Cargando…

Benchmarking LHC background particle simulation with the CMS triple-GEM detector

In 2018, a system of large-size triple-GEM demonstrator chambers was installed in the CMS experiment at CERN's Large Hadron Collider (LHC). The demonstrator's design mimicks that of the final detector, installed for Run-3. A successful Monte Carlo (MC) simulation of the collision-induced b...

Descripción completa

Detalles Bibliográficos
Autores principales:	Abbas, M., Abbrescia, M., Abdalla, H., Abdelalim, A., AbuZeid, S., Agapitos, A., Ahmad, A., Ahmed, A., Ahmed, W., Aimè, C., Aruta, C., Asghar, I., Aspell, P., Avila, C., Azhgirey, I., Babbar, J., Ban, Y., Band, R., Bansal, S., Benussi, L., Bhatnagar, V., Bianco, M., Bianco, S., Black, K., Borgonovi, L., Bouhali, O., Bozzato, D., Braghieri, A., Braibant, S., Butalla, S., Calzaferri, S., Caponero, M., Cassese, F., Castaneda, A., Cavallo, N., Chauhan, S.S., Colaleo, A., Conde Garcia, A., Dalchenko, M., De Iorio, A., De Lentdecker, G., Dell Olio, D., De Robertis, G., Dharmaratna, W., Dildick, S., Dorney, B., Erbacher, R., Fabozzi, F., Fallavollita, F., Ferraro, A., Fiorina, D., Fontanesi, E., Franco, M., Galloni, C., Gancarcik, D., Giacomelli, P., Gigli, S., Gilmore, J., Gola, M., Gruchala, M., Gutierrez, A., Hadjiiska, R., Hakkarainen, T., Hauser, J., Hoepfner, K., Hohlmann, M., Hoorani, H., Huang, T., Iaydjiev, P., Irshad, A., Iorio, A., Ivone, F., Jang, W., Jaramillo, J., Jha, V., Juodagalvis, A., Juska, E., Kailasapathy, B., Kamon, T., Kang, Y., Karchin, P., Kaur, A., Kaur, H., Keller, H., Kim, H., Kim, J., Kim, S., Ko, B., Kumar, A., Kumar, S., Kumawat, H., Kurochkin, I., Lacalamita, N., Lee, J.S.H., Levin, A., Li, Q., Licciulli, F., Lista, L., Liyanage, K., Loddo, F., Luhach, M., Maggi, M., Maghrbi, Y., Majumdar, N., Malagalage, K., Malhotra, S., Mallows, S., Martiradonna, S., Mccoll, N., McLean, C., Merlin, J., Misheva, M., Mishra, D., Mocellin, G., Moureaux, L., Muhammad, A., Muhammad, S., Mukhopadhyay, S., Naimuddin, M., Netrakanti, P., Nuzzo, S., Oliveira, R., Pant, L., Paolucci, P., Park, I.C., Passamonti, L., Passeggio, G., Peck, A., Pellecchia, A., Perera, N., Petre, L., Petrow, H., Piccolo, D., Pierluigi, D., Raffone, G., Rahmani, M., Ramirez, F., Ranieri, A., Rashevski, G., Regnery, B., Ressegotti, M., Riabchikova, A., Riccardi, C., Rodozov, M., Romano, E., Roskas, C., Rossi, B., Rout, P., Roy, D., Ruiz, J.D., Russo, A., Safonov, A., Sahota, A.K., Saltzberg, D., Saviano, G., Shah, A., Sharma, A., Sharma, R., Sheokand, T., Shopova, M., Simone, F.M., Singh, J., Sonnadara, U., Starling, E., Stone, B., Sturdy, J., Sultanov, G., Szillasi, Z., Teague, D., Teyssier, D., Tuuva, T., Tytgat, M., Vai, I., Vanegas, N., Venditti, R., Verwilligen, P., Vetens, W., Virdi, A.K., Vitulo, P., Wajid, A., Wang, D., Wang, K., Watson, I.J., Wickramage, N., Wickramarathna, D.D.C., Yang, S., Yang, Y., Yang, U., Yongho, J., Yoon, I., You, Z., Yu, I., Zaleski, S.
