Prototyping of petalets for the Phase-II Upgrade of the silicon strip tracking detector of the ATLAS Experiment

In the high luminosity era of the Large Hadron Collider, the instantaneous luminosity is expected to reach unprecedented values, resulting in about 200 proton-proton interactions in a typical bunch crossing. To cope with the resultant increase in occupancy, bandwidth and radiation damage, the ATLAS...

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Autores principales: Kuehn, S., Benítez, V., Fernández-Tejero, J., Fleta, C., Lozano, M., Ullán, M., Lacker, H., Rehnisch, L., Sperlich, D., Ariza, D., Bloch, I., Díez, S., Gregor, I., Keller, J., Lohwasser, K., Poley, L., Prahl, V., Zakharchuk, N., Hauser, M., Jakobs, K., Mahboubi, K., Mori, R., Parzefall, U., Bernabéu, J., Lacasta, C., Marco-Hernandez, R., Santoyo, D., Solaz Contell, C., Soldevila Serrano, U., Affolder, T., Greenall, A., Gallop, B., Phillips, P.W., Cindro, V.
Lenguaje:eng
Publicado: 2017
Materias:
physics.ins-det
Detectors and Experimental Techniques
Acceso en línea:https://dx.doi.org/10.1088/1748-0221/13/03/T03004
http://cds.cern.ch/record/2292081
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author Kuehn, S.
Benítez, V.
Fernández-Tejero, J.
Fleta, C.
Lozano, M.
Ullán, M.
Lacker, H.
Rehnisch, L.
Sperlich, D.
Ariza, D.
Bloch, I.
Díez, S.
Gregor, I.
Keller, J.
Lohwasser, K.
Poley, L.
Prahl, V.
Zakharchuk, N.
Hauser, M.
Jakobs, K.
Mahboubi, K.
Mori, R.
Parzefall, U.
Bernabéu, J.
Lacasta, C.
Marco-Hernandez, R.
Santoyo, D.
Solaz Contell, C.
Soldevila Serrano, U.
Affolder, T.
Greenall, A.
Gallop, B.
Phillips, P.W.
Cindro, V.
author_facet Kuehn, S.
Benítez, V.
Fernández-Tejero, J.
Fleta, C.
Lozano, M.
Ullán, M.
Lacker, H.
Rehnisch, L.
Sperlich, D.
Ariza, D.
Bloch, I.
Díez, S.
Gregor, I.
Keller, J.
Lohwasser, K.
Poley, L.
Prahl, V.
Zakharchuk, N.
Hauser, M.
Jakobs, K.
Mahboubi, K.
Mori, R.
Parzefall, U.
Bernabéu, J.
Lacasta, C.
Marco-Hernandez, R.
Santoyo, D.
Solaz Contell, C.
Soldevila Serrano, U.
Affolder, T.
Greenall, A.
Gallop, B.
Phillips, P.W.
Cindro, V.
author_sort Kuehn, S.
collection CERN
description In the high luminosity era of the Large Hadron Collider, the instantaneous luminosity is expected to reach unprecedented values, resulting in about 200 proton-proton interactions in a typical bunch crossing. To cope with the resultant increase in occupancy, bandwidth and radiation damage, the ATLAS Inner Detector will be replaced by an all-silicon system, the Inner Tracker (ITk). The ITk consists of a silicon pixel and a strip detector and exploits the concept of modularity. Prototyping and testing of various strip detector components has been carried out. This paper presents the developments and results obtained with reduced-size structures equivalent to those foreseen to be used in the forward region of the silicon strip detector. Referred to as petalets, these structures are built around a composite sandwich with embedded cooling pipes and electrical tapes for routing the signals and power. Detector modules built using electronic flex boards and silicon strip sensors are glued on both the front and back side surfaces of the carbon structure. Details are given on the assembly, testing and evaluation of several petalets. Measurement results of both mechanical and electrical quantities are shown. Moreover, an outlook is given for improved prototyping plans for large structures.
