Description and stability of a RPC-based calorimeter in electromagnetic and hadronic shower environments

The CALICE Semi-Digital Hadron Calorimeter technological prototype completed in 2011 is a sampling calorimeter using Glass Resistive Plate Chamber (GRPC) detectors as the active medium. This technology is one of the two options proposed for the hadron calorimeter of the International Large Detec...

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Autores principales: Boumediene, D., Francais, V., Apostolakis, J., Folger, G., Ribon, A., Sicking, E., Goto, K., Kawagoe, K., Kuhara, M., Suehara, T., Yoshioka, T., Pingault, A., Tytgat, M., Garillot, G., Grenier, G., Kurca, T., Laktineh, I., Liu, B., Li, B., Mirabito, L., Calvo Alamillo, E., Carrillo, C., Fouz, M.C., Cabrera, H. Garcia, Marin, J., Navarrete, J., Pelayo, J. Puerta, Verdugo, A., Steen, A., Été, R., Krüger, K., Sefkow, F., Corriveau, F., Emberger, L., Graf, C., Simon, F., Pöschl, R., Kim, D.W., Park, S.W.
Lenguaje:eng
Publicado: 2022
Materias:
physics.ins-det
Detectors and Experimental Techniques
Acceso en línea:https://dx.doi.org/10.1088/1748-0221/18/03/P03035
http://cds.cern.ch/record/2820009
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author Boumediene, D.
Francais, V.
Apostolakis, J.
Folger, G.
Ribon, A.
Sicking, E.
Goto, K.
Kawagoe, K.
Kuhara, M.
Suehara, T.
Yoshioka, T.
Pingault, A.
Tytgat, M.
Garillot, G.
Grenier, G.
Kurca, T.
Laktineh, I.
Liu, B.
Li, B.
Mirabito, L.
Calvo Alamillo, E.
Carrillo, C.
Fouz, M.C.
Cabrera, H. Garcia
Marin, J.
Navarrete, J.
Pelayo, J. Puerta
Verdugo, A.
Steen, A.
Été, R.
Krüger, K.
Sefkow, F.
Corriveau, F.
Emberger, L.
Graf, C.
Simon, F.
Pöschl, R.
Kim, D.W.
Park, S.W.
author_facet Boumediene, D.
Francais, V.
Apostolakis, J.
Folger, G.
Ribon, A.
Sicking, E.
Goto, K.
Kawagoe, K.
Kuhara, M.
Suehara, T.
Yoshioka, T.
Pingault, A.
Tytgat, M.
Garillot, G.
Grenier, G.
Kurca, T.
Laktineh, I.
Liu, B.
Li, B.
Mirabito, L.
Calvo Alamillo, E.
Carrillo, C.
Fouz, M.C.
Cabrera, H. Garcia
Marin, J.
Navarrete, J.
Pelayo, J. Puerta
Verdugo, A.
Steen, A.
Été, R.
Krüger, K.
Sefkow, F.
Corriveau, F.
Emberger, L.
Graf, C.
Simon, F.
Pöschl, R.
Kim, D.W.
Park, S.W.
author_sort Boumediene, D.
collection CERN
description The CALICE Semi-Digital Hadron Calorimeter technological prototype completed in 2011 is a sampling calorimeter using Glass Resistive Plate Chamber (GRPC) detectors as the active medium. This technology is one of the two options proposed for the hadron calorimeter of the International Large Detector for the International Linear Collider. The prototype was exposed in 2015 to beams of muons, electrons, and pions of different energies at the CERN Super Proton Synchrotron. The use of this technology for future experiments requires a reliable simulation of its response that can predict its performance. GEANT4 combined with a digitization algorithm was used to simulate the prototype. It describes the full path of the signal: showering, gas avalanches, charge induction, and hit triggering. The simulation was tuned using muon tracks and electromagnetic showers for accounting for detector inhomogeneity and tested on hadronic showers collected in the test beam. This publication describes developments of the digitization algorithm. It is used to predict the stability of the detector performance against various changes in the data-taking conditions, including temperature, pressure, magnetic field, GRPC width variations, and gas mixture variations. These predictions are confronted with test beam data and provide an attempt to explain the detector properties. The data-taking conditions such as temperature and potential detector inhomogeneities affect energy density measurements but have small impact on detector efficiency.