Lenguaje:	eng
Publicado:	2021
Materias:	hep-ex Particle Physics - Experiment physics.ins-det Detectors and Experimental Techniques
Acceso en línea:	https://dx.doi.org/10.1088/1748-0221/16/12/P12026 http://cds.cern.ch/record/2775810

_version_	1780971594886152192
author	Abbas, M. Abbrescia, M. Abdalla, H. Abdelalim, A. AbuZeid, S. Agapitos, A. Ahmad, A. Ahmed, A. Ahmed, W. Aimè, C. Aruta, C. Asghar, I. Aspell, P. Avila, C. Azhgirey, I. Babbar, J. Ban, Y. Band, R. Bansal, S. Benussi, L. Bhatnagar, V. Bianco, M. Bianco, S. Black, K. Borgonovi, L. Bouhali, O. Bozzato, D. Braghieri, A. Braibant, S. Butalla, S. Calzaferri, S. Caponero, M. Cassese, F. Castaneda, A. Cavallo, N. Chauhan, S.S. Colaleo, A. Conde Garcia, A. Dalchenko, M. De Iorio, A. De Lentdecker, G. Dell Olio, D. De Robertis, G. Dharmaratna, W. Dildick, S. Dorney, B. Erbacher, R. Fabozzi, F. Fallavollita, F. Ferraro, A. Fiorina, D. Fontanesi, E. Franco, M. Galloni, C. Gancarcik, D. Giacomelli, P. Gigli, S. Gilmore, J. Gola, M. Gruchala, M. Gutierrez, A. Hadjiiska, R. Hakkarainen, T. Hauser, J. Hoepfner, K. Hohlmann, M. Hoorani, H. Huang, T. Iaydjiev, P. Irshad, A. Iorio, A. Ivone, F. Jang, W. Jaramillo, J. Jha, V. Juodagalvis, A. Juska, E. Kailasapathy, B. Kamon, T. Kang, Y. Karchin, P. Kaur, A. Kaur, H. Keller, H. Kim, H. Kim, J. Kim, S. Ko, B. Kumar, A. Kumar, S. Kumawat, H. Kurochkin, I. Lacalamita, N. Lee, J.S.H. Levin, A. Li, Q. Licciulli, F. Lista, L. Liyanage, K. Loddo, F. Luhach, M. Maggi, M. Maghrbi, Y. Majumdar, N. Malagalage, K. Malhotra, S. Mallows, S. Martiradonna, S. Mccoll, N. McLean, C. Merlin, J. Misheva, M. Mishra, D. Mocellin, G. Moureaux, L. Muhammad, A. Muhammad, S. Mukhopadhyay, S. Naimuddin, M. Netrakanti, P. Nuzzo, S. Oliveira, R. Pant, L. Paolucci, P. Park, I.C. Passamonti, L. Passeggio, G. Peck, A. Pellecchia, A. Perera, N. Petre, L. Petrow, H. Piccolo, D. Pierluigi, D. Raffone, G. Rahmani, M. Ramirez, F. Ranieri, A. Rashevski, G. Regnery, B. Ressegotti, M. Riabchikova, A. Riccardi, C. Rodozov, M. Romano, E. Roskas, C. Rossi, B. Rout, P. Roy, D. Ruiz, J.D. Russo, A. Safonov, A. Sahota, A.K. Saltzberg, D. Saviano, G. Shah, A. Sharma, A. Sharma, R. Sheokand, T. Shopova, M. Simone, F.M. Singh, J. Sonnadara, U. Starling, E. Stone, B. Sturdy, J. Sultanov, G. Szillasi, Z. Teague, D. Teyssier, D. Tuuva, T. Tytgat, M. Vai, I. Vanegas, N. Venditti, R. Verwilligen, P. Vetens, W. Virdi, A.K. Vitulo, P. Wajid, A. Wang, D. Wang, K. Watson, I.J. Wickramage, N. Wickramarathna, D.D.C. Yang, S. Yang, Y. Yang, U. Yongho, J. Yoon, I. You, Z. Yu, I. Zaleski, S.
