Qin 2009 曲率效应导致的谱E_p在pulse上的变化

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· arXiv e-print (arXiv:0902.2733)

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Title:		Development of the spectrum of gamma-ray burst pulses influenced by the intrinsic spectral evolution and the curvature effect
Authors:		Qin, Y. -P.
Publication:		eprint arXiv:0902.2733
Publication Date:		02/2009
Origin:		ARXIV
Keywords:		Astrophysics - High Energy Astrophysical Phenomena
Comment:		39 pages, 15 figures, accepted by Chinese Physics B; Chinese Physics B 18 (2009) 825-844
Bibliographic Code:		2009arXiv0902.2733Q

Abstract

Spectral evolution of gamma-ray burst pulses assumed to arise from emission of fireballs is explored. It is found that, due to the curvature effect, the integrated flux and peak energy are well related by a power law in the decaying phase of pulses, where the index is about 3, being free of the intrinsic emission and the Lorentz factor. The spectrum of a pulse in its decaying phase differs slightly for different intrinsic spectral evolution patterns, indicating that it is dominated by the curvature effect. In the rising phase, the integrated flux keeps increasing whilst the peak energy remains unchanged when the intrinsic emission bears an unchanged spectrum. Within this phase, the flux decreases with the increasing of the peak energy for a hard-to-soft intrinsic spectrum, and for a soft-to-hard-to-soft intrinsic spectrum, the flux generally increases with the increasing of the peak energy. An intrinsic soft-to-hard-to-soft spectral evolution within a co-moving pulse would give rise to a pulse-like evolutionary curve for the peak energy.

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