高亮度LHC的CMS跟踪器升级

K. Klein
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引用次数: 0

摘要

CMS探测器的特点是世界上最大的硅跟踪器,包括一个条带和一个像素探测器。然而,CMS跟踪器预计将在LHC的第3次运行后达到其使用寿命的终点,并且在第3次长停机期间将安装一个新设备。其目标是在辐射水平、命中率和堆积等更恶劣的条件下,至少保持(如果可能的话)现有设备的性能。新的跟踪器将采用带有硅像素模块的内部跟踪器和带有条带和宏像素硅模块的外部跟踪器。内部跟踪器将把接受范围扩大到更高的伪速度。将安装4000多个混合像素模块,这些模块具有缩小的单元尺寸和基于RD53开发的读出芯片。对于外部跟踪器,开发了一个创新的探测器概念,允许将跟踪器数据贡献到第一个触发级别。为此,必须以40mhz的频率发送的触发决定的数据量已经在模块上减少了,因为每个模块都带有两个硅传感器,彼此之间的距离为几毫米,由相同的前端asic读出。通过这种方式,利用3.8 t的强CMS磁场,可以粗略估计每个粒子的横向动量。模块和探测器的设计都是围绕这个想法建立的。介绍了探测器的概念和预期性能,并讨论了重要的设计选择和现状。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The CMS tracker upgrade for the High Luminosity LHC
The CMS detector features the world’s largest silicon tracker, comprising a strip and a pixel detector. However, the CMS tracker is expected to reach the end of its lifetime after Run 3 of the LHC, and a new device will be installed during Long Shutdown 3. The aim is to at least maintain, and if possible to improve, the performance of the present device, under much harsher conditions in terms of radiation levels, hit rates and pileup. The new tracker will feature an Inner Tracker with silicon pixel modules and an Outer Tracker with strip and macro-pixel silicon modules. The Inner Tracker will extend the acceptance up to much higher pseudorapidities. More than 4000 hybrid pixel modules with a reduced cell size and with a readout chip based on the RD53 development will be installed. For the Outer Tracker an innovative detector concept was developed, allowing the contribution of tracker data to the first trigger level. For this the data volume that must be sent out at 40 MHz for the trigger decision is reduced already on-module, as each module carries two silicon sensors on top of each other with a distance of a few millimetres, read out by the same front-end ASICs. In that way a rough estimate of the transverse momentum of each particle can be made by exploiting the strong CMS magnetic field of 3.8 T. The module and detector designs are built around this idea. The detector concept and the expected performance will be presented, and important design choices along with the present status will be discussed.
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