The Spectral Parameters of Gamma-Ray Blazars

Muhammad S. Anjum, L. Chen, M. Gu
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Abstract

The blazars are the brightest astrophysical objects in the extragalactic gamma-ray sky and divided into two main classes, Flat Spectrum Radio Quasars (FSRQs) and BL Lac objects (BLs). Blazars emit radiation via non-thermal processes including synchrotron and inverse Compton (IC), and their multiband spectra are peaked and highly curved. We find that FSRQs show higher curvature than BLs, that might be due to complex radiation mechanisms. We investigate the relationship between spectral parameters of BLs to investigate the signatures of particle acceleration and cooling in plasma jets of blazars. The synchrotron peak frequency of BLs is correlated with the spectral curvature, that is a signature of stochastic particle acceleration. The synchrotron peak frequency also shows an inverse correlation with gamma-ray luminosity and the Compton dominance, that is a signature of blazar sequence. We, therefore, suggest that the synchrotron peak frequency in BLs is dominated by radiative cooling and arises due to a cooling break, whereas the curvature might arise due to a stochastic particle acceleration mechanism.
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伽玛射线耀变体的光谱参数
blazars是河外伽玛射线天空中最亮的天体,分为两大类:平谱射电类星体(FSRQs)和BL Lac天体(BLs)。blazar通过非热过程发射辐射,包括同步加速器和逆康普顿(IC),它们的多波段光谱是峰值和高度弯曲的。我们发现fsrq比BLs具有更高的曲率,这可能是由于复杂的辐射机制。我们研究了BLs光谱参数之间的关系,以研究耀变体等离子体射流中粒子加速和冷却的特征。BLs的同步加速器峰值频率与谱曲率相关,这是随机粒子加速的标志。同步加速器峰值频率也与伽马射线亮度和康普顿优势呈负相关,这是耀变体序列的标志。因此,我们认为BLs中的同步加速器峰值频率由辐射冷却主导,并由冷却中断引起,而曲率可能由随机粒子加速机制引起。
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