期刊
ASTROPHYSICAL JOURNAL
卷 667, 期 1, 页码 351-357出版社
IOP PUBLISHING LTD
DOI: 10.1086/520715
关键词
gamma rays : bursts; shock waves; supernovae : general
We show that the prompt and afterglow X-ray emission of GRB 060218, as well as its early (t less than or similar to 1 day) optical-UV emission, can be explained by a model in which a radiation-mediated shock propagates outward from a compact progenitor star into a dense wind. The prompt thermal X-ray emission is produced in this model when the mildly relativistic shock, beta approximate to 0: 85, carrying a few times 10(49) erg, reaches the wind (Thomson) photosphere, where the post-shock thermal radiation is released and the shock becomes collisionless. Adopting this interpretation of the thermal X-ray emission, we predict a subsequent X-ray afterglow, due to synchrotron emission and inverse Compton scattering of supernova UV photons by electrons accelerated in the collisionless shock. Early optical-UV emission is also predicted, due to the cooling of the outer delta M similar to 10(-3) M-circle dot envelope of the star, which was heated to high temperature during the shock passage. The observed X-ray afterglow and the early optical-UV emission are both consistent with those expected in this model. Detailed analysis of the early optical-UV emission may provide detailed constraints on the density distribution near the stellar surface.
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