Charge collection properties in an irradiated pixel sensor built in a thick-film HV-SOI process

Investigation of HV-CMOS sensors for use as a tracking detector in the ATLAS experiment at the upgraded LHC (HL-LHC) has recently been an active field of research. A potential candidate for a pixel detector built in Silicon-On-Insulator (SOI) technology has already been characterized in terms of rad...

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Autores principales: Hiti, B., Cindro, V., Gorišek, A., Hemperek, T., Kishishita, T., Kramberger, G., Krüger, H., Mandić, I., Mikuž, M., Wermes, N., Zavrtanik, M.
Lenguaje:eng
Publicado: 2017
Materias:
physics.ins-det
Detectors and Experimental Techniques
Acceso en línea:https://dx.doi.org/10.1088/1748-0221/12/10/P10020
http://cds.cern.ch/record/2289491
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author Hiti, B.
Cindro, V.
Gorišek, A.
Hemperek, T.
Kishishita, T.
Kramberger, G.
Krüger, H.
Mandić, I.
Mikuž, M.
Wermes, N.
Zavrtanik, M.
author_facet Hiti, B.
Cindro, V.
Gorišek, A.
Hemperek, T.
Kishishita, T.
Kramberger, G.
Krüger, H.
Mandić, I.
Mikuž, M.
Wermes, N.
Zavrtanik, M.
author_sort Hiti, B.
collection CERN
description Investigation of HV-CMOS sensors for use as a tracking detector in the ATLAS experiment at the upgraded LHC (HL-LHC) has recently been an active field of research. A potential candidate for a pixel detector built in Silicon-On-Insulator (SOI) technology has already been characterized in terms of radiation hardness to TID (Total Ionizing Dose) and charge collection after a moderate neutron irradiation. In this article we present results of an extensive irradiation hardness study with neutrons up to a fluence of 1x10e16 neq/cm2. Charge collection in a passive pixelated structure was measured by Edge Transient Current Technique (E-TCT). The evolution of the effective space charge concentration was found to be compliant with the acceptor removal model, with the minimum of the space charge concentration being reached after 5x10e14 neq/cm2. An investigation of the in-pixel uniformity of the detector response revealed parasitic charge collection by the epitaxial silicon layer characteristic for the SOI design. The results were backed by a numerical simulation of charge collection in an equivalent detector layout.
id cern-2289491
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2017
record_format invenio
spelling cern-22894912021-05-03T20:16:33Zdoi:10.1088/1748-0221/12/10/P10020http://cds.cern.ch/record/2289491engHiti, B.Cindro, V.Gorišek, A.Hemperek, T.Kishishita, T.Kramberger, G.Krüger, H.Mandić, I.Mikuž, M.Wermes, N.Zavrtanik, M.Charge collection properties in an irradiated pixel sensor built in a thick-film HV-SOI processphysics.ins-detDetectors and Experimental TechniquesInvestigation of HV-CMOS sensors for use as a tracking detector in the ATLAS experiment at the upgraded LHC (HL-LHC) has recently been an active field of research. A potential candidate for a pixel detector built in Silicon-On-Insulator (SOI) technology has already been characterized in terms of radiation hardness to TID (Total Ionizing Dose) and charge collection after a moderate neutron irradiation. In this article we present results of an extensive irradiation hardness study with neutrons up to a fluence of 1x10e16 neq/cm2. Charge collection in a passive pixelated structure was measured by Edge Transient Current Technique (E-TCT). The evolution of the effective space charge concentration was found to be compliant with the acceptor removal model, with the minimum of the space charge concentration being reached after 5x10e14 neq/cm2. An investigation of the in-pixel uniformity of the detector response revealed parasitic charge collection by the epitaxial silicon layer characteristic for the SOI design. The results were backed by a numerical simulation of charge collection in an equivalent detector layout.Investigation of HV-CMOS sensors for use as a tracking detector in the ATLAS experiment at the upgraded LHC (HL-LHC) has recently been an active field of research. A potential candidate for a pixel detector built in Silicon-On-Insulator (SOI) technology has already been characterized in terms of radiation hardness to TID (Total Ionizing Dose) and charge collection after a moderate neutron irradiation. In this article we present results of an extensive irradiation hardness study with neutrons up to a fluence of 1× 10(16) n(eq)/cm(2). Charge collection in a passive pixelated structure was measured by Edge Transient Current Technique (E-TCT). The evolution of the effective space charge concentration was found to be compliant with the acceptor removal model, with the minimum of the space charge concentration being reached after 5× 10(14) n(eq)/cm(2). An investigation of the in-pixel uniformity of the detector response revealed parasitic charge collection by the epitaxial silicon layer characteristic for the SOI design. The results were backed by a numerical simulation of charge collection in an equivalent detector layout.arXiv:1701.06324oai:cds.cern.ch:22894912017-01-23
spellingShingle physics.ins-det
Detectors and Experimental Techniques
Hiti, B.
Cindro, V.
Gorišek, A.
Hemperek, T.
Kishishita, T.
Kramberger, G.
Krüger, H.
Mandić, I.
Mikuž, M.
Wermes, N.
Zavrtanik, M.
Charge collection properties in an irradiated pixel sensor built in a thick-film HV-SOI process
title Charge collection properties in an irradiated pixel sensor built in a thick-film HV-SOI process
title_full Charge collection properties in an irradiated pixel sensor built in a thick-film HV-SOI process
title_fullStr Charge collection properties in an irradiated pixel sensor built in a thick-film HV-SOI process
title_full_unstemmed Charge collection properties in an irradiated pixel sensor built in a thick-film HV-SOI process
title_short Charge collection properties in an irradiated pixel sensor built in a thick-film HV-SOI process
title_sort charge collection properties in an irradiated pixel sensor built in a thick-film hv-soi process
topic physics.ins-det
Detectors and Experimental Techniques
url https://dx.doi.org/10.1088/1748-0221/12/10/P10020
http://cds.cern.ch/record/2289491
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