CMS-ME0探测器新型三重gem机械设计、初步性能及研发成果

D. Fiorina
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引用次数: 1

摘要

在HL-LHC项目的框架内,CMS μ子系统的升级预计将安装三个基于GEM技术的新μ子站,分别命名为GE1/1、GE2/1和ME0。CMS GEM组开发了GE1/1三重GEM探测器的新型结构设计;特别是,一种新的自拉伸技术已经被引入到机械拉伸GEM箔,而不使用间隔网格或胶在气体体积内。正如我们所观察到的,PCB板在内部气体超压下会发生变形,导致探测器的平面度不规则,这可能会影响探测器性能的均匀性。在未来的GE2/1和ME0升级项目中,已经实施了新的解决方案和设计升级,以防止此类影响。贡献将集中在基于PCB柱的新颖设计解决方案及其对探测器性能的影响。此外,研发活动的早期结果将展示关于探测器在非常高命中率环境下的优化和降低放电概率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Novel Triple-GEM Mechanical Design for the CMS-ME0 Detector, Preliminary Performance and R&D Results
In the framework of the HL-LHC project, the upgrade of the CMS Muon System foresees the installation of three new muon stations based on the GEM technology, named as GE1/1, GE2/1 and ME0. The CMS GEM Group has developed a novel construction design of GE1/1 triple-GEM detectors; especially, a new self-stretching technique has been introduced to mechanically stretch the GEM foils without using spacer grids or glue inside the gas volume. As has been observed, the PCB boards get deformed under the internal gas overpressure, introducing irregularities in the planarity of the detector, which could potentially affect the uniformity of the detector performance. New solutions and design upgrades have been implemented to prevent such effects in future GE2/1 and ME0 upgrade projects. The contribution will focus on the novel design solutions based on the PCB pillars and their impact on the performance of the detector. Furthermore, the early results of the R&D campaign will be presented regarding the optimization of the detector for the very high hit rate environment and the reduction of the discharge probability.
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