Characterization and Performance of Silicon n-in-p Pixel Detectors for the ATLAS Upgrades

The existing ATLAS Tracker will be at its functional limit for particle fluences of 10^15 neq/cm^2 (LHC). Thus for the upgrades at smaller radii like in the case of the planned Insertable B-Layer (IBL) and for increased LHC luminosities (super LHC) the development of new structures and materials whi...

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Autores principales: Weigell, Philipp, Beimforde, Michael, Gallrapp, Christian, La Rosa, Alessandro, Macchiolo, Anna, Nisius, Richard, Pernegger, Heinz, Richter, Rainer
Lenguaje:eng
Publicado: 2010
Materias:
Detectors and Experimental Techniques
Acceso en línea:https://dx.doi.org/10.1016/j.nima.2011.04.049
http://cds.cern.ch/record/1316019
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author Weigell, Philipp
Beimforde, Michael
Gallrapp, Christian
La Rosa, Alessandro
Macchiolo, Anna
Nisius, Richard
Pernegger, Heinz
Richter, Rainer
author_facet Weigell, Philipp
Beimforde, Michael
Gallrapp, Christian
La Rosa, Alessandro
Macchiolo, Anna
Nisius, Richard
Pernegger, Heinz
Richter, Rainer
author_sort Weigell, Philipp
collection CERN
description The existing ATLAS Tracker will be at its functional limit for particle fluences of 10^15 neq/cm^2 (LHC). Thus for the upgrades at smaller radii like in the case of the planned Insertable B-Layer (IBL) and for increased LHC luminosities (super LHC) the development of new structures and materials which can cope with the resulting particle fluences is needed. N-in-p silicon devices are a promising candidate for tracking detectors to achieve these goals, since they are radiation hard, cost efficient and are not type inverted after irradiation. A n-in-p pixel production based on a MPP/HLL design and performed by CiS (Erfurt, Germany) on 300 \mu m thick Float-Zone material is characterised and the electrical properties of sensors and single chip modules (SCM) are presented, including noise, charge collection efficiencies, and measurements with MIPs as well as an 241Am source. The SCMs are built with sensors connected to the current the ATLAS read-out chip FE-I3. The characterisation has been performed with the ATLAS pixel read-out systems, before and after irradiation with 24 GeV/c protons. In addition preliminary testbeam results for the tracking efficiency and charge collection, obtained with a SCM, are discussed.
id cern-1316019
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2010
record_format invenio
spelling cern-13160192023-03-12T04:52:53Zdoi:10.1016/j.nima.2011.04.049http://cds.cern.ch/record/1316019engWeigell, PhilippBeimforde, MichaelGallrapp, ChristianLa Rosa, AlessandroMacchiolo, AnnaNisius, RichardPernegger, HeinzRichter, RainerCharacterization and Performance of Silicon n-in-p Pixel Detectors for the ATLAS UpgradesDetectors and Experimental TechniquesThe existing ATLAS Tracker will be at its functional limit for particle fluences of 10^15 neq/cm^2 (LHC). Thus for the upgrades at smaller radii like in the case of the planned Insertable B-Layer (IBL) and for increased LHC luminosities (super LHC) the development of new structures and materials which can cope with the resulting particle fluences is needed. N-in-p silicon devices are a promising candidate for tracking detectors to achieve these goals, since they are radiation hard, cost efficient and are not type inverted after irradiation. A n-in-p pixel production based on a MPP/HLL design and performed by CiS (Erfurt, Germany) on 300 \mu m thick Float-Zone material is characterised and the electrical properties of sensors and single chip modules (SCM) are presented, including noise, charge collection efficiencies, and measurements with MIPs as well as an 241Am source. The SCMs are built with sensors connected to the current the ATLAS read-out chip FE-I3. The characterisation has been performed with the ATLAS pixel read-out systems, before and after irradiation with 24 GeV/c protons. In addition preliminary testbeam results for the tracking efficiency and charge collection, obtained with a SCM, are discussed.The existing ATLAS Tracker will be at its functional limit for particle fluences of 10^15 neq/cm^2 (LHC). Thus for the upgrades at smaller radii like in the case of the planned Insertable B-Layer (IBL) and for increased LHC luminosities (super LHC) the development of new structures and materials which can cope with the resulting particle fluences is needed. N-in-p silicon devices are a promising candidate for tracking detectors to achieve these goals, since they are radiation hard, cost efficient and are not type inverted after irradiation. A n-in-p pixel production based on a MPP/HLL design and performed by CiS (Erfurt, Germany) on 300 \mu m thick Float-Zone material is characterised and the electrical properties of sensors and single chip modules (SCM) are presented, including noise, charge collection efficiencies, and measurements with MIPs as well as an 241Am source. The SCMs are built with sensors connected to the current the ATLAS read-out chip FE-I3. The characterisation has been performed with the ATLAS pixel read-out systems, before and after irradiation with 24 GeV/c protons. In addition preliminary testbeam results for the tracking efficiency and charge collection, obtained with a SCM, are discussed.arXiv:1012.3595MPP-2010-290oai:cds.cern.ch:13160192010-12-17
spellingShingle Detectors and Experimental Techniques
Weigell, Philipp
Beimforde, Michael
Gallrapp, Christian
La Rosa, Alessandro
Macchiolo, Anna
Nisius, Richard
Pernegger, Heinz
Richter, Rainer
Characterization and Performance of Silicon n-in-p Pixel Detectors for the ATLAS Upgrades
title Characterization and Performance of Silicon n-in-p Pixel Detectors for the ATLAS Upgrades
title_full Characterization and Performance of Silicon n-in-p Pixel Detectors for the ATLAS Upgrades
title_fullStr Characterization and Performance of Silicon n-in-p Pixel Detectors for the ATLAS Upgrades
title_full_unstemmed Characterization and Performance of Silicon n-in-p Pixel Detectors for the ATLAS Upgrades
title_short Characterization and Performance of Silicon n-in-p Pixel Detectors for the ATLAS Upgrades
title_sort characterization and performance of silicon n-in-p pixel detectors for the atlas upgrades
topic Detectors and Experimental Techniques
url https://dx.doi.org/10.1016/j.nima.2011.04.049
http://cds.cern.ch/record/1316019
work_keys_str_mv AT weigellphilipp characterizationandperformanceofsiliconninppixeldetectorsfortheatlasupgrades
AT beimfordemichael characterizationandperformanceofsiliconninppixeldetectorsfortheatlasupgrades
AT gallrappchristian characterizationandperformanceofsiliconninppixeldetectorsfortheatlasupgrades
AT larosaalessandro characterizationandperformanceofsiliconninppixeldetectorsfortheatlasupgrades
AT macchioloanna characterizationandperformanceofsiliconninppixeldetectorsfortheatlasupgrades
AT nisiusrichard characterizationandperformanceofsiliconninppixeldetectorsfortheatlasupgrades
AT perneggerheinz characterizationandperformanceofsiliconninppixeldetectorsfortheatlasupgrades
AT richterrainer characterizationandperformanceofsiliconninppixeldetectorsfortheatlasupgrades

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