倾斜轨迹ALPIDE硅传感器的表征

S. Kushpil
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引用次数: 0

摘要

ALICE内部跟踪系统(ITS)的升级旨在提高ALICE的读出速率、航迹指向分辨率和寻迹效率,特别是对于低横向动量的粒子。新的ITS将是一个具有高粒度和读出速度的低材料预算检测器。它由7个同心层的单片有源像素传感器(MAPS)组成,总有效表面约为10平方米。开发的map基于TowerJazz 180纳米CMOS技术。这种传感器被称为ALPIDE。本文介绍了斜轨测量的装置,并讨论了在CERN质子同步加速器(PS)上使用动量为6 GeV/c的π光束获得的传感器效率。一些传感器在束流试验前使用捷克科学院核物理研究所的回旋加速器设施进行辐照,以对传感器造成辐射损伤。在不同工作点(阈值,偏置电压)的测量提供了关于簇形频率的重要信息,这些信息是调整ALICE蒙特卡罗发生器所需要的。实验数据与模拟结果吻合较好。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Characterization of ALPIDE silicon sensors with inclined tracks
The upgrade of the ALICE Inner Tracking System (ITS) aims at improving the capabilities of ALICE in terms of read-out rate as well as track pointing resolution and track finding efficiency, especially for particles with low transverse momenta. The new ITS will be a low material budget detector with high granularity and read-out speed. It comprises seven concentric layers of Monolithic Active Pixel Sensors (MAPS) with a total active surface of about 10 m2. The developed MAPS are based on the TowerJazz 180 nm CMOS technology. The sensor is called ALPIDE. In this paper we present the setup used for measurements with inclined tracks and we discuss the sensor efficiency obtained using π beams with a momentum of 6 GeV/c at the Proton Synchrotron (PS) at CERN. Some sensors were irradiated before the beam test using the cyclotron facility of the Nuclear Physics Institute of the Czech Academy of Sciences (NPI CAS) to induce radation damage to the sensor. Measurements at different operating points (thresholds, bias voltages) provide important information about cluster-shape frequencies, needed to tune the ALICE Monte-Carlo generators. Very good agreement between test-beam data and simulations is obtained.
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