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《天体物理学报(英文版)》 2003-01
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Statistical Properties of the Highest Pulses in Gamma-Ray Bursts

Yi-Ping Qin, En-Wei Liang, Guang-Zhong Xie and Cheng-Yue SuNational Astronomical Observatories, Yunnan Observatory, Chinese Academy of Sciences, Kunming 650011; qinyp@public.km.yn.cnDepartment of Physics, Guangxi University, Nanning 530004; eloy@iaa.esDepartment of Physics, Guangdong Industry University, Guangzhou 510643  
We study the statistical properties of the highest pulses within individual gamma-ray bursts (GRBs). A wavelet package analysis technique and a developed pulse-finding algorithm have been applied to identify the highest pulses from burst profiles observed by BATSE on board CGRO from 1991 April 21 to 1999 January 26. The statistical light curves of the highest pulses in four energy channels have been derived by an aligning method, which illustrate the temporal evolution of the pulse emission. Our result that narrower pulses go with higher energies is consistent with previous findings. By normalizing both the pulse durations and counts to unity, "characteristic" profiles of the highest pulses in the four channels are also derived. The four characteristic profiles are turned out to be almost the same, thus strongly support the previous conclusion that the temporal profiles in different energy channels are self-similar and the previous conjecture on GRB pulses, implying that the emission process is similar at different energies. The cosmological time dilation effect is examined by investigating the relationship between the pulse flux and pulse duration. An anti-correlation between the two was found, which agrees with the expectation of the cosmological time dilation effect. Also, the evolution of the pulse duration with the observational epoch is studied. The result shows that the pulse duration tends to be shorter in later epochs. This trend cannot be explained by the present theoretical models, and may represent a great challenge to current theories.
【Fund】: Supported by the National Natural Science Foundation of China.
【CateGory Index】: P17
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