id cern-2820009
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2022
record_format invenio
spelling cern-28200092023-06-29T03:43:44Zdoi:10.1088/1748-0221/18/03/P03035http://cds.cern.ch/record/2820009engBoumediene, D.Francais, V.Apostolakis, J.Folger, G.Ribon, A.Sicking, E.Goto, K.Kawagoe, K.Kuhara, M.Suehara, T.Yoshioka, T.Pingault, A.Tytgat, M.Garillot, G.Grenier, G.Kurca, T.Laktineh, I.Liu, B.Li, B.Mirabito, L.Calvo Alamillo, E.Carrillo, C.Fouz, M.C.Cabrera, H. GarciaMarin, J.Navarrete, J.Pelayo, J. PuertaVerdugo, A.Steen, A.Été, R.Krüger, K.Sefkow, F.Corriveau, F.Emberger, L.Graf, C.Simon, F.Pöschl, R.Kim, D.W.Park, S.W.Description and stability of a RPC-based calorimeter in electromagnetic and hadronic shower environmentsphysics.ins-detDetectors and Experimental TechniquesThe CALICE Semi-Digital Hadron Calorimeter technological prototype completed in 2011 is a sampling calorimeter using Glass Resistive Plate Chamber (GRPC) detectors as the active medium. This technology is one of the two options proposed for the hadron calorimeter of the International Large Detector for the International Linear Collider. The prototype was exposed in 2015 to beams of muons, electrons, and pions of different energies at the CERN Super Proton Synchrotron. The use of this technology for future experiments requires a reliable simulation of its response that can predict its performance. GEANT4 combined with a digitization algorithm was used to simulate the prototype. It describes the full path of the signal: showering, gas avalanches, charge induction, and hit triggering. The simulation was tuned using muon tracks and electromagnetic showers for accounting for detector inhomogeneity and tested on hadronic showers collected in the test beam. This publication describes developments of the digitization algorithm. It is used to predict the stability of the detector performance against various changes in the data-taking conditions, including temperature, pressure, magnetic field, GRPC width variations, and gas mixture variations. These predictions are confronted with test beam data and provide an attempt to explain the detector properties. The data-taking conditions such as temperature and potential detector inhomogeneities affect energy density measurements but have small impact on detector efficiency.The CALICE Semi-Digital Hadron Calorimeter technological prototype completed in 2011 is a sampling calorimeter using Glass Resistive Plate Chamber (GRPC) detectors as the active medium. This technology is one of the two options proposed for the hadron calorimeter of the International Large Detector for the International Linear Collider. The prototype was exposed in 2015 to beams of muons, electrons, and pions of different energies at the CERN Super Proton Synchrotron. The use of this technology for future experiments requires a reliable simulation of its response that can predict its performance. GEANT4 combined with a digitization algorithm was used to simulate the prototype. It describes the full path of the signal: showering, gas avalanches, charge induction, and hit triggering. The simulation was tuned using muon tracks and electromagnetic showers for accounting for detector inhomogeneity and tested on hadronic showers collected in the test beam. This publication describes developments of the digitization algorithm. It is used to predict the stability of the detector performance against various changes in the data-taking conditions, including temperature, pressure, magnetic field, GRPC width variations, and gas mixture variations. These predictions are confronted with test beam data and provide an attempt to explain the detector properties. The data-taking conditions such as temperature and potential detector inhomogeneities affect energy density measurements but have a small impact on detector efficiency.arXiv:2207.06291CALICE-PUB-2022-02CALICE-PUB-2023-02oai:cds.cern.ch:28200092022-07-13
spellingShingle physics.ins-det
Detectors and Experimental Techniques
Boumediene, D.
Francais, V.
Apostolakis, J.
Folger, G.
Ribon, A.
Sicking, E.
Goto, K.
Kawagoe, K.
Kuhara, M.
Suehara, T.
Yoshioka, T.
Pingault, A.
Tytgat, M.
Garillot, G.
Grenier, G.
Kurca, T.
Laktineh, I.
Liu, B.
Li, B.
Mirabito, L.
Calvo Alamillo, E.
Carrillo, C.
Fouz, M.C.
Cabrera, H. Garcia
Marin, J.
Navarrete, J.
Pelayo, J. Puerta
Verdugo, A.
Steen, A.
Été, R.
Krüger, K.
Sefkow, F.
Corriveau, F.
Emberger, L.
Graf, C.
Simon, F.
Pöschl, R.
Kim, D.W.
Park, S.W.
Description and stability of a RPC-based calorimeter in electromagnetic and hadronic shower environments
title Description and stability of a RPC-based calorimeter in electromagnetic and hadronic shower environments
title_full Description and stability of a RPC-based calorimeter in electromagnetic and hadronic shower environments
title_fullStr Description and stability of a RPC-based calorimeter in electromagnetic and hadronic shower environments
title_full_unstemmed Description and stability of a RPC-based calorimeter in electromagnetic and hadronic shower environments
title_short Description and stability of a RPC-based calorimeter in electromagnetic and hadronic shower environments
title_sort description and stability of a rpc-based calorimeter in electromagnetic and hadronic shower environments
topic physics.ins-det
Detectors and Experimental Techniques
url https://dx.doi.org/10.1088/1748-0221/18/03/P03035
http://cds.cern.ch/record/2820009
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