, 1989, 340: 955-965. |
[17] | S. W. Bruenn. The prompt-shock supernova mechanism. II- Supra- nuclear EOS behavior and the precollapse model. Astrophysical Journal, 1989, 341: 385-400. |
[18] | S. C. Zhang, Z. H. Xie, Y. R. Wang and W. Z. Wang. Convective instability in the prompt explosion model of type-II supernovae. Chinese Journal of Astronomy and Astrophysics, 1998, 22: 161- 165. |
[19] | X. P. Xia, Y. Lin. The effects of ion screening on neutrino-nu- cleus interactions in core-collapse supernova explosions. Research in Astronomy and Astrophysics, 2010, 10: 689-695. |
[20] | D. K. Nadyozhin. Explosion energies, nickel masses and distances of type II plateau supernovae. Monthly Notices of the Royal Astronomical Society, 2003, 346(1): 97-104. |
[21] | S. J. Smartt, J. J. Eldridge, R. M. Crockett and J. R. Maund. The death of massive stars I. Observational constraints on the progenitors of type II-P supernovae. Monthly Notices of the Royal Astronomical Society, 2009, 395(3): 1409-1437. |
[22] | D. Q. Lamb, J. M. Lattimer, C. J. Pethick and D. G. Ravenhall. Hot dense matter and stellar collapse. Physical Review Letters, 1978, 41(23): 1623-1626. |