author_facet	Abbas, M. Abbrescia, M. Abdalla, H. Abdelalim, A. AbuZeid, S. Agapitos, A. Ahmad, A. Ahmed, A. Ahmed, W. Aimè, C. Aruta, C. Asghar, I. Aspell, P. Avila, C. Azhgirey, I. Babbar, J. Ban, Y. Band, R. Bansal, S. Benussi, L. Bhatnagar, V. Bianco, M. Bianco, S. Black, K. Borgonovi, L. Bouhali, O. Bozzato, D. Braghieri, A. Braibant, S. Butalla, S. Calzaferri, S. Caponero, M. Cassese, F. Castaneda, A. Cavallo, N. Chauhan, S.S. Colaleo, A. Conde Garcia, A. Dalchenko, M. De Iorio, A. De Lentdecker, G. Dell Olio, D. De Robertis, G. Dharmaratna, W. Dildick, S. Dorney, B. Erbacher, R. Fabozzi, F. Fallavollita, F. Ferraro, A. Fiorina, D. Fontanesi, E. Franco, M. Galloni, C. Gancarcik, D. Giacomelli, P. Gigli, S. Gilmore, J. Gola, M. Gruchala, M. Gutierrez, A. Hadjiiska, R. Hakkarainen, T. Hauser, J. Hoepfner, K. Hohlmann, M. Hoorani, H. Huang, T. Iaydjiev, P. Irshad, A. Iorio, A. Ivone, F. Jang, W. Jaramillo, J. Jha, V. Juodagalvis, A. Juska, E. Kailasapathy, B. Kamon, T. Kang, Y. Karchin, P. Kaur, A. Kaur, H. Keller, H. Kim, H. Kim, J. Kim, S. Ko, B. Kumar, A. Kumar, S. Kumawat, H. Kurochkin, I. Lacalamita, N. Lee, J.S.H. Levin, A. Li, Q. Licciulli, F. Lista, L. Liyanage, K. Loddo, F. Luhach, M. Maggi, M. Maghrbi, Y. Majumdar, N. Malagalage, K. Malhotra, S. Mallows, S. Martiradonna, S. Mccoll, N. McLean, C. Merlin, J. Misheva, M. Mishra, D. Mocellin, G. Moureaux, L. Muhammad, A. Muhammad, S. Mukhopadhyay, S. Naimuddin, M. Netrakanti, P. Nuzzo, S. Oliveira, R. Pant, L. Paolucci, P. Park, I.C. Passamonti, L. Passeggio, G. Peck, A. Pellecchia, A. Perera, N. Petre, L. Petrow, H. Piccolo, D. Pierluigi, D. Raffone, G. Rahmani, M. Ramirez, F. Ranieri, A. Rashevski, G. Regnery, B. Ressegotti, M. Riabchikova, A. Riccardi, C. Rodozov, M. Romano, E. Roskas, C. Rossi, B. Rout, P. Roy, D. Ruiz, J.D. Russo, A. Safonov, A. Sahota, A.K. Saltzberg, D. Saviano, G. Shah, A. Sharma, A. Sharma, R. Sheokand, T. Shopova, M. Simone, F.M. Singh, J. Sonnadara, U. Starling, E. Stone, B. Sturdy, J. Sultanov, G. Szillasi, Z. Teague, D. Teyssier, D. Tuuva, T. Tytgat, M. Vai, I. Vanegas, N. Venditti, R. Verwilligen, P. Vetens, W. Virdi, A.K. Vitulo, P. Wajid, A. Wang, D. Wang, K. Watson, I.J. Wickramage, N. Wickramarathna, D.D.C. Yang, S. Yang, Y. Yang, U. Yongho, J. Yoon, I. You, Z. Yu, I. Zaleski, S.
author_sort	Abbas, M.
