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Article
Title Charge sensing properties of monolithic CMOS pixel sensors fabricated in a 65 nm technology
Author(s) Bugiel, Szymon (Strasbourg, IPHC) ; Dorokhov, Andrei (Strasbourg, IPHC) ; Aresti, Mauro (INFN, Cagliari) ; Baudot, Jerome (Strasbourg, IPHC) ; Beole, Stefania (INFN, Turin) ; Besson, Auguste (Strasbourg, IPHC) ; Bugiel, Roma (Strasbourg, IPHC) ; Cecconi, Leonardo (CERN) ; Colledani, Claude (Strasbourg, IPHC) ; Deng, Wenjing (CERN ; CCNU, Wuhan, Inst. Part. Phys.) ; Di Mauro, Antonello (CERN) ; Bitar, Ziad El (Strasbourg, IPHC) ; Goffe, Mathieu (Strasbourg, IPHC) ; Hasenbichler, Jan (CERN ; TU Vienna) ; Hong, Geun Hee (CERN ; Yonsei U.) ; Hu-Guo, Christine (Strasbourg, IPHC) ; Jaaskelainen, Kimmo (Strasbourg, IPHC) ; Kluge, Alex (CERN) ; Mager, Magnus (CERN) ; Marras, Davide (INFN, Cagliari) ; de Melo, Joao (CERN) ; Munker, Magdalena (CERN) ; Pham, Hung (Strasbourg, IPHC) ; Piro, Francesco (CERN ; EPFL, Lausanne, FSL) ; Reidt, Felix (CERN) ; Rinella, Gianluca Aglieri (CERN) ; Russo, Roberto (Nikhef, Amsterdam) ; Sarritzu, Valerio (Cagliari U. ; INFN, Cagliari) ; Senyukov, Serhiy (Strasbourg, IPHC) ; Snoeys, Walter (CERN) ; Suljic, Miljenko (CERN) ; Usai, Gianluca (Cagliari U. ; INFN, Cagliari) ; Valin, Isabelle (Strasbourg, IPHC) ; Winter, Marc (IJCLab, Orsay) ; Wu, Yitao (Strasbourg, IPHC ; USTC, Hefei)
Publication 2022
Number of pages 4
In: Nucl. Instrum. Methods Phys. Res., A 1040 (2022) pp.167213
In: Vienna Conference on Instrumentation (VCI 2022), Online, Austria, 21 - 25 Feb 2022, pp.167213
DOI 10.1016/j.nima.2022.167213 (publication)
Subject category Detectors and Experimental Techniques
Project CERN-EP-RDET
Abstract In this work the initial performance studies of the first small monolithic pixel sensors dedicated to charged particle detection, called CE-65, fabricated in the 65nm TowerJazz Panasonic Semiconductor Company are presented. The tested prototypes comprise matrices of 64 $\times$ 32 square analogue-output pixels with a pitch of 15 $\mu$m. Different pixel types explore several sensing node geometries and amplification schemes, which allows for various biasing voltage of the detection layer and hence depletion conditions and electric field shaping. Laboratory tests conducted with a $^{55}$Fe source demonstrated that the CE-65 sensors reach equivalent noise charge in the 15 to 25 $e^-$ range and excellent charge collection efficiencies. Charge sharing is substantial for standard diodes, but can be largely suppressed by modifying their design. Depletion of the thin sensitive layer saturates at a reverse diode bias of about 5 V.
Copyright/License publication: © 2022-2024 Elsevier B.V.

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 Journalen skapades 2022-10-06, och modifierades senast 2024-07-05