通过伽马射线暴探测 JWST 发现的恒星形成过剩的起源

Tatsuya Matsumoto, Yuichi Harikane, Keiichi Maeda, Kunihito Ioka
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引用次数: 0

摘要

詹姆斯-韦伯太空望远镜(JWST)最近的观测发现,在$z\gtrsim10$的明亮星系数量比预期的要多。我们提出,伽马射线暴(GRBs)是探索这种过量的起源,进而探索早期宇宙中恒星和星系形成历史的一个强有力的探测器。以最近发射的 "爱因斯坦探测器"(Einstein Probe,EP)为重点,我们发现假定可以推断出由$z/lesssim6$的伽玛射线暴形成率校准的伽玛射线暴形成率,EP每年可以在$z/gtrsim10$探测到几个伽玛射线暴。有趣的是,根据不同的过量情况,在$z\simeq10$时的GRB事件率也可能会出现过量,而对它的探测将有助于区分其他难以区分的情况。此外,我们还讨论了JWST发现的令人费解的红颜色紧凑星系,即所谓的 "小红点",如果它们是被尘埃遮挡的恒星形成星系,那么它们也可能承载暗GRB。
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Probing the Origin of the Star Formation Excess Discovered by JWST through Gamma-Ray Bursts
The recent observations by the James Webb Space Telescope (JWST) have revealed a larger number of bright galaxies at $z\gtrsim10$ than was expected. The origin of this excess is still under debate, although several possibilities have been presented. We propose that gamma-ray bursts (GRBs) are a powerful probe to explore the origin of the excess and, hence, the star and galaxy formation histories in the early universe. Focusing on the recently launched mission, Einstein Probe (EP), we find that EP can detect several GRBs annually at $z\gtrsim10$, assuming the GRB formation rate calibrated by events at $z\lesssim6$ can be extrapolated. Interestingly, depending on the excess scenarios, the GRB event rate may also show an excess at $z\simeq10$, and its detection will help to discriminate between the scenarios that are otherwise difficult to distinguish. Additionally, we discuss that the puzzling, red-color, compact galaxies discovered by JWST, the so-called ``little red dots'', could host dark GRBs if they are dust-obscured star forming galaxies. We are eager for unbiased follow-up of GRBs and encourage future missions such as high-z GUNDAM to explore the early universe.
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