Evaluation of planar silicon pixel sensors with the RD53A readout chip for the Phase-2 Upgrade of the CMS Inner Tracker

The Tracker Group of the CMS Collaboration

doi:10.1088/1748-0221/18/11/P11015

Evaluation of planar silicon pixel sensors with the RD53A readout chip for the Phase-2 Upgrade of the CMS Inner Tracker

The Tracker Group of the CMS Collaboration

Austrian Academy of Sciences
TU Wien
University of Antwerp
Arab Academy for Science, Technology and Maritime Transport
Vrije Universiteit Brussel
Université libre de Bruxelles
Université catholique de Louvain

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

The Large Hadron Collider at CERN will undergo an upgrade in order to increase its luminosity to 7.5 × 1034 cm-2s-1. The increased luminosity during this High-Luminosity running phase, starting around 2029, means a higher rate of proton-proton interactions, hence a larger ionizing dose and particle fluence for the detectors. The current tracking system of the CMS experiment will be fully replaced in order to cope with the new operating conditions. Prototype planar pixel sensors for the CMS Inner Tracker with square 50 μm × 50 μm and rectangular 100 μm × 25 μm pixels read out by the RD53A chip were characterized in the lab and at the DESY-II testbeam facility in order to identify designs that meet the requirements of CMS during the High-Luminosity running phase. A spatial resolution of approximately 3.4 μm (2 μm) is obtained using the modules with 50 μm×50 μm (100 μm × 25 μm) pixels at the optimal angle of incidence before irradiation. After irradiation to a 1MeV neutron equivalent fluence of Φeq = 5.3 × 1015 cm-2, a resolution of 9.4 μm is achieved at a bias voltage of 800V using a module with 50 μm × 50 μm pixel size. All modules retain a hit efficiency in excess of 99% after irradiation to fluences up to 2.1 × 1016 cm-2. Further studies of the electrical properties of the modules, especially crosstalk, are also presented in this paper.

Original language	English
Article number	P11015
Journal	Journal of Instrumentation
Volume	18
Issue number	11
DOIs	https://doi.org/10.1088/1748-0221/18/11/P11015
State	Published - Nov 1 2023

Keywords

Large detector systems for particle and astroparticle physics
Particle tracking detectors (Solid-state detectors)
Radiation-hard detectors
Si microstrip and pad detectors

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10.1088/1748-0221/18/11/P11015

Cite this

@article{ff46d6fac7584c50a9277d022bc9bc55,

title = "Evaluation of planar silicon pixel sensors with the RD53A readout chip for the Phase-2 Upgrade of the CMS Inner Tracker",

abstract = "The Large Hadron Collider at CERN will undergo an upgrade in order to increase its luminosity to 7.5 × 1034 cm-2s-1. The increased luminosity during this High-Luminosity running phase, starting around 2029, means a higher rate of proton-proton interactions, hence a larger ionizing dose and particle fluence for the detectors. The current tracking system of the CMS experiment will be fully replaced in order to cope with the new operating conditions. Prototype planar pixel sensors for the CMS Inner Tracker with square 50 μm × 50 μm and rectangular 100 μm × 25 μm pixels read out by the RD53A chip were characterized in the lab and at the DESY-II testbeam facility in order to identify designs that meet the requirements of CMS during the High-Luminosity running phase. A spatial resolution of approximately 3.4 μm (2 μm) is obtained using the modules with 50 μm×50 μm (100 μm × 25 μm) pixels at the optimal angle of incidence before irradiation. After irradiation to a 1MeV neutron equivalent fluence of Φeq = 5.3 × 1015 cm-2, a resolution of 9.4 μm is achieved at a bias voltage of 800V using a module with 50 μm × 50 μm pixel size. All modules retain a hit efficiency in excess of 99\% after irradiation to fluences up to 2.1 × 1016 cm-2. Further studies of the electrical properties of the modules, especially crosstalk, are also presented in this paper.",

keywords = "Large detector systems for particle and astroparticle physics, Particle tracking detectors (Solid-state detectors), Radiation-hard detectors, Si microstrip and pad detectors",

author = "\{The Tracker Group of the CMS Collaboration\} and W. Adam and T. Bergauer and K. Damanakis and M. Dragicevic and R. Fr{\"u}hwirth and H. Steininger and W. Beaumont and Darwish, \{M. R.\} and T. Janssen and \{Rejeb Sfar\}, H. and \{Van Mechelen\}, P. and N. Breugelmans and M. Delcourt and \{De Moor\}, A. and J. D{\textquoteright}Hondt and F. Heyen and S. Lowette and I. Makarenko and D. Muller and Sahasransu, \{A. R.\} and D. Vannerom and \{Van Putte\}, S. and Y. Allard and B. Clerbaux and S. Dansana and \{De Lentdecker\}, G. and H. Evard and L. Favart and D. Hohov and A. Khalilzadeh and K. Lee and M. Mahdavikhorrami and A. Malara and S. Paredes and N. Postiau and F. Robert and L. Thomas and \{Vanden Bemden\}, M. and P. Vanlaer and Y. Yang and A. Benecke and G. Bruno and F. Bury and C. Caputo and \{De Favereau\}, J. and C. Delaere and I. Iashvili and A. Kharchilava and D. Nguyen and S. Rappoccio",

year = "2023",

month = nov,

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doi = "10.1088/1748-0221/18/11/P11015",

language = "English",

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journal = "Journal of Instrumentation",

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TY - JOUR

T1 - Evaluation of planar silicon pixel sensors with the RD53A readout chip for the Phase-2 Upgrade of the CMS Inner Tracker

AU - The Tracker Group of the CMS Collaboration

AU - Adam, W.

