Revisiting gamma-ray burst afterglows with time-dependent parameters

The relativistic external shock model of gamma-ray burst （GRB） afterglows has been estab- lished with five free parameters, i.e., the total kinetic energy E, the equipartition parameters for electrons ee and for the magnetic field eB, the number density of the environment n and the index of the powe...

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Veröffentlicht in:	Research in astronomy and astrophysics 2018-02, Vol.18 (2), p.53-72
Hauptverfasser:	Yang, Chao, Zou, Yuan-Chuan, Chen, Wei, Liao, Bin, Lei, Wei-Hua, Liu, Yu
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Sprache:	eng
Schlagworte:	(stars:) gamma-ray burst: general Afterglows Density Electrons Flux density Gamma ray bursts Gamma rays gamma 时间依赖晚霞爆炸光线注射模型 GRB 时间变化 Kinetic energy Magnetic fields Mathematical models methods: analytical Parameters Power law Radiation Time dependence
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creator	Yang, Chao Zou, Yuan-Chuan Chen, Wei Liao, Bin Lei, Wei-Hua Liu, Yu
description	The relativistic external shock model of gamma-ray burst （GRB） afterglows has been estab- lished with five free parameters, i.e., the total kinetic energy E, the equipartition parameters for electrons ee and for the magnetic field eB, the number density of the environment n and the index of the power- law distribution of shocked electrons p. A lot of modified models have been constructed to consider the variety of GRB afterglows, such as： the wind medium environment by letting n change with radius, the energy injection model by letting kinetic energy change with time and so on. In this paper, by as- suming all four parameters （except p） change with time, we obtain a set of formulas for the dynamics and radiation, which can be used as a reference for modeling GRB afterglows. Some interesting results are obtained. For example, in some spectral segments, the radiated flux density does not depend on the number density or the profile of the environment. As an application, through modeling the afterglow of GRB 060607A, we find that it can be interpreted in the framework of the time dependent parameter model within a reasonable range.
doi_str_mv	10.1088/1674-4527/18/2/18
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A lot of modified models have been constructed to consider the variety of GRB afterglows, such as： the wind medium environment by letting n change with radius, the energy injection model by letting kinetic energy change with time and so on. In this paper, by as- suming all four parameters （except p） change with time, we obtain a set of formulas for the dynamics and radiation, which can be used as a reference for modeling GRB afterglows. Some interesting results are obtained. For example, in some spectral segments, the radiated flux density does not depend on the number density or the profile of the environment. 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A lot of modified models have been constructed to consider the variety of GRB afterglows, such as： the wind medium environment by letting n change with radius, the energy injection model by letting kinetic energy change with time and so on. In this paper, by as- suming all four parameters （except p） change with time, we obtain a set of formulas for the dynamics and radiation, which can be used as a reference for modeling GRB afterglows. Some interesting results are obtained. For example, in some spectral segments, the radiated flux density does not depend on the number density or the profile of the environment. 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A lot of modified models have been constructed to consider the variety of GRB afterglows, such as： the wind medium environment by letting n change with radius, the energy injection model by letting kinetic energy change with time and so on. In this paper, by as- suming all four parameters （except p） change with time, we obtain a set of formulas for the dynamics and radiation, which can be used as a reference for modeling GRB afterglows. Some interesting results are obtained. For example, in some spectral segments, the radiated flux density does not depend on the number density or the profile of the environment. As an application, through modeling the afterglow of GRB 060607A, we find that it can be interpreted in the framework of the time dependent parameter model within a reasonable range.</abstract><cop>Beijing</cop><pub>National Astronomical Observatories, CAS and IOP Publishing Ltd</pub><doi>10.1088/1674-4527/18/2/18</doi><tpages>20</tpages><oa>free_for_read</oa></addata></record>
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subjects	(stars:) gamma-ray burst: general Afterglows Density Electrons Flux density Gamma ray bursts Gamma rays gamma 时间依赖晚霞爆炸光线注射模型 GRB 时间变化 Kinetic energy Magnetic fields Mathematical models methods: analytical Parameters Power law Radiation Time dependence
title	Revisiting gamma-ray burst afterglows with time-dependent parameters
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