Simulations and Performance Studies of a MAPS in 65 nm CMOS Imaging Technology

Simancas, A.; Reckleben, C.; Ruiz Daza, S.; Spannagel, S.; Feindt, F.; Velyka, A.; Schlaadt, Judith; Braach, Justus; Mendes, L.; Dannheim, D.; Buschmann, E.; Del Rio Viera, M.; Dort, K.; Hansen, Karsten; Mulyanto, B.; Eckstein, D.; Stanitzki, M.; Snoeys, W.; Wennlöf, H.; Schütze, P.; Gregor, I. M.; Vignola, G.; Huth, L.; Rastorguev, D.; Chauhan, Ankur

doi:10.1016/j.nima.2024.169414

TY  - CONF
AU  - Simancas, A.
AU  - Braach, Justus
AU  - Buschmann, E.
AU  - Chauhan, Ankur
AU  - Dannheim, D.
AU  - Del Rio Viera, M.
AU  - Dort, K.
AU  - Eckstein, D.
AU  - Feindt, F.
AU  - Gregor, I. M.
AU  - Hansen, Karsten
AU  - Huth, L.
AU  - Mendes, L.
AU  - Mulyanto, B.
AU  - Rastorguev, D.
AU  - Reckleben, C.
AU  - Ruiz Daza, S.
AU  - Schütze, P.
AU  - Snoeys, W.
AU  - Spannagel, S.
AU  - Stanitzki, M.
AU  - Velyka, A.
AU  - Vignola, G.
AU  - Wennlöf, H.
AU  - Schlaadt, Judith
TI  - Simulations and Performance Studies of a MAPS in 65 nm CMOS Imaging Technology
JO  - Nuclear instruments & methods in physics research / Section A
VL  - 1064
IS  - arXiv:2402.14524
SN  - 0168-9002
CY  - Amsterdam
PB  - North-Holland Publ. Co.
M1  - PUBDB-2024-00740
M1  - arXiv:2402.14524
SP  - 169414
PY  - 2024
AB  - Monolithic active pixel sensors (MAPS) produced in a 65 nm CMOS imaging technology are being investigated for applications in particle physics. The MAPS design has a small collection electrode characterized by an input capacitance of  fF, granting a high signal-to-noise ratio and low power consumption. Additionally, the 65 nm CMOS imaging technology brings a reduction in material budget and improved logic density of the readout circuitry, compared to previously studied technologies. Given these features, this technology was chosen by the TANGERINE project to develop the next generation of silicon pixel sensors. The sensor design targets temporal and spatial resolutions compatible with the requirements for a vertex detector at future lepton colliders. Simulations and test-beam characterization of prototypes have been carried out in close collaboration with the CERN EP R</td><td width="150">
AB  - D program and the ALICE ITS3 upgrade. TCAD device simulations using generic doping profiles and Monte Carlo simulations have been used to build an understanding of the technology and predict the performance parameters of the sensor. Prototypes of a 65 nm CMOS MAPS with a small collection electrode have been characterized in laboratory and test-beam facilities by studying their cluster size, charge collection, and efficiency. This work compares simulation results to test-beam data. The experimental results establish this technology as a promising candidate for a vertex detector at future lepton colliders and give valuable information for improving the simulation approach.
T2  - 13th International "Hiroshima" Symposium on the Development and Application of Semiconductor Tracking Detectors
CY  - 3 Dec 2023 - 8 Dec 2023, Vancouver (Canada)
Y2  - 3 Dec 2023 - 8 Dec 2023
M2  - Vancouver, Canada
LB  - PUB:(DE-HGF)16 ; PUB:(DE-HGF)8
UR  - <Go to ISI:>//WOS:001240608900001
DO  - DOI:10.1016/j.nima.2024.169414
UR  - https://bib-pubdb1.desy.de/record/602694
ER  -

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