AU - Bergauer, T.

AU - Damanakis, K.

AU - Dragicevic, M.

AU - Frühwirth, R.

AU - Steininger, H.

AU - Beaumont, W.

AU - Darwish, M. R.

AU - Janssen, T.

AU - Rejeb Sfar, H.

AU - Van Mechelen, P.

AU - Breugelmans, N.

AU - Delcourt, M.

AU - De Moor, A.

AU - D’Hondt, J.

AU - Heyen, F.

AU - Lowette, S.

AU - Makarenko, I.

AU - Muller, D.

AU - Sahasransu, A. R.

AU - Vannerom, D.

AU - Van Putte, S.

AU - Allard, Y.

AU - Clerbaux, B.

AU - Dansana, S.

AU - De Lentdecker, G.

AU - Evard, H.

AU - Favart, L.

AU - Hohov, D.

AU - Khalilzadeh, A.

AU - Lee, K.

AU - Mahdavikhorrami, M.

AU - Malara, A.

AU - Paredes, S.

AU - Postiau, N.

AU - Robert, F.

AU - Thomas, L.

AU - Vanden Bemden, M.

AU - Vanlaer, P.

AU - Yang, Y.

AU - Benecke, A.

AU - Bruno, G.

AU - Bury, F.

AU - Caputo, C.

AU - De Favereau, J.

AU - Delaere, C.

AU - Iashvili, I.

AU - Kharchilava, A.

AU - Nguyen, D.

AU - Rappoccio, S.

PY - 2023/11/1

Y1 - 2023/11/1

N2 - The Large Hadron Collider at CERN will undergo an upgrade in order to increase its luminosity to 7.5 × 1034 cm-2s-1. The increased luminosity during this High-Luminosity running phase, starting around 2029, means a higher rate of proton-proton interactions, hence a larger ionizing dose and particle fluence for the detectors. The current tracking system of the CMS experiment will be fully replaced in order to cope with the new operating conditions. Prototype planar pixel sensors for the CMS Inner Tracker with square 50 μm × 50 μm and rectangular 100 μm × 25 μm pixels read out by the RD53A chip were characterized in the lab and at the DESY-II testbeam facility in order to identify designs that meet the requirements of CMS during the High-Luminosity running phase. A spatial resolution of approximately 3.4 μm (2 μm) is obtained using the modules with 50 μm×50 μm (100 μm × 25 μm) pixels at the optimal angle of incidence before irradiation. After irradiation to a 1MeV neutron equivalent fluence of Φeq = 5.3 × 1015 cm-2, a resolution of 9.4 μm is achieved at a bias voltage of 800V using a module with 50 μm × 50 μm pixel size. All modules retain a hit efficiency in excess of 99% after irradiation to fluences up to 2.1 × 1016 cm-2. Further studies of the electrical properties of the modules, especially crosstalk, are also presented in this paper.

AB - The Large Hadron Collider at CERN will undergo an upgrade in order to increase its luminosity to 7.5 × 1034 cm-2s-1. The increased luminosity during this High-Luminosity running phase, starting around 2029, means a higher rate of proton-proton interactions, hence a larger ionizing dose and particle fluence for the detectors. The current tracking system of the CMS experiment will be fully replaced in order to cope with the new operating conditions. Prototype planar pixel sensors for the CMS Inner Tracker with square 50 μm × 50 μm and rectangular 100 μm × 25 μm pixels read out by the RD53A chip were characterized in the lab and at the DESY-II testbeam facility in order to identify designs that meet the requirements of CMS during the High-Luminosity running phase. A spatial resolution of approximately 3.4 μm (2 μm) is obtained using the modules with 50 μm×50 μm (100 μm × 25 μm) pixels at the optimal angle of incidence before irradiation. After irradiation to a 1MeV neutron equivalent fluence of Φeq = 5.3 × 1015 cm-2, a resolution of 9.4 μm is achieved at a bias voltage of 800V using a module with 50 μm × 50 μm pixel size. All modules retain a hit efficiency in excess of 99% after irradiation to fluences up to 2.1 × 1016 cm-2. Further studies of the electrical properties of the modules, especially crosstalk, are also presented in this paper.

KW - Large detector systems for particle and astroparticle physics

KW - Particle tracking detectors (Solid-state detectors)

KW - Radiation-hard detectors

KW - Si microstrip and pad detectors

UR - https://www.scopus.com/pages/publications/85181741125

U2 - 10.1088/1748-0221/18/11/P11015

DO - 10.1088/1748-0221/18/11/P11015

M3 - Article

AN - SCOPUS:85181741125

SN - 1748-0221

VL - 18

JO - Journal of Instrumentation

JF - Journal of Instrumentation

IS - 11

M1 - P11015

ER -

Evaluation of planar silicon pixel sensors with the RD53A readout chip for the Phase-2 Upgrade of the CMS Inner Tracker

Abstract

Keywords

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