Impact of front-end parameters of the ARCADIA MD3 on charged particle detection
C. Pantouvakis, S. Garbolino, M. Rignanese, P. Affleck, A. Apresyan, P. Azzi, N. Bacchetta, C. Bonini, D. Chiappara, S. Ciarlantini, D. Falchieri, A. Hayrapetyan, S. Mattiazzo, L. Pancheri, D. Pantano, A. Rivetti, M. Rolo, R. Santoro, R. Turrisi, J. Wyss, S. Xie, A. Zingaretti
TL;DR
This study evaluates how front-end parameters of the ARCADIA MD3 sensor influence charged particle detection performance, based on beam tests with a proton beam at Fermilab.
Contribution
It provides the first in-beam characterization of the ARCADIA MD3 sensor and analyzes the impact of front-end parameters on tracking performance.
Findings
Front-end parameters significantly affect detection efficiency.
Optimized parameters improve tracking accuracy.
First in-beam performance data for ARCADIA MD3 sensor.
Abstract
The ARCADIA INFN R&D project developed a Fully Depleted Monolithic Active Pixel Sensor (FD-MAPS) using a customized LFoundry 110 nm CIS process. The first in-beam characterization of the ARCADIA Main Demonstrator 3 (MD3) sensor with 200 m active thickness has been performed at the Fermilab Test Beam Facility with a 120 GeV proton beam. The Device Under Test (DUT) is tested with a trigger-less telescope composed of two ARCADIA MD3 tracking planes. This early study investigates the effect of the front-end parameters on the tracking performance.
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Taxonomy
TopicsParticle Detector Development and Performance · CCD and CMOS Imaging Sensors · Radiation Detection and Scintillator Technologies