GALI -- GAmma射线迸发定位仪器：全尺寸工程模型的结果

arXiv - PHYS - Instrumentation and Methods for Astrophysics Pub Date : 2024-08-04 DOI:arxiv-2408.02144

Julia Saleh-Natur, Ehud Behar, Omer Reich, Shlomit Tarem, Zvika Tarem, Alex Vdovin, Amir Feigenboim, Roi Rahin, Avner Kaidar, Hovhannes Agalarian, Alon Osovizky, Max Ghelman

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引用次数: 0

摘要

我们展示了GALI--GAmma射线暴定位仪器的全尺寸工程模型，它由362个铯(Tl)小立方闪烁体组成，分布在$\sim2$l的小体积内，由硅光电倍增器读出。GALI可以通过闪烁体之间与角度相关的相互阻挡，提供具有高角度精度的GRB定向信息。在这里，我们用一个^{241}$Am源演示了GALI的实验室实验，它实现了<$3$^\circ$精度的方向重建，与我们的蒙特卡洛模拟一致。GALI 具有无遮挡天空的宽视场。在当前的立方配置下，GALI 的有效面积在 97 cm$^2$ （正面）和 138 cm$^2$ （从角 45$^\circ$ 处）之间变化，这在当前的实验中得到了验证。

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GALI -- A GAmma-ray burst Localizing Instrument: Results from Full Size Engineering Model

We present a full-size engineering model of GALI - The GAmma-ray burst Localizing Instrument, composed of 362 CsI(Tl) small cubic scintillators, distributed within a small volume of $\sim2$l, and read out by silicon photo-multipliers. GALI can provide directional information about GRBs with high angular accuracy from angle-dependent mutual obstruction between its scintillators. Here, we demonstrate GALI's laboratory experiments with an $^{241}$Am source, which achieved directional reconstruction of $<$3$^\circ$ accuracy, in agreement with our Monte-Carlo simulations. GALI has a wide field view of the unobstructed sky. With its current cubic configuration, GALI's effective area varies between 97 cm$^2$ (face on) and 138 cm$^2$ (from the corners at 45$^\circ$), which is verified in the current experiment.

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arXiv - PHYS - Instrumentation and Methods for Astrophysics

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