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Resistive Plate Chamber Digitization in a Hadronic Shower Environment
The CALICE Semi-Digital Hadron Calorimeter (SDHCAL) technological prototype is a sampling calorimeter using Glass Resistive Plate Chamber detectors with a three-threshold readout as the active medium. This technology is one of the two options proposed for the hadron calorimeter of the International...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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| Lenguaje: | eng |
| Publicado: |
2016
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1088/1748-0221/11/06/P06014 http://cds.cern.ch/record/2146751 |
| _version_ | 1780950376214691840 |
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| author | Deng, Z. Li, Y. Wang, Y. Yue, Q. Yang, Z. Boumediene, D. Carloganu, C. Français, V. Cho, G. Kim, D.W. Lee, S.C. Park, W. Vallecorsa, S. Apostolakis, J. Folger, G. Grefe, C. Ivantchenko, V. Ribon, A. Uzhinskiy, V. Cauwenbergh, S. Tytgat, M. Pingault, A. Zaganidis, N. Brianne, E. Ebrahimi, A. Gadow, K. Göttlicher, P. Günter, C. Hartbrich, O. Hermberg, B. Irles, A. Krivan, F. Krüger, K. Kvasnicka, J. Lu, S. Lutz, B. Morgunov, V. Neubüser, C. Provenza, A. Reinecke, M. Sefkow, F. Schuwalow, S. Tran, H.L. Garutti, E. Laurien, S. Matysek, M. Ramilli, M. Schroeder, S. Bilki, B. Norbeck, E. Northacker, D. Onel, Y. Chang, S. Khan, A. Kim, D.H. Kong, D.J. Oh, Y.D. Kawagoe, K. Hirai, H. Sudo, Y. Suehara, T. Sumida, H. Yoshioka, T. Cortina Gil, E. Mannai, S. Buridon, V. Combaret, C. Caponetto, L. Eté, R. Garillot, G. Grenier, G. Han, R. Ianigro, J.C. Kieffer, R. Laktineh, I. Lumb, N. Mathez, H. Mirabito, L. Petrukhin, A. Steen, A. Antequera, J.Berenguer Alamillo, E.Calvo Fouz, M.C. Marin, J. Puerta-Pelayo, J. Verdugo, A. Chadeeva, M. Danilov, M. Corriveau, F. Gabriel, M. Goecke, P. Kiesling, C. van der Kolk, N. Simon, F. Szalay, M. Bilokin, S. Bonis, J. Cornebise, P. Richard, F. Pöschl, R. Rouëné, J. Thiebault, A. Zerwas, D. Anduze, M. Balagura, V. Belkadhi, K. Boudry, V. Brient, J.C. Cornat, R. Frotin, M. Gastaldi, F. Haddad, Y. Magniette, F. Ruan, M. Rubio-Roy, M. Shpak, K. Videau, H. Yu, D. Callier, S. Conforti di Lorenzo, S. Dulucq, F. Martin-Chassard, G. de la Taille, Ch. Raux, L. Seguin-Moreau, N. Kotera, K. Ono, H. Takeshita, T. |
| author_facet | Deng, Z. Li, Y. Wang, Y. Yue, Q. Yang, Z. Boumediene, D. Carloganu, C. Français, V. Cho, G. Kim, D.W. Lee, S.C. Park, W. Vallecorsa, S. Apostolakis, J. Folger, G. Grefe, C. Ivantchenko, V. Ribon, A. Uzhinskiy, V. Cauwenbergh, S. Tytgat, M. Pingault, A. Zaganidis, N. Brianne, E. Ebrahimi, A. Gadow, K. Göttlicher, P. Günter, C. Hartbrich, O. Hermberg, B. Irles, A. Krivan, F. Krüger, K. Kvasnicka, J. Lu, S. Lutz, B. Morgunov, V. Neubüser, C. Provenza, A. Reinecke, M. Sefkow, F. Schuwalow, S. Tran, H.L. Garutti, E. Laurien, S. Matysek, M. Ramilli, M. Schroeder, S. Bilki, B. Norbeck, E. Northacker, D. Onel, Y. Chang, S. Khan, A. Kim, D.H. Kong, D.J. Oh, Y.D. Kawagoe, K. Hirai, H. Sudo, Y. Suehara, T. Sumida, H. Yoshioka, T. Cortina Gil, E. Mannai, S. Buridon, V. Combaret, C. Caponetto, L. Eté, R. Garillot, G. Grenier, G. Han, R. Ianigro, J.C. Kieffer, R. Laktineh, I. Lumb, N. Mathez, H. Mirabito, L. Petrukhin, A. Steen, A. Antequera, J.Berenguer Alamillo, E.Calvo Fouz, M.C. Marin, J. Puerta-Pelayo, J. Verdugo, A. Chadeeva, M. Danilov, M. Corriveau, F. Gabriel, M. Goecke, P. Kiesling, C. van der Kolk, N. Simon, F. Szalay, M. Bilokin, S. Bonis, J. Cornebise, P. Richard, F. Pöschl, R. Rouëné, J. Thiebault, A. Zerwas, D. Anduze, M. Balagura, V. Belkadhi, K. Boudry, V. Brient, J.C. Cornat, R. Frotin, M. Gastaldi, F. Haddad, Y. Magniette, F. Ruan, M. Rubio-Roy, M. Shpak, K. Videau, H. Yu, D. Callier, S. Conforti di Lorenzo, S. Dulucq, F. Martin-Chassard, G. de la Taille, Ch. Raux, L. Seguin-Moreau, N. Kotera, K. Ono, H. Takeshita, T. |
| author_sort | Deng, Z. |
| collection | CERN |
