POLAR任务的伽马射线偏振结果和未来展望

M. Kole, N. Angelis, J. Burgess, F. Cadoux, J. Greiner, J. Hulsman, H. C. Li, S. Mianowski, A. Pollo, Nicolas Produit, D. Rybka, J. Stauffer, J. Sun, B. B. Wu, X. Wu, A. Zadrożny, S. Zhang
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引用次数: 2

摘要

尽管对伽玛射线暴(GRB)的观测已有50多年的历史,但关于其性质和辐射发生的环境仍有许多悬而未决的问题。长期以来,对GRB瞬发辐射的偏振测量已经被理论化,能够回答这些问题中的大多数。POLAR探测器是由瑞士、中国和波兰合作开发的专用GRB偏振计。该仪器于2016年9月与中国第二个空间实验室天宫二号一起发射,之后花了6个月的时间收集科学数据。在此期间,POLAR探测到了55颗伽马射线暴以及几颗脉冲星。通过对GRB偏振星表的分析,我们可以看到瞬发辐射是低极化或完全不极化的。然而,需要注意的是,在单脉冲内,有一个不断变化的偏振角的强烈暗示,这掩盖了时间积分分析中的偏振度。在POLAR任务成功的基础上,POLAR-2仪器目前正在研制中。POLAR-2是瑞士、中国、波兰和德国的合作项目,最近被批准于2024年发射。由于其高灵敏度,POLAR-2每年将产生至少50个grb的偏振测量,其精度等于或高于POLAR公布的最佳结果。因此,POLAR-2的目标是使快速极化成为一个标准的可观测值,并产生伽马射线暴的伽马射线极化目录。在这里,我们将介绍POLAR任务的概况及其所有科学测量结果。此外,我们将概述未来的POLAR-2任务,以及它将如何回答POLAR结果提出的一些问题。
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Gamma-Ray Polarization Results of the POLAR Mission and Future Prospects
Despite over 50 years of Gamma-Ray Burst (GRB) observations many open questions remain about their nature and the environments in which the emission takes place. Polarization measurements of the GRB prompt emission have long been theorized to be able to answer most of these questions. The POLAR detector was a dedicated GRB polarimeter developed by a Swiss, Chinese and Polish collaboration. The instrument was launched, together with the second Chinese Space Lab, the Tiangong-2, in September 2016 after which it took 6 months of scientific data. During this period POLAR detected 55 GRBs as well as several pulsars. From the analysis of the GRB polarization catalog we see that the prompt emission is lowly polarized or fully unpolarized. There is, however, the caveat that within single pulses there are strong hints of an evolving polarization angle which washes out the polarization degree in the time integrated analysis. Building on the success of the POLAR mission, the POLAR-2 instrument is currently under development. POLAR-2 is a Swiss, Chinese, Polish and German collaboration and was recently approved for launch in 2024. Thanks to its large sensitivity POLAR-2 will produce polarization measurements of at least 50 GRBs per year with a precision equal or higher than the best results published by POLAR. POLAR-2 thereby aims to make the prompt polarization a standard observable and produce catalogs of the gamma-ray polarization of GRBs. Here we will present an overview of the POLAR mission and all its scientific measurement results. Additionally, we will present an overview of the future POLAR-2 mission, and how it will answer some of the questions raised by the POLAR results.
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