A high rate and high timing photoelectric detector prototype with RPC structure

arXiv - PHYS - Instrumentation and Detectors Pub Date : 2024-07-29 DOI:arxiv-2407.19720

Yiding Zhao, D. Hu, M. Shao, Y. Zhou, S. Lv, Xiangqi Tian, Anqi Wang, Xueshen Lin, Hao Pang, Y. Suna

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Abstract

To meet the need for a high counting rate and high time resolution in future high-energy physics experiments, a prototype of a gas photodetector with an RPC structure was developed. Garfield++ simulated the detector's performance, and the single photoelectron performance of different mixed gases was tested with an ultraviolet laser. The detector uses a low resistivity ($\sim1.4\cdot 10^{10} \Omega\cdot cm$) float glass so that its rate capability is significantly higher than that of ordinary float glass($10^{12}\sim10^{14} \Omega\cdot cm$), the laser test results show that in MRPC gas($R134a/iC_{4}H_{10}/SF_{6}(85/10/5)$), the single photoelectron time resolution is best to reach 20.3 ps at a gas gain of $7\cdot 10^{6}$. Increasing the proportion of $iC_{4}H_{10}$ can effectively reduce the probability of photon feedback, without changing the time resolution and maximum gain. In addition to being applied to high-precision time measurement scenarios (eg:T0, TOF), the detector can also quantitatively test the single photoelectron performance of different gases and will be used to find eco-friendly MRPC gases.

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采用 RPC 结构的高速率、高定时光电探测器原型

为了满足未来高能物理实验对高计数率和高时间分辨率的需求，我们开发了一种具有 RPC 结构的气体光电探测器原型。Garfield++ 模拟了探测器的性能，并用紫外激光测试了不同混合气体的单光电子性能。探测器使用低电阻率（$\sim1.激光测试结果表明，在 MRPC 气体（$R134a/iC_{4}H_{10}/SF_{6}(85/10/5)$）中，单光电子时间分辨率最好能达到 20.增加 iC_{4}H_{10}$ 的比例可以有效降低光子反馈的概率，而不会改变时间分辨率和最大增益。除了应用于高精度时间测量场景（如：T0、TOF）之外，该探测器还可以定量测试不同气体的单光电子性能，并将用于寻找对环境友好的 MRPC 气体。

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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arXiv - PHYS - Instrumentation and Detectors

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