| description | The CALICE Semi-Digital Hadron Calorimeter (SDHCAL) technological prototype is a sampling calorimeter using Glass Resistive Plate Chamber detectors with a three-threshold readout 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 to beams of muons, electrons and pions of different energies at the CERN Super Proton Synchrotron. To be able to study the performance of such a calorimeter in future experiments it is important to ensure reliable simulation of its response. In this paper we present our prototype simulation performed with GEANT4 and the digitization procedure achieved with an algorithm called SimDigital. A detailed description of this algorithm is given and the methods to determinate its parameters using muon tracks and electromagnetic showers are explained. The comparison with hadronic shower data shows a good agreement up to 50 GeV. Discrepancies are observed at higher energies. The reasons for these differences are investigated. |
| id | cern-2146751 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2016 |
| record_format | invenio |
| spelling | cern-21467512023-08-09T03:12:59Zdoi:10.1088/1748-0221/11/06/P06014http://cds.cern.ch/record/2146751engDeng, Z.Li, Y.Wang, Y.Yue, Q.Yang, Z.Boumediene, D.Carloganu, C.Français, V.Cho, G.Kim, D.W.Lee, S.C.Park, W.Vallecorsa, S.Apostolakis, J.Folger, G.Grefe, C.Ivantchenko, V.Ribon, A.Uzhinskiy, V.Cauwenbergh, S.Tytgat, M.Pingault, A.Zaganidis, N.Brianne, E.Ebrahimi, A.Gadow, K.Göttlicher, P.Günter, C.Hartbrich, O.Hermberg, B.Irles, A.Krivan, F.Krüger, K.Kvasnicka, J.Lu, S.Lutz, B.Morgunov, V.Neubüser, C.Provenza, A.Reinecke, M.Sefkow, F.Schuwalow, S.Tran, H.L.Garutti, E.Laurien, S.Matysek, M.Ramilli, M.Schroeder, S.Bilki, B.Norbeck, E.Northacker, D.Onel, Y.Chang, S.Khan, A.Kim, D.H.Kong, D.J.Oh, Y.D.Kawagoe, K.Hirai, H.Sudo, Y.Suehara, T.Sumida, H.Yoshioka, T.Cortina Gil, E.Mannai, S.Buridon, V.Combaret, C.Caponetto, L.Eté, R.Garillot, G.Grenier, G.Han, R.Ianigro, J.C.Kieffer, R.Laktineh, I.Lumb, N.Mathez, H.Mirabito, L.Petrukhin, A.Steen, A.Antequera, J.BerenguerAlamillo, E.CalvoFouz, M.C.Marin, J.Puerta-Pelayo, J.Verdugo, A.Chadeeva, M.Danilov, M.Corriveau, F.Gabriel, M.Goecke, P.Kiesling, C.van der Kolk, N.Simon, F.Szalay, M.Bilokin, S.Bonis, J.Cornebise, P.Richard, F.Pöschl, R.Rouëné, J.Thiebault, A.Zerwas, D.Anduze, M.Balagura, V.Belkadhi, K.Boudry, V.Brient, J.C.Cornat, R.Frotin, M.Gastaldi, F.Haddad, Y.Magniette, F.Ruan, M.Rubio-Roy, M.Shpak, K.Videau, H.Yu, D.Callier, S.Conforti di Lorenzo, S.Dulucq, F.Martin-Chassard, G.de la Taille, Ch.Raux, L.Seguin-Moreau, N.Kotera, K.Ono, H.Takeshita, T.Resistive Plate Chamber Digitization in a Hadronic Shower EnvironmentDetectors and Experimental TechniquesThe CALICE Semi-Digital Hadron Calorimeter (SDHCAL) technological prototype is a sampling calorimeter using Glass Resistive Plate Chamber detectors with a three-threshold readout 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 to beams of muons, electrons and pions of different energies at the CERN Super Proton Synchrotron. To be able to study the performance of such a calorimeter in future experiments it is important to ensure reliable simulation of its response. In this paper we present our prototype simulation performed with GEANT4 and the digitization procedure achieved with an algorithm called SimDigital. A detailed description of this algorithm is given and the methods to determinate its parameters using muon tracks and electromagnetic showers are explained. The comparison with hadronic shower data shows a good agreement up to 50 GeV. Discrepancies are observed at higher energies. The reasons for these differences are investigated.The CALICE Semi-Digital Hadronic Calorimeter technological prototype is a sampling calorimeter using Glass Resistive Plate Chamber detectors with a three-threshold readout as the active medium. This technology is one of the two options proposed for the hadronic calorimeter of the International Large Detector for the International Linear Collider. The prototype was exposed to beams of muons, electrons and pions of different energies at the CERN Super Proton Synchrotron. To be able to study the performance