collection	CERN
description	In 2018, a system of large-size triple-GEM demonstrator chambers was installed in the CMS experiment at CERN's Large Hadron Collider (LHC). The demonstrator's design mimicks that of the final detector, installed for Run-3. A successful Monte Carlo (MC) simulation of the collision-induced background hit rate in this system in proton-proton collisions at 13 TeV is presented. The MC predictions are compared to CMS measurements recorded at an instantaneous luminosity of 1.5 ×10$^{34}$ cm$^{-2}$ s$^{-1}$. The simulation framework uses a combination of the FLUKA and GEANT4 packages. FLUKA simulates the radiation environment around the GE1/1 chambers. The particle flux by FLUKA covers energy spectra ranging from 10$^{-11}$ to 10$^{4}$ MeV for neutrons, 10$^{-3}$ to 10$^{4}$ MeV for γ's, 10$^{-2}$ to 10$^{4}$ MeV for e$^{±}$, and 10$^{-1}$ to 10$^{4}$ MeV for charged hadrons. GEANT4 provides an estimate of the detector response (sensitivity) based on an accurate description of the detector geometry, the material composition, and the interaction of particles with the detector layers. The detector hit rate, as obtained from the simulation using FLUKA and GEANT4, is estimated as a function of the perpendicular distance from the beam line and agrees with data within the assigned uncertainties in the range 13.7-14.5%. This simulation framework can be used to obtain a reliable estimate of the background rates expected at the High Luminosity LHC.
id	cern-2775810
institution	Organización Europea para la Investigación Nuclear
language	eng
publishDate	2021
record_format	invenio
spelling	cern-27758102023-06-29T04:18:24Zdoi:10.1088/1748-0221/16/12/P12026http://cds.cern.ch/record/2775810engAbbas, M.Abbrescia, M.Abdalla, H.Abdelalim, A.AbuZeid, S.Agapitos, A.Ahmad, A.Ahmed, A.Ahmed, W.Aimè, C.Aruta, C.Asghar, I.Aspell, P.Avila, C.Azhgirey, I.Babbar, J.Ban, Y.Band, R.Bansal, S.Benussi, L.Bhatnagar, V.Bianco, M.Bianco, S.Black, K.Borgonovi, L.Bouhali, O.Bozzato, D.Braghieri, A.Braibant, S.Butalla, S.Calzaferri, S.Caponero, M.Cassese, F.Castaneda, A.Cavallo, N.Chauhan, S.S.Colaleo, A.Conde Garcia, A.Dalchenko, M.De Iorio, A.De Lentdecker, G.Dell Olio, D.De Robertis, G.Dharmaratna, W.Dildick, S.Dorney, B.Erbacher, R.Fabozzi, F.Fallavollita, F.Ferraro, A.Fiorina, D.Fontanesi, E.Franco, M.Galloni, C.Gancarcik, D.Giacomelli, P.Gigli, S.Gilmore, J.Gola, M.Gruchala, M.Gutierrez, A.Hadjiiska, R.Hakkarainen, T.Hauser, J.Hoepfner, K.Hohlmann, M.Hoorani, H.Huang, T.Iaydjiev, P.Irshad, A.Iorio, A.Ivone, F.Jang, W.Jaramillo, J.Jha, V.Juodagalvis, A.Juska, E.Kailasapathy, B.Kamon, T.Kang, Y.Karchin, P.Kaur, A.Kaur, H.Keller, H.Kim, H.Kim, J.Kim, S.Ko, B.Kumar, A.Kumar, S.Kumawat, H.Kurochkin, I.Lacalamita, N.Lee, J.S.H.Levin, A.Li, Q.Licciulli, F.Lista, L.Liyanage, K.Loddo, F.Luhach, M.Maggi, M.Maghrbi, Y.Majumdar, N.Malagalage, K.Malhotra, S.Mallows, S.Martiradonna, S.Mccoll, N.McLean, C.Merlin, J.Misheva, M.Mishra, D.Mocellin, G.Moureaux, L.Muhammad, A.Muhammad, S.Mukhopadhyay, S.Naimuddin, M.Netrakanti, P.Nuzzo, S.Oliveira, R.Pant, L.Paolucci, P.Park, I.C.Passamonti, L.Passeggio, G.Peck, A.Pellecchia, A.Perera, N.Petre, L.Petrow, H.Piccolo, D.Pierluigi, D.Raffone, G.Rahmani, M.Ramirez, F.Ranieri, A.Rashevski, G.Regnery, B.Ressegotti, M.Riabchikova, A.Riccardi, C.Rodozov, M.Romano, E.Roskas, C.Rossi, B.Rout, P.Roy, D.Ruiz, J.D.Russo, A.Safonov, A.Sahota, A.K.Saltzberg, D.Saviano, G.Shah, A.Sharma, A.Sharma, R.Sheokand, T.Shopova, M.Simone, F.M.Singh, J.Sonnadara, U.Starling, E.Stone, B.Sturdy, J.Sultanov, G.Szillasi, Z.Teague, D.Teyssier, D.Tuuva, T.Tytgat, M.Vai, I.Vanegas, N.Venditti, R.Verwilligen, P.Vetens, W.Virdi, A.K.Vitulo, P.Wajid, A.Wang, D.Wang, K.Watson, I.J.Wickramage, N.Wickramarathna, D.D.C.Yang, S.Yang, Y.Yang, U.Yongho, J.Yoon, I.You, Z.Yu, I.Zaleski, S.Benchmarking LHC background particle simulation with the CMS triple-GEM detectorhep-exParticle Physics - Experimentphysics.ins-detDetectors and Experimental TechniquesIn 2018, a system of large-size triple-GEM demonstrator chambers was installed in the CMS experiment at CERN's Large Hadron Collider (LHC). The demonstrator's design mimicks that of the final detector, installed for Run-3. A successful Monte Carlo (MC) simulation of the collision-induced background hit rate in this system in proton-proton collisions at 13 TeV is presented. The MC predictions are compared to CMS measurements recorded at an instantaneous luminosity of 1.5 ×10$^{34}$ cm$^{-2}$ s$^{-1}$. The simulation framework uses a combination of the FLUKA and GEANT4 packages. FLUKA simulates the radiation environment around the GE1/1 chambers. The particle flux by FLUKA covers energy spectra ranging from 10$^{-11}$ to 10$^{4}$ MeV for neutrons, 10$^{-3}$ to 10$^{4}$ MeV for γ's, 10$^{-2}$ to 10$^{4}$ MeV for e$^{±}$, and 10$^{-1}$ to 10$^{4}$ MeV for charged hadrons. GEANT4 provides an estimate of the detector response (sensitivity) based on an accurate description of the detector geometry, the material composition, and the interaction of particles with the detector layers. The detector hit rate, as obtained from the simulation using FLUKA and GEANT4, is estimated as a function of the perpendicular distance from the beam line and agrees with data within the assigned uncertainties in the range 13.7-14.5%. This simulation framework can be used to obtain a reliable estimate of the background rates expected at the High Luminosity LHC.An estimate of environmental background hit rate on triple-GEM chambers is performed using Monte Carlo (MC) simulation and compared to data taken by test chambers installed in the CMS experiment (GE1/1) during Run-2 at the Large Hadron Collider (LHC). The hit rate is measured using data collected with proton-proton collisions