PSI muEDM实验中μ子触发探测器快速前端电子器件的研制

IF 1.9 3区工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Transactions on Nuclear Science Pub Date : 2025-06-11 DOI:10.1109/TNS.2025.3578674

Tianqi Hu;Guan Ming Wong;Chavdar Dutsov;Siew Yan Hoh;Kim Siang Khaw;Diego Alejandro Sanz Becerra;Philipp Schmidt-Wellenburg;Yuzhi Shang;Yusuke Takeuchi

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引用次数: 0

摘要

本文概述了Paul Scherrer研究所（PSI） muEDM实验中用于μ子触发探测器的快速前端电子读出板的设计和开发。触发探测器由栅极和孔径探测器组成，战略性地位于超导注入通道的末端，为磁踢动器产生触发信号，当μ子注入存储螺线管的中心区域时，磁踢动器就会激活。在电磁阀的磁场内，系统配置经过优化，以满足严格的性能规范，包括最小的信号传播延迟，高检测效率，非磁性以及在不同实验条件下一致的运行稳定性。此外，该设计还采用了强大的方法来抑制介子束线中的正电子污染。给出的结果包括台架测试和实际波束测试的性能评估，突出了电子设计的有效性和可靠性。

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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Development of Fast Front-End Electronics for the Muon Trigger Detector in the PSI muEDM Experiment

This article outlines the design and development of a fast front-end electronic readout board for the muon trigger detector in the muEDM experiment at the Paul Scherrer Institute (PSI). The trigger detector, which consists of a gate and aperture detector, is strategically located at the end of the superconducting injection channel to generate trigger signals for a magnetic kicker, which activates upon the injection of muons into the central region of the storage solenoid. Within the magnetic field of the solenoid, the system configuration is optimized to meet stringent performance specifications, including minimal signal propagation delays, high detection efficiency, non-magnetic properties, and consistent operational stability under varying experimental conditions. In addition, the design incorporates robust methods for rejecting positron contamination in the muon beamline. The results presented include performance evaluations from both bench testing and actual beam tests, highlighting the effectiveness and reliability of the electronic design.

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来源期刊

IEEE Transactions on Nuclear Science 工程技术-工程：电子与电气

CiteScore

3.70

自引率

27.80%

发文量

314

审稿时长

6.2 months

期刊介绍： The IEEE Transactions on Nuclear Science is a publication of the IEEE Nuclear and Plasma Sciences Society. It is viewed as the primary source of technical information in many of the areas it covers. As judged by JCR impact factor, TNS consistently ranks in the top five journals in the category of Nuclear Science & Technology. It has one of the higher immediacy indices, indicating that the information it publishes is viewed as timely, and has a relatively long citation half-life, indicating that the published information also is viewed as valuable for a number of years. The IEEE Transactions on Nuclear Science is published bimonthly. Its scope includes all aspects of the theory and application of nuclear science and engineering. It focuses on instrumentation for the detection and measurement of ionizing radiation; particle accelerators and their controls; nuclear medicine and its application; effects of radiation on materials, components, and systems; reactor instrumentation and controls; and measurement of radiation in space.