Depleted fully monolithic CMOS pixel detectors using a column based readout architecture for the ATLAS Inner Tracker upgrade

Depleted monolithic active pixel sensors (DMAPS), which exploit high voltage and/or high resistivity add-ons of modern CMOS technologies to achieve substantial depletion in the sensing volume, have proven to have high radiation tolerance towards the requirements of ATLAS in the high-luminosity LHC e...

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Autores principales: Wang, T., Barbero, M., Berdalovic, I., Bespin, C., Bhat, S., Breugnon, P., Caicedo, I., Cardella, R., Chen, Z., Degerli, Y., Egidos, N., Godiot, S., Guilloux, F., Hemperek, T., Hirono, T., Krüger, H., Kugathasan, T., Hügging, F., Marin Tobon, C.A., Moustakas, K., Pangaud, P., Schwemling, P., Pernegger, H., Pohl, D.-L., Rozanov, A., Rymaszewski, P., Snoeys, W., Wermes, N.
Formato: info:eu-repo/semantics/article
Lenguaje:eng
Publicado: JINST 2017
Materias:
physics.ins-det
Detectors and Experimental Techniques
6: Novel high voltage and resistive CMOS sensors
Acceso en línea:https://dx.doi.org/10.1088/1748-0221/13/03/C03039
http://cds.cern.ch/record/2289059
_version_ 1780956243065569280
author Wang, T.
Barbero, M.
Berdalovic, I.
Bespin, C.
Bhat, S.
Breugnon, P.
Caicedo, I.
Cardella, R.
Chen, Z.
Degerli, Y.
Egidos, N.
Godiot, S.
Guilloux, F.
Hemperek, T.
Hirono, T.
Krüger, H.
Kugathasan, T.
Hügging, F.
Marin Tobon, C.A.
Moustakas, K.
Pangaud, P.
Schwemling, P.
Pernegger, H.
Pohl, D.-L.
Rozanov, A.
Rymaszewski, P.
Snoeys, W.
Wermes, N.
author_facet Wang, T.
Barbero, M.
Berdalovic, I.
Bespin, C.
Bhat, S.
Breugnon, P.
Caicedo, I.
Cardella, R.
Chen, Z.
Degerli, Y.
Egidos, N.
Godiot, S.
Guilloux, F.
Hemperek, T.
Hirono, T.
Krüger, H.
Kugathasan, T.
Hügging, F.
Marin Tobon, C.A.
Moustakas, K.
Pangaud, P.
Schwemling, P.
Pernegger, H.
Pohl, D.-L.
Rozanov, A.
Rymaszewski, P.
Snoeys, W.
Wermes, N.
author_sort Wang, T.
collection CERN
description Depleted monolithic active pixel sensors (DMAPS), which exploit high voltage and/or high resistivity add-ons of modern CMOS technologies to achieve substantial depletion in the sensing volume, have proven to have high radiation tolerance towards the requirements of ATLAS in the high-luminosity LHC era. DMAPS integrating fast readout architectures are currently being developed as promising candidates for the outer pixel layers of the future ATLAS Inner Tracker, which will be installed during the phase II upgrade of ATLAS around year 2025. In this work, two DMAPS prototype designs, named LF-Monopix and TJ-Monopix, are presented. LF-Monopix was fabricated in the LFoundry 150 nm CMOS technology, and TJ-Monopix has been designed in the TowerJazz 180 nm CMOS technology. Both chips employ the same readout architecture, i.e. the column drain architecture, whereas different sensor implementation concepts are pursued. The paper makes a joint description of the two prototypes, so that their technical differences and challenges can be addressed in direct comparison. First measurement results for LF-Monopix will also be shown, demonstrating for the first time a fully functional fast readout DMAPS prototype implemented in the LFoundry technology.
