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Pressure correction study for the CMS iRPC detector

Authors
Abdelhameid, T.Gouzevitch, M.Samalan, A.Tytgat, M.Sawy, M. ElAlves, G.A.Marujo, F.Coelho, E.A.Da Costa, E.M.Nogima, H.Santoro, A.De Souza, S. FonsecaDe Jesus Damiao, D.Thiel, M.Amarilo, K. MotaFilho, M. Barroso FerreiraAleksandrov, A.Hadjiiska, R.Iaydjiev, P.Rodozov, M.Shopova, M.Soultanov, G.Dimitrov, A.Litov, L.Pavlov, B.Petkov, P.Petrov, A.Shumka, E.Qian, S.J.Kou, H.Liu, Z.-A.Zhao, J.Song, J.Hou, Q.Diao, W.Cao, P.Avila, C.Barbosa, D.Cabrera, A.Florez, A.Fraga, J.Reyes, J.Assran, Y.Mahmoud, M.A.Mohammed, Y.Crotty, I.Laktineh, I.Grenier, G.Mirabito, L.Shchablo, K.Bagaturia, I.Lomidze, I.Tsamalaidze, Z.Amoozegar, V.Boghrati, B.Ebraimi, M.Najafabadi, M. MohammadiZareian, E.Abbrescia, M.Iaselli, G.Pugliese, G.Loddo, F.Filippis, N. DeAly, R.Ramos, D.Elmetenawee, W.Leszki, S.Margjeka, I.Paesani, D.Benussi, L.Bianco, S.Piccolo, D.Meola, S.Buontempo, S.Carnevali, F.Lista, L.Paolucci, P.Fienga, F.Braghieri, A.Salvini, P.Montagna, P.Riccardi, C.Vitulo, P.Asilar, E.Choi, J.Kim, T.J.Choi, S.Y.Hong, B.Lee, K.S.Oh, H.Y.Goh, J.Yu, I.Estrada, C. UribePedraza, I.Castilla-Valdez, H.Sanchez-Hernandez, A.Fernandez, R.L.Ramirez-Garcia, M.Vazquez, E.Shah, M.A.Zaganidis, N.Radi, A.Hoorani, H.Muhammad, S.Ahmad, A.Asghar, I.Khan, W.A.Eysermans, J.Araujo, F. Torres Da Silva De
Issue Date
Feb-2024
Publisher
Elsevier BV
Keywords
CMS; Improved RPC
Citation
Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, v.1059, pp 1 - 4
Pages
4
Indexed
SCIE
SCOPUS
Journal Title
Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
Volume
1059
Start Page
1
End Page
4
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/197252
DOI
10.1016/j.nima.2023.168957
ISSN
0168-9002
1872-9576
Abstract
The improved Resistive Plate Chambers (iRPC) are designed using thin low resistivity High-Pressure Laminate (HPL) gaps. They are proposed to equip the very forward region of the Compact Muon Solenoid (CMS) detector, as they can stand rates ∼2kHz/cm2. To withstand 3 times higher rates than the installed CMS RPC chambers, the HPL electrode thickness was reduced from 2 mm to 1.4 mm. The gas gain of the detector is dependent on the gas pressure and temperature which requires correcting for the applied voltage to keep detector operational characteristics such as efficiency, cluster size and noise rate constant. Herein, we study the pressure correction at constant temperature for CMS iRPC and compare its correction coefficient with the one for the 2 mm RPC gap technology. Pressure correction parameters for both technologies are found compatible.
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