Simulation of the CMS Resistive Plate Chambers

The Resistive Plate Chamber (RPC) muon subsystem contributes significantly to the formation of the trigger decision and reconstruction of the muon trajectory parameters. Simulation of the RPC response is a crucial part of the entire CMS Monte Carlo software and directly influences the final physical...

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Detalles Bibliográficos
Autores principales: Hadjiiska, R., Litov, L., Pavlov, B., Petkov, P., Dimitrov, A., Beernaert, K., Cimmino, A., Costantini, S., Garcia, G., Lellouch, J., Marinov, A., Ocampo, A., Strobbe, N., Thyssen, F., Tytgat, M., Verwilligen, P., Yazgan, E., Zaganidis, N., Aleksandrov, A., Genchev, V., Iaydjiev, P., Rodozov, M., Shopova, M., Sultanov, G., Ban, Y., Cai, J., Xue, Z., Ge, Y., Li, Q., Qian, S., Avila, C., Chaparro, L.F., Gomez, J.P., Gomez Moreno, B., Osorio Oliveros, A.F., Sanabria, J.C., Assran, Y., Sharma, A., Abbrescia, M., Colaleo, A., Pugliese, G., Loddo, F., Calabria, C., Maggi, M., Benussi, L., Bianco, S., Colafranceschi, S., Piccolo, D., Carrillo, C., Iorio, O., Buontempo, S., Paolucci, P., Vitulo, P., Berzano, U., Gabusi, M., Kang, M., Lee, K.S., Park, S.K., Shin, S., Kim, M.S., Seo, H., Goh, J., Choi, Y., Shoaib, M.
Lenguaje:eng
Publicado: 2013
Materias:
Detectors and Experimental Techniques
Acceso en línea:https://dx.doi.org/10.1088/1748-0221/8/03/P03001
http://cds.cern.ch/record/1510942
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author Hadjiiska, R.
Litov, L.
Pavlov, B.
Petkov, P.
Dimitrov, A.
Beernaert, K.
Cimmino, A.
Costantini, S.
Garcia, G.
Lellouch, J.
Marinov, A.
Ocampo, A.
Strobbe, N.
Thyssen, F.
Tytgat, M.
Verwilligen, P.
Yazgan, E.
Zaganidis, N.
Aleksandrov, A.
Genchev, V.
Iaydjiev, P.
Rodozov, M.
Shopova, M.
Sultanov, G.
Ban, Y.
Cai, J.
Xue, Z.
Ge, Y.
Li, Q.
Qian, S.
Avila, C.
Chaparro, L.F.
Gomez, J.P.
Gomez Moreno, B.
Osorio Oliveros, A.F.
Sanabria, J.C.
Assran, Y.
Sharma, A.
Abbrescia, M.
Colaleo, A.
Pugliese, G.
Loddo, F.
Calabria, C.
Maggi, M.
Benussi, L.
Bianco, S.
Colafranceschi, S.
Piccolo, D.
Carrillo, C.
Iorio, O.
Buontempo, S.
Paolucci, P.
Vitulo, P.
Berzano, U.
Gabusi, M.
Kang, M.
Lee, K.S.
Park, S.K.
Shin, S.
Kim, M.S.
Seo, H.
Goh, J.
Choi, Y.
Shoaib, M.
author_facet Hadjiiska, R.
Litov, L.
Pavlov, B.
Petkov, P.
Dimitrov, A.
Beernaert, K.
Cimmino, A.
Costantini, S.
Garcia, G.
Lellouch, J.
Marinov, A.
Ocampo, A.
Strobbe, N.
Thyssen, F.
Tytgat, M.
Verwilligen, P.
Yazgan, E.
Zaganidis, N.
Aleksandrov, A.
Genchev, V.
Iaydjiev, P.
Rodozov, M.
Shopova, M.
Sultanov, G.
Ban, Y.
Cai, J.
Xue, Z.
Ge, Y.
Li, Q.
Qian, S.
Avila, C.
Chaparro, L.F.
Gomez, J.P.
Gomez Moreno, B.
Osorio Oliveros, A.F.
Sanabria, J.C.
Assran, Y.
Sharma, A.
Abbrescia, M.
Colaleo, A.
Pugliese, G.
Loddo, F.
Calabria, C.
Maggi, M.
Benussi, L.
Bianco, S.
Colafranceschi, S.
Piccolo, D.
Carrillo, C.
Iorio, O.
Buontempo, S.
Paolucci, P.
Vitulo, P.
Berzano, U.
Gabusi, M.
Kang, M.
Lee, K.S.
Park, S.K.
Shin, S.
Kim, M.S.
Seo, H.
Goh, J.
Choi, Y.
