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引用次数: 0
摘要
伽马射线暴(GRB)221009A的太电子伏特(TeV)光曲线在开始时出现了前所未有的快速上升。这种现象可能是由于发射区域对光子和电子的强烈吸收。随着外部冲击向外扩展,半径增大,物质体积也随之增大,导致 TeV 光子的光学深度逐渐减小。我们研究了早期 TeV 光曲线的几种潜在解释。我们计算了 TeV 光子的光学深度,同时考虑了与外部冲击中低能光子的湮灭以及 TeV 辐射级联产生的电子对它们的散射。即使在有利的假设条件下,我们也确定这些过程的光学深度太小,无法解释观测到的光曲线。其他吸收源,包括喷出物或外部冲击中的电子,也不会产生足够的光学深度。因此,早期奇特的 TeV 光曲线背后的原因仍不清楚。
What absorbs the early TeV photons of GRB 221009A?
The tera-electronvolt (TeV) light curve of gamma-ray burst (GRB) 221009A exhibits an unprecedentedly rapid rise at its start. This phenomenon could be due to the strong absorption of photons and electrons within the emitting region. As the external shock expands outward and the radius increases, the volume of matter also grows, resulting in a gradual reduction of the optical depth for TeV photons. We investigate several potential explanations for the early TeV light curves. We calculate the optical depth for TeV photons, considering both annihilation with lower-energy photons in the external shock and their scattering by electrons generated through the cascading of the TeV emission. Even under the favorable assumptions, we have determined that the optical depths for these processes are orders of magnitude too small to explain the observed light curve. Additional sources of absorbers, including electrons in the ejecta or external shock, also do not result in sufficient optical depths. Hence, the cause behind the early peculiar TeV light curve remains unclear.
期刊介绍:
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