R&D of a real-size mosaic MRPC within the framework of the CMS muon upgrade
- Authors
- Yu, Y[Yu, Y.]; Han, D[Han, D.]; Wang, Y[Wang, Y.]; Guo, B[Guo, B.]; Lyu, P[Lyu, P.]; Chen, X[Chen, X.]; Shen, C[Shen, C.]; Wang, F[Wang, F.]; Li, Y[Li, Y.]; Cimmino, A[Cimmino, A.]; Crucy, S[Crucy, S.]; Fagot, A[Fagot, A.]; Gul, M[Gul, M.]; Rios, AAO[Rios, A. A. O.]; Tytgat, M[Tytgat, M.]; Zaganidis, N[Zaganidis, N.]; Aly, S[Aly, S.]; Assran, Y[Assran, Y.]; Radi, A[Radi, A.]; Sayed, A[Sayed, A.]; Singh, G[Singh, G.]; Abbrescia, M[Abbrescia, M.]; Iaselli, G[Iaselli, G.]; Maggi, M[Maggi, M.]; Pugliese, G[Pugliese, G.]; Verwilligen, P[Verwilligen, P.]; Van Doninck, W[Van Doninck, W.]; Colafranceschi, S[Colafranceschi, S.]; Sharma, A[Sharma, A.]; Benussi, L[Benussi, L.]; Bianco, S[Bianco, S.]; Piccolo, D[Piccolo, D.]; Primavera, F[Primavera, F.]; Bhatnagar, V[Bhatnagar, V]; Kumari, R[Kumari, R.]; Mehta, A[Mehta, A.]; Singh, J[Singh, J.]; Ahmad, A[Ahmad, A.]; Ahmed, W[Ahmed, W.]; Asghar, MI[Asghar, M., I]; Awan, IM[Awan, I. M.]; Hoorani, R[Hoorani, R.]; Muhammad, S[Muhammad, S.]; Shahzad, H[Shahzad, H.]; Shah, MA[Shah, M. A.]; Cho, SW[Cho, S. W.]; Choi, SY[Choi, S. Y.]; Hong, B[Hong, B.]; Kang, MH[Kang, M. H.]; Lee, KS[Lee, K. S.]; Lim, JH[Lim, J. H.]; Park, SK[Park, S. K.]; Kim, MS[Kim, M. S.]; Bernardino, SC[Carpinteyro Bernardino, S.]; Pedraza, I[Pedraza, I]; Estrada, CU[Uribe Estrada, C.]; Moreno, SC[Carrillo Moreno, S.]; Valencia, FV[Vazquez Valencia, F.]; Pant, LM[Pant, L. M.]; Buontempo, S[Buontempo, S.]; Cavallo, N[Cavallo, N.]; Esposito, M[Esposito, M.]; Fabozzi, F[Fabozzi, F.]; Lanza, G[Lanza, G.]; Orso, I[Orso, I]; Lista, L[Lista, L.]; Meola, S[Meola, S.]; Merola, M[Merola, M.]; Paolucci, P[Paolucci, P.]; Thyssen, F[Thyssen, F.]; Braghieri, A[Braghieri, A.]; Magnani, A[Magnani, A.]; Montagna, P[Montagna, P.]; Riccardi, C[Riccardi, C.]; Salvini, P[Salvini, P.]; Vai, I[Vai, I]; Vitulo, P[Vitulo, P.]; Ban, Y[Ban, Y.]; Qian, SJ[Qian, S. J.]; Choi, M[Choi, M.]; Choi, Y[Choi, Y.]; Goh, J[Goh, J.]; Kim, D[Kim, D.]; Aleksandrov, A[Aleksandrov, A.]; Hadjiiska, R[Hadjiiska, R.]; Iaydjiev, P[Iaydjiev, P.]; Rodozov, M[Rodozov, M.]; Stoykova, S[Stoykova, S.]; Sultanov, G[Sultanov, G.]; Vutova, M[Vutova, M.]; Dimitrov, A[Dimitrov, A.]; Litov, L[Litov, L.]; Pavlov, B[Pavlov, B.]; Petkov, P[Petkov, P.]; Bagaturia, I[Bagaturia, I]; Lomidze, D[Lomidze, D.]; Avila, C[Avila, C.]; Cabrera, A[Cabrera, A.]; Sanabria, JC[Sanabria, J. C.]; Crotty, I[Crotty, I]; Vaitkus, J[Vaitkus, J.]
- Issue Date
- Oct-2019
- Publisher
- IOP PUBLISHING LTD
- Keywords
- Gaseous detectors; Instrumentation and methods for time-of-flight (TOF) spectroscopy; Resistive-plate chambers
- Citation
- JOURNAL OF INSTRUMENTATION, v.14
- Indexed
- SCIE
SCOPUS
- Journal Title
- JOURNAL OF INSTRUMENTATION
- Volume
- 14
- URI
- https://scholarworks.bwise.kr/skku/handle/2021.sw.skku/96493
- DOI
- 10.1088/1748-0221/14/10/C10042
- ISSN
- 1748-0221
- Abstract
- Based on previous experience and attempt, a real-size mosaic Multi-gap Resistive Plate Chamber (MRPC) has been developed within the framework of the CMS muon upgrade efforts. The chamber is a 5-gap with plates made each of 6 pieces of low resistive glass. Cosmic ray test at CERN 904 shows that its efficiency can reach above 95% with a gas mixture of 90% C2H2F4, 5% i-C4H10 and 5% SF6. The chamber was also tested with CMS dry gas(95.2% C2H2F4, 4.5% i-C4H10, 0.3% SF6) at the CERN Gamma Irradiation Facility (GIF++). Efficiency results calculated by a simple tracking method show that the good performance is maintained at rates up to 10 kHz/cm(2).
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- There are no files associated with this item.
- Appears in
Collections - Science > Department of Physics > 1. Journal Articles
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