of such a calorimeter in future experiments it is important to ensure reliable simulation of its response. This paper presents the SDHCAL prototype simulation performed with GEANT4 and the digitization procedure achieved with an algorithm called SimDigital. A detailed description of this algorithm is given and the methods to determinate its parameters using muon tracks and electromagnetic showers are explained. The comparison with hadronic shower data shows a good agreement up to 50 GeV. Discrepancies are observed at higher energies. The reasons for these differences are investigated.The CALICE Semi-Digital Hadron Calorimeter (SDHCAL) technological prototype is a sampling calorimeter using Glass Resistive Plate Chamber detectors with a three-threshold readout 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 to beams of muons, electrons and pions of different energies at the CERN Super Proton Synchrotron. To be able to study the performance of such a calorimeter in future experiments it is important to ensure reliable simulation of its response. In this paper we present our prototype simulation performed with GEANT4 and the digitization procedure achieved with an algorithm called SimDigital. A detailed description of this algorithm is given and the methods to determinate its parameters using muon tracks and electromagnetic showers are explained. The comparison with hadronic shower data shows a good agreement up to 50 GeV. Discrepancies are observed at higher energies. The reasons for these differences are investigated.arXiv:1604.04550CALICE-PUB-2016-004CALICE Analysis Note CAN-053CALICE-CAN-2016-002oai:cds.cern.ch:21467512016-04-15 |
| spellingShingle | Detectors and Experimental Techniques Deng, Z. Li, Y. Wang, Y. Yue, Q. Yang, Z. Boumediene, D. Carloganu, C. Français, V. Cho, G. Kim, D.W. Lee, S.C. Park, W. Vallecorsa, S. Apostolakis, J. Folger, G. Grefe, C. Ivantchenko, V. Ribon, A. Uzhinskiy, V. Cauwenbergh, S. Tytgat, M. Pingault, A. Zaganidis, N. Brianne, E. Ebrahimi, A. Gadow, K. Göttlicher, P. Günter, C. Hartbrich, O. Hermberg, B. Irles, A. Krivan, F. Krüger, K. Kvasnicka, J. Lu, S. Lutz, B. Morgunov, V. Neubüser, C. Provenza, A. Reinecke, M. Sefkow, F. Schuwalow, S. Tran, H.L. Garutti, E. Laurien, S. Matysek, M. Ramilli, M. Schroeder, S. Bilki, B. Norbeck, E. Northacker, D. Onel, Y. Chang, S. Khan, A. Kim, D.H. Kong, D.J. Oh, Y.D. Kawagoe, K. Hirai, H. Sudo, Y. Suehara, T. Sumida, H. Yoshioka, T. Cortina Gil, E. Mannai, S. Buridon, V. Combaret, C. Caponetto, L. Eté, R. Garillot, G. Grenier, G. Han, R. Ianigro, J.C. Kieffer, R. Laktineh, I. Lumb, N. Mathez, H. Mirabito, L. Petrukhin, A. Steen, A. Antequera, J.Berenguer Alamillo, E.Calvo Fouz, M.C. Marin, J. Puerta-Pelayo, J. Verdugo, A. Chadeeva, M. Danilov, M. Corriveau, F. Gabriel, M. Goecke, P. Kiesling, C. van der Kolk, N. Simon, F. Szalay, M. Bilokin, S. Bonis, J. Cornebise, P. Richard, F. Pöschl, R. Rouëné, J. Thiebault, A. Zerwas, D. Anduze, M. Balagura, V. Belkadhi, K. Boudry, V. Brient, J.C. Cornat, R. Frotin, M. Gastaldi, F. Haddad, Y. Magniette, F. Ruan, M. Rubio-Roy, M. Shpak, K. Videau, H. Yu, D. Callier, S. Conforti di Lorenzo, S. Dulucq, F. Martin-Chassard, G. de la Taille, Ch. Raux, L. Seguin-Moreau, N. Kotera, K. Ono, H. Takeshita, T. Resistive Plate Chamber Digitization in a Hadronic Shower Environment |
| title | Resistive Plate Chamber Digitization in a Hadronic Shower Environment |
| title_full | Resistive Plate Chamber Digitization in a Hadronic Shower Environment |
| title_fullStr | Resistive Plate Chamber Digitization in a Hadronic Shower Environment |
| title_full_unstemmed | Resistive Plate Chamber Digitization in a Hadronic Shower Environment |
| title_short | Resistive Plate Chamber Digitization in a Hadronic Shower Environment |
| title_sort | resistive plate chamber digitization in a hadronic shower environment |
| topic | Detectors and Experimental Techniques |
| url | https://dx.doi.org/10.1088/1748-0221/11/06/P06014 http://cds.cern.ch/record/2146751 |
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