Shoaib, M.
author_sort Hadjiiska, R.
collection CERN
description The Resistive Plate Chamber (RPC) muon subsystem contributes significantly to the formation of the trigger decision and reconstruction of the muon trajectory parameters. Simulation of the RPC response is a crucial part of the entire CMS Monte Carlo software and directly influences the final physical results. An algorithm based on the parametrization of RPC efficiency, noise, cluster size and timing for every strip has been developed. Experimental data obtained from cosmic and proton-proton collisions at √s = 7 TeV have been used for determination of the parameters. A dedicated validation procedure has been developed. A good agreement between the simulated and experimental data has been achieved.
id cern-1510942
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2013
record_format invenio
spelling cern-15109422021-12-11T03:10:11Zdoi:10.1088/1748-0221/8/03/P03001http://cds.cern.ch/record/1510942engHadjiiska, R.Litov, L.Pavlov, B.Petkov, P.Dimitrov, A.Beernaert, K.Cimmino, A.Costantini, S.Garcia, G.Lellouch, J.Marinov, A.Ocampo, A.Strobbe, N.Thyssen, F.Tytgat, M.Verwilligen, P.Yazgan, E.Zaganidis, N.Aleksandrov, A.Genchev, V.Iaydjiev, P.Rodozov, M.Shopova, M.Sultanov, G.Ban, Y.Cai, J.Xue, Z.Ge, Y.Li, Q.Qian, S.Avila, C.Chaparro, L.F.Gomez, J.P.Gomez Moreno, B.Osorio Oliveros, A.F.Sanabria, J.C.Assran, Y.Sharma, A.Abbrescia, M.Colaleo, A.Pugliese, G.Loddo, F.Calabria, C.Maggi, M.Benussi, L.Bianco, S.Colafranceschi, S.Piccolo, D.Carrillo, C.Iorio, O.Buontempo, S.Paolucci, P.Vitulo, P.Berzano, U.Gabusi, M.Kang, M.Lee, K.S.Park, S.K.Shin, S.Kim, M.S.Seo, H.Goh, J.Choi, Y.Shoaib, M.Simulation of the CMS Resistive Plate ChambersDetectors and Experimental TechniquesThe Resistive Plate Chamber (RPC) muon subsystem contributes significantly to the formation of the trigger decision and reconstruction of the muon trajectory parameters. Simulation of the RPC response is a crucial part of the entire CMS Monte Carlo software and directly influences the final physical results. An algorithm based on the parametrization of RPC efficiency, noise, cluster size and timing for every strip has been developed. Experimental data obtained from cosmic and proton-proton collisions at √s = 7 TeV have been used for determination of the parameters. A dedicated validation procedure has been developed. A good agreement between the simulated and experimental data has been achieved.The Resistive Plate Chamber (RPC) muon subsystem contributes significantly to the formation of the trigger decision and reconstruction of the muon trajectory parameters. Simulation of the RPC response is a crucial part of the entire CMS Monte Carlo software and directly influences the final physical results. An algorithm based on the parametrization of RPC efficiency, noise, cluster size and timing for every strip has been developed. Experimental data obtained from cosmic and proton-proton collisions at $\sqrt{s}=7$ TeV have been used for determination of the parameters. A dedicated validation procedure has been developed. A good agreement between the simulated and experimental data has been achieved.arXiv:1301.6978oai:cds.cern.ch:15109422013-01-30
spellingShingle Detectors and Experimental Techniques
Hadjiiska, R.
Litov, L.
Pavlov, B.
Petkov, P.
Dimitrov, A.
Beernaert, K.
Cimmino, A.
Costantini, S.
Garcia, G.
Lellouch, J.
Marinov, A.
Ocampo, A.
Strobbe, N.
Thyssen, F.
Tytgat, M.
Verwilligen, P.
Yazgan, E.
Zaganidis, N.
Aleksandrov, A.
Genchev, V.
Iaydjiev, P.
Rodozov, M.
Shopova, M.
Sultanov, G.
Ban, Y.
Cai, J.
Xue, Z.
Ge, Y.
Li, Q.
Qian, S.
Avila, C.
Chaparro, L.F.
Gomez, J.P.
Gomez Moreno, B.
Osorio Oliveros, A.F.
Sanabria, J.C.
Assran, Y.
Sharma, A.
Abbrescia, M.
Colaleo, A.
Pugliese, G.
Loddo, F.
Calabria, C.
Maggi, M.
Benussi, L.
Bianco, S.
Colafranceschi, S.
Piccolo, D.
Carrillo, C.
Iorio, O.
Buontempo, S.
Paolucci, P.
Vitulo, P.
Berzano, U.
Gabusi, M.
Kang, M.
Lee, K.S.
Park, S.K.
Shin, S.
Kim, M.S.
Seo, H.
Goh, J.
Choi, Y.
Shoaib, M.
Simulation of the CMS Resistive Plate Chambers
title Simulation of the CMS Resistive Plate Chambers
title_full Simulation of the CMS Resistive Plate Chambers
title_fullStr Simulation of the CMS Resistive Plate Chambers
title_full_unstemmed Simulation of the CMS Resistive Plate Chambers
title_short Simulation of the CMS Resistive Plate Chambers
title_sort simulation of the cms resistive plate chambers
topic Detectors and Experimental Techniques
url https://dx.doi.org/10.1088/1748-0221/8/03/P03001
http://cds.cern.ch/record/1510942
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