Author:
Glessgen Franz,Backhaus Malte,Canelli Florencia,Dieter Yannick Manuel,Dingfelder Jochen Christian,Hemperek Tomasz,Huegging Fabian,Jofrehei Arash,Jin Weijie,Kilminster Ben,Macchiolo Anna,Muenstermann Daniel,Pohl David-Leon,Ristic Branislav,Wallny Rainer,Wang Tianyang,Wermes Norbert,Wolf Pascal
Abstract
Both the current upgrades to accelerator-based HEP detectors (e.g. ATLAS, CMS) and also future projects (e.g. CEPC, FCC) feature large-area silicon-based tracking detectors. We are investigating the feasibility of using CMOS foundries to fabricate silicon radiation detectors, both for pixels and for large-area strip sensors. A successful proof of concept would open the market potential of CMOS foundries to the HEP community, which would be most beneficial in terms of availability, throughput and cost. In addition, the availability of multi-layer routing of signals will provide the freedom to optimize the sensor geometry and the performance, with biasing structures implemented in poly-silicon layers and MIM-capacitors allowing for AC coupling. A prototyping production of strip test structures and RD53A compatible pixel sensors was recently completed at LFoundry in a 150nm CMOS process. This presentation will focus on the characterization of pixel modules, studying the performance in terms of charge collection, position resolution and hit efficiency with measurements performed in the laboratory and with beam tests. We will report on the investigation of RD53A modules with 25x100 μm2 cell geometry.
Subject
General Physics and Astronomy
Reference8 articles.
1. The Phase-2 Upgrade of the CMS Tracker,2017
2. Nuclear Instruments and Methods;Diener;Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment,2019
3. BDAQ53, a versatile pixel detector readout and test system for the ATLAS and CMS HL-LHC upgrades
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