CMS Resistive Plate Chamber overview, from the present system to the upgrade phase i

P. Paolucci, R. Hadjiiska, L. Litov, B. Pavlov, P. Petkov, A. Dimitrov, K. Beernaert, A. Cimmino, S. Costantini, G. Guillaume, J. Lellouch, A. Marinov, A. Ocampo, N. Strobbe, F. Thyssen, M. Tytgat, P. Verwilligen, E. Yazgan, N. Zaganidis, A. Aleksandrov & 43 others V. Genchev, P. Iaydjiev, M. Rodozov, M. Shopova, G. Sultanov, Y. Ban, J. Cai, Z. Xue, Y. Ge, Q. Li, S. Qian, C. Avila, L. F. Chaparro, J. P. Gomez, B. Gomez Moreno, A. F. Osorio Oliveros, J. C. Sanabria, Y. Assran, A. Sharma, M. Abbrescia, A. Colaleo, G. Pugliese, F. Loddo, C. Calabria, M. Maggi, L. Benussi, S. Bianco, S. Colafranceschi, D. Piccolo, C. Carrillo, O. Iorio, S. Buontempo, P. Vitulo, U. Berzano, M. Gabusi, M. Kang, K. S. Lee, Sung Keun Park, S. Shin, M. S. Kim, H. K. Seo, J. Goh, Y. -I Choi

Research output: Contribution to journalArticle

4 Citations (Scopus)

Abstract

Resistive Plate Chambers have been chosen as dedicated trigger muon detector for the Compact Muon Solenoid experiment [1] at the Large Hadron Collider [2] at CERN. The system consists of about 3000 m2 of double gap RPC chambers placed in both the barrel and endcap muon regions. About 5.6 fb-1 (2010-2011) of proton-proton collision data have been used to study the performance of the RPC detector and trigger. A full high voltage scan of all the RPC chambers has been done at beginning of 2011 data taking to evaluate the working point chamber by chamber and to eventually spot aging effects. The excellent behaviour of the RPC detector can be summarized with an average detector efficiency of about 97%, an average cluster size of 1.8 and an intrinsic noise rate of 0.1 Hz/cm2. This is a clear fulfilment of all the requirements decided 18 years ago in the CMS TDR document [3].

Original languageEnglish
Article numberP04005
JournalJournal of Instrumentation
Volume8
Issue number4
DOIs
Publication statusPublished - 2013 Apr 1

Fingerprint

chambers
Detector
Detectors
muons
Trigger
detectors
Protons
Solenoid
actuators
Solenoids
Colliding beam accelerators
protons
solenoids
Collision
Aging of materials
Voltage
high voltages
Evaluate
Requirements
Electric potential

Keywords

  • Muon spectrometers
  • Performance of High Energy Physics Detectors
  • Resistive-plate chambers
  • Trigger detectors

ASJC Scopus subject areas

  • Instrumentation
  • Mathematical Physics

Cite this

Paolucci, P., Hadjiiska, R., Litov, L., Pavlov, B., Petkov, P., Dimitrov, A., ... -I Choi, Y. (2013). CMS Resistive Plate Chamber overview, from the present system to the upgrade phase i. Journal of Instrumentation, 8(4), [P04005]. https://doi.org/10.1088/1748-0221/8/04/P04005

CMS Resistive Plate Chamber overview, from the present system to the upgrade phase i. / Paolucci, P.; Hadjiiska, R.; Litov, L.; Pavlov, B.; Petkov, P.; Dimitrov, A.; Beernaert, K.; Cimmino, A.; Costantini, S.; Guillaume, G.; Lellouch, J.; Marinov, A.; Ocampo, A.; Strobbe, N.; Thyssen, F.; Tytgat, M.; Verwilligen, P.; Yazgan, E.; Zaganidis, N.; Aleksandrov, A.; Genchev, V.; Iaydjiev, P.; Rodozov, M.; Shopova, M.; Sultanov, G.; Ban, Y.; Cai, J.; Xue, Z.; Ge, Y.; Li, Q.; Qian, S.; Avila, C.; Chaparro, L. F.; Gomez, J. P.; Gomez Moreno, B.; Osorio Oliveros, A. F.; Sanabria, J. C.; Assran, Y.; Sharma, A.; Abbrescia, M.; Colaleo, A.; Pugliese, G.; Loddo, F.; Calabria, C.; Maggi, M.; Benussi, L.; Bianco, S.; Colafranceschi, S.; Piccolo, D.; Carrillo, C.; Iorio, O.; Buontempo, S.; Vitulo, P.; Berzano, U.; Gabusi, M.; Kang, M.; Lee, K. S.; Park, Sung Keun; Shin, S.; Kim, M. S.; Seo, H. K.; Goh, J.; -I Choi, Y.

In: Journal of Instrumentation, Vol. 8, No. 4, P04005, 01.04.2013.

