LHCb VELO升级

Proceedings of The 27th International Workshop on Vertex Detectors — PoS(VERTEX2018) Pub Date : 2019-09-03 DOI:10.22323/1.348.0022

D. Dutta

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引用次数: 0

摘要

LHCb实验是一个位于欧洲核子研究中心的前向光谱仪实验，主要致力于研究CP违和和美丽和迷人强子的罕见衰变。LHCb实验将在当前关闭期间(2019-2020年)升级为以40 MHz事件速率读取数据的无触发系统。为了应对更高的数据速率和更高的占用率，包括顶点定位器(VELO)在内的LHCb子探测器需要升级。VELO是一个硅微带探测器，围绕相互作用区域，并执行高精度的轨道和顶点重建。VELO中的微带传感器将被具有55 × 55 μm2像素的混合像素传感器所取代，该传感器与VeloPix asic碰撞结合。模块将通过循环蒸发CO2冷却剂通过蚀刻在硅衬底上的微通道冷却，该微通道为模块组件提供机械支撑。探测器模块将用250 μm厚的射频箔与光束真空隔开。电气工作模块原型已经建成，并在组装地点和CERN SPS测试束上进行了严格的测试。本文讨论了模块组成与设计、电子结构、VELO升级的最新成果和现状。

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The LHCb VELO Upgrade

The LHCb experiment is a forward spectrometer experiment located at CERN, dedicated primarily to study CP violation and rare decays of beauty and charmed hadrons. The LHCb experiment will be upgraded during the current shutdown (2019-2020) to a trigger-less system reading out data at 40 MHz event rate. To cope with the higher data rates and increased occupancy, the LHCb sub-detectors including the VErtex LOcator (VELO) need to be upgraded. The VELO is a Si microstrip detector that surrounds the interaction region and performs highly precise track and vertex reconstruction. The microstrip sensors in VELO will be replaced by hybrid pixel sensors having 55 × 55 μm2 pixels, that are bump-bonded to VeloPix ASICs. Module will be cooled by circulating evaporative CO2 coolant through microchannels etched in the Si substrate that provides mechanical support to the module components. The detector modules will be separated from the beam vacuum by 250 μm thick RF foil. Electrically working module prototypes have been built and rigorously tested at the assembly sites and at CERN SPS testbeam. This paper discusses the module components and design, electronic architecture, recent results and the current status of the VELO upgrade.

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来源期刊

Proceedings of The 27th International Workshop on Vertex Detectors — PoS(VERTEX2018)

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