在杰斐逊实验室使用 4 GeV 正电子对用于 EIC 的瓦上 SiPM 热量计插件的首个原型进行光束测试

Q3 Physics and Astronomy Instruments Pub Date : 2023-09-02 DOI:10.3390/instruments7040043

M. Arratia, Bruce Bagby, Peter Carney, Jiajun Huang, R. Milton, S. Paul, S. Preins, Miguel Rodriguez, Weibin Zhang

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引用次数: 0

摘要

我们最近提出了一种用于电子-离子对撞机（EIC）的高粒度热量计插件，它使用由 SiPM 读出的塑料闪烁片。它的特点包括：ASIC-away-from-SiPM 策略可降低冷却要求并最大限度地减少空间使用，同时采用 3D 打印框架来减少光学串扰和死区。为了评估这些特性，我们制作了一个 40 通道的原型，并在杰斐逊实验室使用 4 GeV 正电子束进行了测试。所测得的能谱和三维喷淋形状与模拟结果相符，从而证实了设计、制造技术和校准策略的有效性。这是首次在 EIC 探测器设计中使用瓦上 SiPM 技术。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Beam Test of the First Prototype of SiPM-on-Tile Calorimeter Insert for the EIC Using 4 GeV Positrons at Jefferson Laboratory

We recently proposed a high-granularity calorimeter insert for the Electron-Ion Collider (EIC) that uses plastic scintillator tiles read out by SiPMs. Among its features are an ASIC-away-from-SiPM strategy for reducing cooling requirements and minimizing space use, along with employing 3D-printed frames to reduce optical crosstalk and dead areas. To evaluate these features, we built a 40-channel prototype and tested it using a 4 GeV positron beam at Jefferson Laboratory. The measured energy spectra and 3D shower shapes are well described by simulations, confirming the effectiveness of the design, construction techniques, and calibration strategy. This constitutes the first use of SiPM-on-tile technology in an EIC detector design.

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