id cern-2292081
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2017
record_format invenio
spelling cern-22920812023-03-14T17:40:52Zdoi:10.1088/1748-0221/13/03/T03004http://cds.cern.ch/record/2292081engKuehn, S.Benítez, V.Fernández-Tejero, J.Fleta, C.Lozano, M.Ullán, M.Lacker, H.Rehnisch, L.Sperlich, D.Ariza, D.Bloch, I.Díez, S.Gregor, I.Keller, J.Lohwasser, K.Poley, L.Prahl, V.Zakharchuk, N.Hauser, M.Jakobs, K.Mahboubi, K.Mori, R.Parzefall, U.Bernabéu, J.Lacasta, C.Marco-Hernandez, R.Santoyo, D.Solaz Contell, C.Soldevila Serrano, U.Affolder, T.Greenall, A.Gallop, B.Phillips, P.W.Cindro, V.Prototyping of petalets for the Phase-II Upgrade of the silicon strip tracking detector of the ATLAS Experimentphysics.ins-detDetectors and Experimental TechniquesIn the high luminosity era of the Large Hadron Collider, the instantaneous luminosity is expected to reach unprecedented values, resulting in about 200 proton-proton interactions in a typical bunch crossing. To cope with the resultant increase in occupancy, bandwidth and radiation damage, the ATLAS Inner Detector will be replaced by an all-silicon system, the Inner Tracker (ITk). The ITk consists of a silicon pixel and a strip detector and exploits the concept of modularity. Prototyping and testing of various strip detector components has been carried out. This paper presents the developments and results obtained with reduced-size structures equivalent to those foreseen to be used in the forward region of the silicon strip detector. Referred to as petalets, these structures are built around a composite sandwich with embedded cooling pipes and electrical tapes for routing the signals and power. Detector modules built using electronic flex boards and silicon strip sensors are glued on both the front and back side surfaces of the carbon structure. Details are given on the assembly, testing and evaluation of several petalets. Measurement results of both mechanical and electrical quantities are shown. Moreover, an outlook is given for improved prototyping plans for large structures.In the high luminosity era of the Large Hadron Collider, the HL-LHC, the instantaneous luminosity is expected to reach unprecedented values, resulting in about 200 proton-proton interactions in a typical bunch crossing. To cope with the resultant increase in occupancy, bandwidth and radiation damage, the ATLAS Inner Detector will be replaced by an all-silicon system, the Inner Tracker (ITk). The ITk consists of a silicon pixel and a strip detector and exploits the concept of modularity. Prototyping and testing of various strip detector components has been carried out. This paper presents the developments and results obtained with reduced-size structures equivalent to those foreseen to be used in the forward region of the silicon strip detector. Referred to as petalets, these structures are built around a composite sandwich with embedded cooling pipes and electrical tapes for routing the signals and power. Detector modules built using electronic flex boards and silicon strip sensors are glued on both the front and back side surfaces of the carbon structure. Details are given on the assembly, testing and evaluation of several petalets. Measurement results of both mechanical and electrical quantities are shown. Moreover, an outlook is given for improved prototyping plans for large structures.arXiv:1711.01594oai:cds.cern.ch:22920812017-11-05
spellingShingle physics.ins-det
Detectors and Experimental Techniques
Kuehn, S.
Benítez, V.
Fernández-Tejero, J.
Fleta, C.
Lozano, M.
Ullán, M.
Lacker, H.
Rehnisch, L.
Sperlich, D.
Ariza, D.
Bloch, I.
Díez, S.
Gregor, I.
Keller, J.
Lohwasser, K.
Poley, L.
Prahl, V.
Zakharchuk, N.
Hauser, M.
Jakobs, K.
Mahboubi, K.
Mori, R.
Parzefall, U.
Bernabéu, J.
Lacasta, C.
Marco-Hernandez, R.
Santoyo, D.
Solaz Contell, C.
Soldevila Serrano, U.
Affolder, T.
Greenall, A.
Gallop, B.
Phillips, P.W.
Cindro, V.
Prototyping of petalets for the Phase-II Upgrade of the silicon strip tracking detector of the ATLAS Experiment
title Prototyping of petalets for the Phase-II Upgrade of the silicon strip tracking detector of the ATLAS Experiment
title_full Prototyping of petalets for the Phase-II Upgrade of the silicon strip tracking detector of the ATLAS Experiment
title_fullStr Prototyping of petalets for the Phase-II Upgrade of the silicon strip tracking detector of the ATLAS Experiment
title_full_unstemmed Prototyping of petalets for the Phase-II Upgrade of the silicon strip tracking detector of the ATLAS Experiment
title_short Prototyping of petalets for the Phase-II Upgrade of the silicon strip tracking detector of the ATLAS Experiment
title_sort prototyping of petalets for the phase-ii upgrade of the silicon strip tracking detector of the atlas experiment
topic physics.ins-det
Detectors and Experimental Techniques
url https://dx.doi.org/10.1088/1748-0221/13/03/T03004
http://cds.cern.ch/record/2292081
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