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Simulation of the CMS resistive plate chambers

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Abstract
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 root 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.
Keywords
Simulation methods and programs, Resistive-plate chambers, MODE

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Citation

Please use this url to cite or link to this publication:

Chicago
Hadjiiska, R, L Litov, B Pavlov, P Petkov, A Dimitrov, Kelly Beernaert, Anna Cimmino, et al. 2013. “Simulation of the CMS Resistive Plate Chambers.” Journal of Instrumentation 8.
APA
Hadjiiska, R., Litov, L., Pavlov, B., Petkov, P., Dimitrov, A., Beernaert, K., Cimmino, A., et al. (2013). Simulation of the CMS resistive plate chambers. JOURNAL OF INSTRUMENTATION, 8.
Vancouver
1.
Hadjiiska R, Litov L, Pavlov B, Petkov P, Dimitrov A, Beernaert K, et al. Simulation of the CMS resistive plate chambers. JOURNAL OF INSTRUMENTATION. 2013;8.
MLA
Hadjiiska, R, L Litov, B Pavlov, et al. “Simulation of the CMS Resistive Plate Chambers.” JOURNAL OF INSTRUMENTATION 8 (2013): n. pag. Print.
@article{3822662,
  abstract     = {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 root 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.},
  articleno    = {P03001},
  author       = {Hadjiiska, R and Litov, L and Pavlov, B and Petkov, P and Dimitrov, A and Beernaert, Kelly and Cimmino, Anna and Costantini, Silvia and Garcia, Guillaume and Lellouch, Jeremie and Marinov, Andrey and Ocampo Rios, Alberto Andres and Strobbe, Nadja and Thyssen, Filip and Tytgat, Michael and Verwilligen, Piet and Yazgan, Efe and Zaganidis, Nikolaos and Aleksandrov, A and Genchev, V and Iaydjiev, P and Rodozov, M and Shopova, M and Sultanov, G and Ban, Y and Cai, J and Xue, Z and Ge, Y and Li, Q and Qian, S and Avila, C and Chaparro, LF and Gomez, JP and Moreno, BG and Oliveros, AFO and Sanabria, JC and Assran, Y and Sharma, A and Abbrescia, M and Colaleo, A and Pugliese, G and Loddo, F and Calabria, C and Maggi, M and Benussi, L and Bianco, S and Colafranceschi, S and Piccolo, D and Carrillo, C and Iorio, O and Buontempo, S and Paolucci, P and Vitulo, P and Berzano, U and Gabusi, M and Kang, M and Lee, KS and Park, SK and Shin, S and Kim, MS and Seo, H and Goh, J and Choi, Y and Shoaib, M},
  issn         = {1748-0221},
  journal      = {JOURNAL OF INSTRUMENTATION},
  language     = {eng},
  pages        = {12},
  title        = {Simulation of the CMS resistive plate chambers},
  url          = {http://dx.doi.org/10.1088/1748-0221/8/03/P03001},
  volume       = {8},
  year         = {2013},
}

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