High rate, fast timing Glass RPC for the high η CMS muon detectors

F. Lagarde; M. Gouzevitch; I. Laktineh; V. Buridon; X. Chen; C. Combaret; A. Eynard; L. Germani; G. Grenier; H. Mathez; L. Mirabito; A. Petrukhin; A. Steen; W. Tromeur; Y. Wang; A. Gong; N. Moreau; C. de la Taille; F. Dulucq; A. Cimmino; S. Crucy; A. Fagot; M. Gul; A.A.O. Rios; M. Tytgat; N. Zaganidis; S. Aly; Y. Assran; A. Radi; A. Sayed; G. Singh; M. Abbrescia; G. Iaselli; M. Maggi; G. Pugliese; P. Verwilligen; W. Van Doninck; S. Colafranceschi; A. Sharma; L. Benussi; S. Bianco; D. Piccolo; F. Primavera; V. Bhatnagar; R. Kumari; A. Mehta; J. Singh; A. Ahmad; W. Ahmed; H.M.I. Asghar; I.M. Awan; R. Hoorani; S. Muhammad; H. Shahzad; M.A. Shah; S.W. Cho; S.Y. Choi; B. Hong; M.H. Kang; K.S. Lee; J.H. Lim; S.K. Park; M.S. Kim; S. Carpinteyro Bernardino; I. Pedraza; C. Uribe Estrada; S. Carrillo Moreno; F. Vazquez Valencia; L.M. Pant; S. Buontempo; N. Cavallo; M. Esposito; F. Fabozzi; G. Lanza; I. Orso; L. Lista; S. Meola; M. Merola; P. Paolucci; F. Thyssen; A. Braghieri; A. Magnani; P. Montagna; C. Riccardi; P. Salvini; I. Vai; P. Vitulo; Y. Ban; S.J. Qian; M. Choi; Y. Choi; J. Goh; D. Kim; A. Aleksandrov; R. Hadjiiska; P. Iaydjiev; M. Rodozov; S. Stoykova; G. Sultanov; M. Vutova; A. Dimitrov; L. Litov; B. Pavlov; P. Petkov; I. Bagaturia; D. Lomidze; C. Avila; A. Cabrera; J.C. Sanabria; I. Crotty; J. Vaitkus

doi:10.1088/1748-0221/11/09/C09006

Journal of Instrumentation

The following article is Open access

High rate, fast timing Glass RPC for the high η CMS muon detectors

F. Lagarde¹, M. Gouzevitch¹, I. Laktineh¹, V. Buridon¹, X. Chen¹, C. Combaret¹, A. Eynard¹, L. Germani¹, G. Grenier¹, H. Mathez¹, L. Mirabito¹, A. Petrukhin¹, A. Steen¹, W. Tromeur¹, Y. Wang², A. Gong², N. Moreau³, C. de la Taille³, F. Dulucq³, A. Cimmino⁴, S. Crucy⁴, A. Fagot⁴, M. Gul⁴, A.A.O. Rios⁴, M. Tytgat⁴, N. Zaganidis⁴, S. Aly⁵, Y. Assran⁵, A. Radi⁵, A. Sayed⁵, G. Singh⁶, M. Abbrescia⁷, G. Iaselli⁷, M. Maggi⁷, G. Pugliese⁷, P. Verwilligen⁷, W. Van Doninck⁸, S. Colafranceschi⁹, A. Sharma⁹, L. Benussi¹⁰, S. Bianco¹⁰, D. Piccolo¹⁰, F. Primavera¹⁰, V. Bhatnagar¹¹, R. Kumari¹¹, A. Mehta¹¹, J. Singh¹¹, A. Ahmad¹², W. Ahmed¹², H.M.I. Asghar¹², I.M. Awan¹², R. Hoorani¹², S. Muhammad¹², H. Shahzad¹², M.A. Shah¹², S.W. Cho¹³, S.Y. Choi¹³, B. Hong¹³, M.H. Kang¹³, K.S. Lee¹³, J.H. Lim¹³, S.K. Park¹³, M.S. Kim¹⁴, S. Carpinteyro Bernardino¹⁵, I. Pedraza¹⁵, C. Uribe Estrada¹⁵, S. Carrillo Moreno¹⁶, F. Vazquez Valencia¹⁶, L.M. Pant¹⁷, S. Buontempo¹⁸, N. Cavallo¹⁸, M. Esposito¹⁸, F. Fabozzi¹⁸, G. Lanza¹⁸, I. Orso¹⁸, L. Lista¹⁸, S. Meola¹⁸, M. Merola¹⁸, P. Paolucci¹⁸, F. Thyssen¹⁸, A. Braghieri¹⁹, A. Magnani¹⁹, P. Montagna¹⁹, C. Riccardi¹⁹, P. Salvini¹⁹, I. Vai¹⁹, P. Vitulo¹⁹, Y. Ban²⁰, S.J. Qian²⁰, M. Choi²¹, Y. Choi²², J. Goh²², D. Kim²², A. Aleksandrov²³, R. Hadjiiska²³, P. Iaydjiev²³, M. Rodozov²³, S. Stoykova²³, G. Sultanov²³, M. Vutova²³, A. Dimitrov²⁴, L. Litov²⁴, B. Pavlov²⁴, P. Petkov²⁴, I. Bagaturia²⁵, D. Lomidze²⁵, C. Avila²⁶, A. Cabrera²⁶, J.C. Sanabria²⁶, I. Crotty²⁷ and J. Vaitkus²⁸

