Plastic Scintillator Detector with the Readout Based on an Array of Large-Area SiPMs for the ND280/T2K Upgrade and SHiP Experiments

Proceedings of the 5th International Workshop on New Photon-Detectors (PD18) Pub Date : 2018-11-27 DOI:10.7566/JPSCP.27.011005

A. Korzenev, C. Betancourt, A. Blondel, D. Breton, A. Datwyler, D. Gascón, S. Gómez, M. Khabibullin, Y. Kudenko, Y. Kudenko, Y. Kudenko, J. Maalmi, P. Mermod, E. Noah, N. Serra, D. Sgalaberna, B. Storaci

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引用次数: 11

Abstract

Plastic scintillator detectors have been extensively used in particle physics experiments for decades. A large-scale detector is typically arranged as an array of staggered long bars which provide a fast trigger signal and/or particle identification via time-of-flight measurements. Scintillation light is collected by photosensors coupled to both ends of every bar. In this article, we present our study on a direct replacement of commonly used vacuum photomultiplier tubes (PMTs) by arrays of large-area silicon photomultipliers (SiPMs). An SiPM array which is directly coupled to the scintillator bulk, has a clear advantage with respect to a PMT: compactness, mechanical robustness, high PDE, low operation voltage, insensitivity to magnetic field, low material budget, possibility to omit light-guides. In this study, arrays of eight 6 x 6 mm2 area SiPMs were coupled to the ends of plastic scintillator bars with 1.68 m and 2.3 m lengths. An 8 channel SiPM anode readout ASIC (eMUSIC) was used for the readout, amplification and summation of signals of individual SiPMs. Timing characteristics of a large-scale detector prototype were studied in test-beams at the CERN PS. This technology is proposed for the ToF system of the ND280/T2K II upgrade at J-PARC and the timing detector of the SHiP experiment at the CERN SPS.

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基于大面积SiPMs阵列的读出塑料闪烁体探测器用于ND280/T2K升级和舰船实验

几十年来，塑料闪烁体探测器在粒子物理实验中得到了广泛应用。大型探测器通常布置为交错长条形阵列，通过飞行时间测量提供快速触发信号和/或粒子识别。闪烁光由连接在每根杆两端的光电传感器收集。在这篇文章中，我们提出了我们的研究直接取代常用的真空光电倍增管(pmt)的阵列大面积硅光电倍增管(sipm)。与闪烁体体直接耦合的SiPM阵列相对于PMT具有明显的优势:紧凑，机械坚固性，高PDE，低工作电压，对磁场不敏感，低材料预算，省略光导的可能性。在这项研究中，8个6 × 6 mm2面积的sipm阵列被耦合到长度分别为1.68 m和2.3 m的塑料闪烁体条的两端。8通道SiPM阳极读出ASIC (eMUSIC)用于读出、放大和求和单个SiPM的信号。在欧洲核子研究中心PS试验束中研究了大型探测器样机的时序特性，并提出了该技术用于J-PARC的ND280/T2K II升级ToF系统和CERN SPS的SHiP实验的时序探测器。

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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Proceedings of the 5th International Workshop on New Photon-Detectors (PD18)

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