辐射-绝热火球情景中的同步自康普顿:对某些费米/LAT 爆的多波长观测建模

Nissim Fraija, P. Veres, B. Betancourt Kamenetskaia, A. Galvan-Gamez, M. G. Dainotti, Simone Dichiara, R. L. Becerra
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引用次数: 0

摘要

预计来自距离最近、能量最高的伽马射线暴(GRB)的高能 GeV 光子为研究现实的 GRB 余辉模型中的极高能发射以及与低能波段的可能相关性提供了一个独特的机会。在标准的 GRB 余辉模型中,相对论均质冲击通常被认为是完全绝热的,然而,它也可能是部分辐射的。基于恒星风和恒密度介质中的外向冲击情景。我们提出了同步辐射自康普顿(SSC)和同步辐射过程的辐射-绝热分析模型,考虑到电子能量分布的幂律指数为1 < p < 2和2 $\leq$ p。在一个特殊的案例中,我们推导了费米/LAT光曲线,以及费米/LAT GRB目录第二批中9个爆发样本中能量为100 MeV的光子,它们的时间和光谱指数分别为1.5和2。这些事件很难用标准同步加速器余辉模型的闭合关系来描述,而且还显示出同步加速器极限以上的高能光子。我们对样本的多波长观测进行了建模,以约束微物理参数、环冲密度、体洛伦兹因子以及解释高能 GeV 光子的机制。
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Synchrotron self-Compton in a radiative-adiabatic fireball scenario: Modelling the multiwavelength observations in some Fermi/LAT bursts
Energetic GeV photons expected from the closest and the most energetic Gamma-ray bursts (GRBs) provide an unique opportunity to study the very-high-energy emission as well as the possible correlations with lower energy bands in realistic GRB afterglow models. In the standard GRB afterglow model, the relativistic homogeneous shock is usually considered to be fully adiabatic, however, it could be partially radiative. Based on the external forward-shock scenario in both stellar wind and constant-density medium. We present a radiative-adiabatic analytical model of the synchrotron self-Compton (SSC) and synchrotron processes considering an electron energy distribution with a power-law index of 1 < p < 2 and 2 $\leq$ p. We show that the SSC scenario plays a relevant role in the radiative parameter $\epsilon$, leading to a prolonged evolution during the slow cooling regime. In a particular case, we derive the Fermi/LAT light curves together with the photons with energies $\geq$ 100 MeV in a sample of nine bursts from the second Fermi/LAT GRB catalog that exhibited temporal and spectral indices with $\geq$ 1.5 and $\approx$ 2, respectively. These events can hardly be described with closure relations of the standard synchrotron afterglow model, and also exhibit energetic photons above the synchrotron limit. We have modeled the multi-wavelength observations of our sample to constrain the microphysical parameters, the circumburst density, the bulk Lorentz factor and the mechanism responsible for explaining the energetic GeV photons.
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