Published 9 September 2016 • © CERN 2016 for the benefit of the CMS collaboration.
Journal of Instrumentation, Volume 11, September 2016 13th Workshop on Resistive Plate Chambers and Related Detectors (RPC2016) Citation F. Lagarde et al 2016 JINST 11 C09006 DOI 10.1088/1748-0221/11/09/C09006

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¹ Institut de Physique Nucleaire de Lyon, Universite de Lyon, Universite Claude Bernard Lyon 1, CNRS-IN2P3, Villeurbanne, France

² Tsinghua University, Beijing, China

³ Omega-École Polytechnique, Paris, France

⁴ Ghent university, Dept. of Physics and Astronomy, Proeftuinstraat 86, Ghent, B-9000 Belgium

⁵ Egyptian Network for High Energy Physics, Academy of Scientific Research and Technology, 101 Kasr El-Einy St., Cairo, Egypt

⁶ Chulalongkorn University, Department of Physics, Faculty of Science, Payathai Road, Phatumwan, Bangkok, 10330 Thailand

⁷ INFN, Sezione di Bari, Via Orabona 4, Bari, IT-70126 Italy

⁸ Vrije Universiteit Brussel, Boulevard de la Plaine 2, Ixelles, 1050 Belgium

⁹ Physics Department CERN, Geneva 23, CH-1211 Switzerland

¹⁰ INFN, Laboratori Nazionali di Frascati (LNF), Via Enrico Fermi 40, Frascati, IT-00044 Italy

¹¹ Department of Physics, Panjab University, Chandigarh Mandir, 160 014 India

¹² National Centre for Physics, Quaid-i-Azam University, Islamabad, Pakistan

¹³ Korea University, Department of Physics, 145 Anam-ro, Seongbuk-gu, Seoul, 02841 Republic of Korea

¹⁴ Kyungpook National University, 80 Daehak-ro, Buk-gu, Daegu, 41566 Republic of Korea

¹⁵ Benemerita Universidad Autonoma de Puebla, Puebla, Mexico

¹⁶ Universidad Iberoamericana, Mexico City, Mexico

¹⁷ Nuclear Physics Division Bhabha Atomic Research Centre, Mumbai, 400 085 India

¹⁸ INFN, Sezione di Napoli, Complesso Univ. Monte S. Angelo, Via Cintia, Napoli, IT-80126 Italy

¹⁹ INFN, Sezione di Pavia, Via Bassi 6, Pavia, Italy

²⁰ School of Physics, Peking University, Beijing, 100871 China

²¹ University of Seoul, 163 Seoulsiripdae-ro, Dongdaemun-gu, Seoul, Republic of Korea

²² Sungkyunkwan University, 2066 Seobu-ro, Jangan-gu, Suwon-si, Gyeonggi-do, Republic of Korea

²³ Bulgarian Academy of Sciences, Inst. for Nucl. Res. and Nucl. Energy, Tzarigradsko shaussee Boulevard 72, Sofia, BG-1784 Bulgaria

²⁴ Faculty of Physics, University of Sofia, 5, James Bourchier Boulevard, Sofia, BG-1164 Bulgaria

²⁵ Tbilisi University, 1 Ilia Chavchavadze Ave, Tbilisi, 0179 Georgia

²⁶ Universidad de Los Andes, Apartado Aereo 4976, Carrera 1E, no. 18A 10, Bogotá, Colombia

²⁷ Dept. of Physics, Wisconsin University, Madison, WI, 53706 United States

²⁸ Vilnius University, Vilnius, Lithuania

Dates

Received 6 June 2016
Accepted 5 August 2016
Published 9 September 2016

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Abstract

The HL-LHC phase is designed to increase by an order of magnitude the amount of data to be collected by the LHC experiments. To achieve this goal in a reasonable time scale the instantaneous luminosity would also increase by an order of magnitude up to 6 · 10³⁴ cm⁻²s⁻¹. The region of the forward muon spectrometer (|η| > 1.6) is not equipped with RPC stations. The increase of the expected particles flux up to 2 kHz/cm² (including a safety factor 3) motivates the installation of RPC chambers to guarantee redundancy with the CSC chambers already present. The current CMS RPC technology cannot sustain the expected background level. The new technology that will be chosen should have a high rate capability and provide a good spatial and timing resolution. A new generation of Glass-RPC (GRPC) using low-resistivity glass is proposed to equip at least the two most far away of the four high η muon stations of CMS. First the design of small size prototypes and studies of their performance in high-rate particles flux are presented. Then the proposed designs for large size chambers and their fast-timing electronic readout are examined and preliminary results are provided.

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High rate, fast timing Glass RPC for the high η CMS muon detectors

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