Kunal Gautamfor the ALICE Collaboration, Ajit Kumarfor the ALICE Collaboration
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引用次数: 0
摘要
ALICE ITS3 项目计划在大型强子对撞机的 ALICE 实验中使用 65 nm 成像工艺开发的超轻 MAPS,以大幅提高顶点探测性能。这项由 ALICE ITS3 合作项目和欧洲核子研究中心 EP 研发项目组成的国际联盟发起的新开发项目提高了 MAPS 的整体性能。设计小规模原型的目的是研究 TPSCo 65 纳米技术的模拟特性,并比较不同工艺、间距、像素几何形状和辐照水平下的电荷收集性能。实验室和测试光束表征的最新结果详细说明了不同像素几何形状和间距的 APTS 的效率和空间分辨率,满足 ALICE ITS3 的要求。在采用不同像素内读出的 CE-65 中,电荷收集和像素间共享的定量演变非常明显。在ALICE的中等辐照环境下,以10微米的间距获得优于3微米的空间分辨率和超过99%的效率,这也支持了将65纳米MAPS用于FCC-ee顶点探测器的可行性。
Characterisation of analogue MAPS fabricated in 65 nm technology for the ALICE ITS3
The ALICE ITS3 project foresees the use of ultra-light MAPS, developed in the
65 nm imaging process, for the vertex detector in the ALICE experiment at the
LHC to drastically improve the vertexing performance. This new development,
initiated by an international consortium of the ALICE ITS3 collaboration and
the CERN EP R&D project, enhances the overall MAPS performance. Small-scale
prototypes are designed to study the analogue properties of the TPSCo 65 nm
technology and compare the charge collection performance in different
processes, pitches, pixel geometries, and irradiation levels. Recent results
from lab and test-beam characterisation detailing the efficiency and the
spatial resolution of the APTS with different pixel geometries and pitches
satisfy the ALICE ITS3 requirements. A quantitative evolution of the charge
collection and sharing among pixels is evident in the CE-65 with different
in-pixel readouts. Attaining a spatial resolution better than 3 $\mu$m with a
10 $\mu$m pitch and over 99% efficiency in the moderate irradiation environment
of ALICE also supports the viability of using 65 nm MAPS for FCC-ee vertex
detectors.
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