at 13 TeV and a luminosity of 1.5$\times10^{34}$ cm$^{-2}$ s$^{-1}$. The simulation framework uses a combination of the FLUKA and Geant4 packages to obtain the hit rate. FLUKA provides the radiation environment around the GE1/1 chambers, which is comprised of the particle flux with momentum direction and energy spectra ranging from $10^{-11}$ to $10^{4}$ MeV for neutrons, $10^{-3}$ to $10^{4}$ MeV for $\gamma$'s, $10^{-2}$ to $10^{4}$ MeV for $e^{\pm}$, and $10^{-1}$ to $10^{4}$ MeV for charged hadrons. Geant4 provides an estimate of detector response (sensitivity) based on an accurate description of detector geometry, material composition and interaction of particles with the various detector layers. The MC simulated hit rate is estimated as a function of the perpendicular distance from the beam line and agrees with data within the assigned uncertainties of 10-14.5%. This simulation framework can be used to obtain a reliable estimate of background rates expected at the High Luminosity LHC.arXiv:2107.03621oai:cds.cern.ch:27758102021-07-08
spellingShingle	hep-ex Particle Physics - Experiment physics.ins-det Detectors and Experimental Techniques Abbas, M. Abbrescia, M. Abdalla, H. Abdelalim, A. AbuZeid, S. Agapitos, A. Ahmad, A. Ahmed, A. Ahmed, W. Aimè, C. Aruta, C. Asghar, I. Aspell, P. Avila, C. Azhgirey, I. Babbar, J. Ban, Y. Band, R. Bansal, S. Benussi, L. Bhatnagar, V. Bianco, M. Bianco, S. Black, K. Borgonovi, L. Bouhali, O. Bozzato, D. Braghieri, A. Braibant, S. Butalla, S. Calzaferri, S. Caponero, M. Cassese, F. Castaneda, A. Cavallo, N. Chauhan, S.S. Colaleo, A. Conde Garcia, A. Dalchenko, M. De Iorio, A. De Lentdecker, G. Dell Olio, D. De Robertis, G. Dharmaratna, W. Dildick, S. Dorney, B. Erbacher, R. Fabozzi, F. Fallavollita, F. Ferraro, A. Fiorina, D. Fontanesi, E. Franco, M. Galloni, C. Gancarcik, D. Giacomelli, P. Gigli, S. Gilmore, J. Gola, M. Gruchala, M. Gutierrez, A. Hadjiiska, R. Hakkarainen, T. Hauser, J. Hoepfner, K. Hohlmann, M. Hoorani, H. Huang, T. Iaydjiev, P. Irshad, A. Iorio, A. Ivone, F. Jang, W. Jaramillo, J. Jha, V. Juodagalvis, A. Juska, E. Kailasapathy, B. Kamon, T. Kang, Y. Karchin, P. Kaur, A. Kaur, H. Keller, H. Kim, H. Kim, J. Kim, S. Ko, B. Kumar, A. Kumar, S. Kumawat, H. Kurochkin, I. Lacalamita, N. Lee, J.S.H. Levin, A. Li, Q. Licciulli, F. Lista, L. Liyanage, K. Loddo, F. Luhach, M. Maggi, M. Maghrbi, Y. Majumdar, N. Malagalage, K. Malhotra, S. Mallows, S. Martiradonna, S. Mccoll, N. McLean, C. Merlin, J. Misheva, M. Mishra, D. Mocellin, G. Moureaux, L. Muhammad, A. Muhammad, S. Mukhopadhyay, S. Naimuddin, M. Netrakanti, P. Nuzzo, S. Oliveira, R. Pant, L. Paolucci, P. Park, I.C. Passamonti, L. Passeggio, G. Peck, A. Pellecchia, A. Perera, N. Petre, L. Petrow, H. Piccolo, D. Pierluigi, D. Raffone, G. Rahmani, M. Ramirez, F. Ranieri, A. Rashevski, G. Regnery, B. Ressegotti, M. Riabchikova, A. Riccardi, C. Rodozov, M. Romano, E. Roskas, C. Rossi, B. Rout, P. Roy, D. Ruiz, J.D. Russo, A. Safonov, A. Sahota, A.K. Saltzberg, D. Saviano, G. Shah, A. Sharma, A. Sharma, R. Sheokand, T. Shopova, M. Simone, F.M. Singh, J. Sonnadara, U. Starling, E. Stone, B. Sturdy, J. Sultanov, G. Szillasi, Z. Teague, D. Teyssier, D. Tuuva, T. Tytgat, M. Vai, I. Vanegas, N. Venditti, R. Verwilligen, P. Vetens, W. Virdi, A.K. Vitulo, P. Wajid, A. Wang, D. Wang, K. Watson, I.J. Wickramage, N. Wickramarathna, D.D.C. Yang, S. Yang, Y. Yang, U. Yongho, J. Yoon, I. You, Z. Yu, I. Zaleski, S. Benchmarking LHC background particle simulation with the CMS triple-GEM detector
title	Benchmarking LHC background particle simulation with the CMS triple-GEM detector
title_full	Benchmarking LHC background particle simulation with the CMS triple-GEM detector
title_fullStr	Benchmarking LHC background particle simulation with the CMS triple-GEM detector
title_full_unstemmed	Benchmarking LHC background particle simulation with the CMS triple-GEM detector
title_short	Benchmarking LHC background particle simulation with the CMS triple-GEM detector
title_sort	benchmarking lhc background particle simulation with the cms triple-gem detector
topic	hep-ex Particle Physics - Experiment physics.ins-det Detectors and Experimental Techniques
url	https://dx.doi.org/10.1088/1748-0221/16/12/P12026 http://cds.cern.ch/record/2775810
work_keys_str_mv	AT abbasm benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT abbresciam benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT abdallah benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT abdelalima benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT abuzeids benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT agapitosa benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT ahmada benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT ahmeda benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT ahmedw benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT aimec benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT arutac benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT asghari benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT aspellp benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT avilac benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT azhgireyi benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT babbarj benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT bany benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT bandr benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT bansals benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT benussil benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT bhatnagarv benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT biancom benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT biancos benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT blackk benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT borgonovil benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT bouhalio benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT bozzatod benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT braghieria benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT braibants benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT butallas benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT calzaferris benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT caponerom benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT cassesef benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT castanedaa benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT cavallon benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT chauhanss benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT colaleoa benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT condegarciaa benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT dalchenkom benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT deiorioa benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT delentdeckerg benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT delloliod benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT derobertisg benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT dharmaratnaw benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT dildicks benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT dorneyb benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT erbacherr benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT fabozzif benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT fallavollitaf benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT ferraroa benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT fiorinad benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT fontanesie benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT francom benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT gallonic benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT gancarcikd benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT giacomellip benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT giglis benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT gilmorej benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT golam benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT gruchalam benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT gutierreza benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT hadjiiskar benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT hakkarainent benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT hauserj benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT hoepfnerk benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT hohlmannm benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT hooranih benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT huangt benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT iaydjievp benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT irshada benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT iorioa benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT ivonef benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT jangw benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT jaramilloj benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT jhav benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT juodagalvisa benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT juskae benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT kailasapathyb benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT kamont benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT kangy benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT karchinp benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT kaura benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT kaurh benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT kellerh benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT kimh benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT kimj benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT kims benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT kob benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT kumara benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT kumars benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT kumawath benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT kurochkini benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT lacalamitan benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT leejsh benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT levina benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT liq benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT licciullif benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT listal benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT liyanagek benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT loddof benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT luhachm benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT maggim benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT maghrbiy benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT majumdarn benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT malagalagek benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT malhotras benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT mallowss benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT martiradonnas benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT mccolln benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT mcleanc benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT merlinj benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT mishevam benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT mishrad benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT mocelling benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT moureauxl benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT muhammada benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT muhammads benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT mukhopadhyays benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT naimuddinm benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT netrakantip benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT nuzzos benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT oliveirar benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT pantl benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT paoluccip benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT parkic benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT passamontil benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT passeggiog benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT pecka benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT pellecchiaa benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT pereran benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT petrel benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT petrowh benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT piccolod benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT pierluigid benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT raffoneg benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT rahmanim benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT ramirezf benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT ranieria benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT rashevskig benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT regneryb benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT ressegottim benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT riabchikovaa benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT riccardic benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT rodozovm benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT romanoe benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT roskasc benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT rossib benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT routp benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT royd benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT ruizjd benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT russoa benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT safonova benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT sahotaak benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT saltzbergd benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT savianog benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT shaha benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT sharmaa benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT sharmar benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT sheokandt benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT shopovam benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT simonefm benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT singhj benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT sonnadarau benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT starlinge benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT stoneb benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT sturdyj benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT sultanovg benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT szillasiz benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT teagued benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT teyssierd benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT tuuvat benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT tytgatm benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT vaii benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT vanegasn benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT vendittir benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT verwilligenp benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT vetensw benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT virdiak benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT vitulop benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT wajida benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT wangd benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT wangk benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT watsonij benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT wickramagen benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT wickramarathnaddc benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT yangs benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT yangy benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT yangu benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT yonghoj benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT yooni benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT youz benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT yui benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector AT zaleskis benchmarkinglhcbackgroundparticlesimulationwiththecmstriplegemdetector

Benchmarking LHC background particle simulation with the CMS triple-GEM detector

Ejemplares similares