The LHCb Mighty Tracker

Proceedings of 10th International Workshop on Semiconductor Pixel Detectors for Particles and Imaging — PoS(Pixel2022) Pub Date : 2023-03-13 DOI:10.22323/1.420.0084

K. Padeken

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Abstract

During the long shutdown 4 of the LHC the instantaneous luminosity will be increased by a factor of ≈ 10 to 1 . 5 · 10 34 cm − 2 s − 1 . The expected data recorded with the LHCb detector will increase from 50 fb − 1 to 300 fb − 1 . This will require an upgrade of the LHCb tracking systems. For the downstream tracker this upgrade detector is referred to as the Mighty Tracker. The innermost part of the Mighty Tracker is planned to be instrumented with monolithic CMOS sensors. The outer part will keep the scintillating fibre approach of the currently installed SciFi detector. There are several aspects that make this a unique environment for a tracking detector. The high occupancy in the high 𝜂 region of LHCb (hit rates up to 18 MHz/cm 2 ), the harsh radiation conditions (6 · 10 14 1 MeV n eq / cm 2 ), the streaming readout approach with low material budget ( 𝑋 / 𝑋 0 < 1 . 5%) requirements are just naming a few key challenges. This can be achieved by newly developed HV-CMOS sensors which can provide a high timing resolution of ≈ 3 ns and are sufficiently radiation hard. The planned total instrumented pixel area is up to 18 m 2 of silicon. This paper will describe the plans for the Mighty Tracker and initial beam tests with the precursor of the MightyPix chip.

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LHCb强力追踪器

在大型强子对撞机的长时间关闭期间，瞬时光度将增加约10到1倍。5·10·34 cm−2 s−1。LHCb探测器记录的预期数据将从50 fb−1增加到300 fb−1。这将需要对LHCb跟踪系统进行升级。对于下游跟踪器，这个升级检测器被称为强力跟踪器。强力追踪器的最内部部分计划配备单片CMOS传感器。外部部分将保留当前安装的科幻探测器的闪烁光纤方法。有几个方面使这成为跟踪探测器的独特环境。LHCb高𝜂区域的高占用率(命中率高达18 MHz/ cm2)，恶劣的辐射条件(6·10 14 1 MeV n eq / cm2)，低材料预算的流式读出方法(𝑋/𝑋0 < 1)。5%)的需求只是列举了几个关键的挑战。这可以通过新开发的HV-CMOS传感器来实现，该传感器可以提供≈3 ns的高时序分辨率，并且具有足够的抗辐射性。计划的总仪器像素面积高达18平方米的硅。本文将描述Mighty Tracker的计划以及使用MightyPix芯片的前体进行的初始光束测试。

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 10th International Workshop on Semiconductor Pixel Detectors for Particles and Imaging — PoS(Pixel2022)

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