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spelling cern-22890592023-04-11T02:36:15Z doi:10.1088/1748-0221/13/03/C03039 http://cds.cern.ch/record/2289059 eng Wang, T. Barbero, M. Berdalovic, I. Bespin, C. Bhat, S. Breugnon, P. Caicedo, I. Cardella, R. Chen, Z. Degerli, Y. Egidos, N. Godiot, S. Guilloux, F. Hemperek, T. Hirono, T. Krüger, H. Kugathasan, T. Hügging, F. Marin Tobon, C.A. Moustakas, K. Pangaud, P. Schwemling, P. Pernegger, H. Pohl, D.-L. Rozanov, A. Rymaszewski, P. Snoeys, W. Wermes, N. Depleted fully monolithic CMOS pixel detectors using a column based readout architecture for the ATLAS Inner Tracker upgrade physics.ins-det Detectors and Experimental Techniques 6: Novel high voltage and resistive CMOS sensors Depleted monolithic active pixel sensors (DMAPS), which exploit high voltage and/or high resistivity add-ons of modern CMOS technologies to achieve substantial depletion in the sensing volume, have proven to have high radiation tolerance towards the requirements of ATLAS in the high-luminosity LHC era. DMAPS integrating fast readout architectures are currently being developed as promising candidates for the outer pixel layers of the future ATLAS Inner Tracker, which will be installed during the phase II upgrade of ATLAS around year 2025. In this work, two DMAPS prototype designs, named LF-Monopix and TJ-Monopix, are presented. LF-Monopix was fabricated in the LFoundry 150 nm CMOS technology, and TJ-Monopix has been designed in the TowerJazz 180 nm CMOS technology. Both chips employ the same readout architecture, i.e. the column drain architecture, whereas different sensor implementation concepts are pursued. The paper makes a joint description of the two prototypes, so that their technical differences and challenges can be addressed in direct comparison. First measurement results for LF-Monopix will also be shown, demonstrating for the first time a fully functional fast readout DMAPS prototype implemented in the LFoundry technology. Depleted monolithic active pixel sensors (DMAPS), which exploit high voltage and/or high resistivity add-ons of modern CMOS technologies to achieve substantial depletion in the sensing volume, have proven to have high radiation tolerance towards the requirements of ATLAS in the high-luminosity LHC era. Depleted fully monolithic CMOS pixels with fast readout architectures are currently being developed as promising candidates for the outer pixel layers of the future ATLAS Inner Tracker, which will be installed during the phase II upgrade of ATLAS around year 2025. In this work, two DMAPS prototype designs, named LF-MonoPix and TJ-MonoPix, are presented. LF-MonoPix was designed and fabricated in the LFoundry 150~nm CMOS technology, and TJ-MonoPix has been designed in the TowerJazz 180~nm CMOS technology. Both chips employ the same readout architecture, i.e. the column drain architecture, whereas different sensor implementation concepts are pursued. The design of the two prototypes will be described. First measurement results for LF-MonoPix will also be shown. info:eu-repo/grantAgreement/EC/FP7/654168 info:eu-repo/semantics/openAccess Education Level info:eu-repo/semantics/article http://cds.cern.ch/record/2289059 JINST JINST, 03 (2018) pp. C03039 2017-09-29
spellingShingle physics.ins-det
Detectors and Experimental Techniques
6: Novel high voltage and resistive CMOS sensors
Wang, T.
Barbero, M.
Berdalovic, I.
Bespin, C.
Bhat, S.
Breugnon, P.
Caicedo, I.
Cardella, R.
Chen, Z.
Degerli, Y.
Egidos, N.
Godiot, S.
Guilloux, F.
Hemperek, T.
Hirono, T.
Krüger, H.
Kugathasan, T.
Hügging, F.
Marin Tobon, C.A.
Moustakas, K.
Pangaud, P.
Schwemling, P.
Pernegger, H.
Pohl, D.-L.
Rozanov, A.
Rymaszewski, P.
Snoeys, W.
Wermes, N.
Depleted fully monolithic CMOS pixel detectors using a column based readout architecture for the ATLAS Inner Tracker upgrade
title Depleted fully monolithic CMOS pixel detectors using a column based readout architecture for the ATLAS Inner Tracker upgrade
title_full Depleted fully monolithic CMOS pixel detectors using a column based readout architecture for the ATLAS Inner Tracker upgrade
title_fullStr Depleted fully monolithic CMOS pixel detectors using a column based readout architecture for the ATLAS Inner Tracker upgrade
title_full_unstemmed Depleted fully monolithic CMOS pixel detectors using a column based readout architecture for the ATLAS Inner Tracker upgrade
title_short Depleted fully monolithic CMOS pixel detectors using a column based readout architecture for the ATLAS Inner Tracker upgrade
title_sort depleted fully monolithic cmos pixel detectors using a column based readout architecture for the atlas inner tracker upgrade
topic physics.ins-det
Detectors and Experimental Techniques
6: Novel high voltage and resistive CMOS sensors
url https://dx.doi.org/10.1088/1748-0221/13/03/C03039
http://cds.cern.ch/record/2289059
http://cds.cern.ch/record/2289059
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