Research output: Contribution to journalArticle

Paolucci, P, Hadjiiska, R, Litov, L, Pavlov, B, Petkov, P, Dimitrov, A, Beernaert, K, Cimmino, A, Costantini, S, Guillaume, G, Lellouch, J, Marinov, A, Ocampo, A, Strobbe, N, Thyssen, F, Tytgat, M, Verwilligen, P, Yazgan, E, Zaganidis, N, Aleksandrov, A, Genchev, V, Iaydjiev, P, Rodozov, M, Shopova, M, Sultanov, G, Ban, Y, Cai, J, Xue, Z, Ge, Y, Li, Q, Qian, S, Avila, C, Chaparro, LF, Gomez, JP, Gomez Moreno, B, Osorio Oliveros, AF, Sanabria, JC, Assran, Y, Sharma, A, Abbrescia, M, Colaleo, A, Pugliese, G, Loddo, F, Calabria, C, Maggi, M, Benussi, L, Bianco, S, Colafranceschi, S, Piccolo, D, Carrillo, C, Iorio, O, Buontempo, S, Vitulo, P, Berzano, U, Gabusi, M, Kang, M, Lee, KS, Park, SK, Shin, S, Kim, MS, Seo, HK, Goh, J & -I Choi, Y 2013, 'CMS Resistive Plate Chamber overview, from the present system to the upgrade phase i', Journal of Instrumentation, vol. 8, no. 4, P04005. https://doi.org/10.1088/1748-0221/8/04/P04005
Paolucci, P. ; Hadjiiska, R. ; Litov, L. ; Pavlov, B. ; Petkov, P. ; Dimitrov, A. ; Beernaert, K. ; Cimmino, A. ; Costantini, S. ; Guillaume, G. ; Lellouch, J. ; Marinov, A. ; Ocampo, A. ; Strobbe, N. ; Thyssen, F. ; Tytgat, M. ; Verwilligen, P. ; Yazgan, E. ; Zaganidis, N. ; Aleksandrov, A. ; Genchev, V. ; Iaydjiev, P. ; Rodozov, M. ; Shopova, M. ; Sultanov, G. ; Ban, Y. ; Cai, J. ; Xue, Z. ; Ge, Y. ; Li, Q. ; Qian, S. ; Avila, C. ; Chaparro, L. F. ; Gomez, J. P. ; Gomez Moreno, B. ; Osorio Oliveros, A. F. ; Sanabria, J. C. ; Assran, Y. ; Sharma, A. ; Abbrescia, M. ; Colaleo, A. ; Pugliese, G. ; Loddo, F. ; Calabria, C. ; Maggi, M. ; Benussi, L. ; Bianco, S. ; Colafranceschi, S. ; Piccolo, D. ; Carrillo, C. ; Iorio, O. ; Buontempo, S. ; Vitulo, P. ; Berzano, U. ; Gabusi, M. ; Kang, M. ; Lee, K. S. ; Park, Sung Keun ; Shin, S. ; Kim, M. S. ; Seo, H. K. ; Goh, J. ; -I Choi, Y. / CMS Resistive Plate Chamber overview, from the present system to the upgrade phase i. In: Journal of Instrumentation. 2013 ; Vol. 8, No. 4.
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abstract = "Resistive Plate Chambers have been chosen as dedicated trigger muon detector for the Compact Muon Solenoid experiment [1] at the Large Hadron Collider [2] at CERN. The system consists of about 3000 m2 of double gap RPC chambers placed in both the barrel and endcap muon regions. About 5.6 fb-1 (2010-2011) of proton-proton collision data have been used to study the performance of the RPC detector and trigger. A full high voltage scan of all the RPC chambers has been done at beginning of 2011 data taking to evaluate the working point chamber by chamber and to eventually spot aging effects. The excellent behaviour of the RPC detector can be summarized with an average detector efficiency of about 97{\%}, an average cluster size of 1.8 and an intrinsic noise rate of 0.1 Hz/cm2. This is a clear fulfilment of all the requirements decided 18 years ago in the CMS TDR document [3].",
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AU - Hadjiiska, R.

AU - Litov, L.

AU - Pavlov, B.

AU - Petkov, P.

AU - Dimitrov, A.

AU - Beernaert, K.

AU - Cimmino, A.

AU - Costantini, S.

AU - Guillaume, G.

AU - Lellouch, J.

AU - Marinov, A.

AU - Ocampo, A.

AU - Strobbe, N.

AU - Thyssen, F.

AU - Tytgat, M.

AU - Verwilligen, P.

AU - Yazgan, E.

AU - Zaganidis, N.

AU - Aleksandrov, A.

AU - Genchev, V.

AU - Iaydjiev, P.

AU - Rodozov, M.

AU - Shopova, M.

AU - Sultanov, G.

AU - Ban, Y.

AU - Cai, J.

AU - Xue, Z.

AU - Ge, Y.

AU - Li, Q.

AU - Qian, S.

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AU - Chaparro, L. F.

AU - Gomez, J. P.

AU - Gomez Moreno, B.

AU - Osorio Oliveros, A. F.

AU - Sanabria, J. C.

AU - Assran, Y.

AU - Sharma, A.

AU - Abbrescia, M.

AU - Colaleo, A.

AU - Pugliese, G.

AU - Loddo, F.

AU - Calabria, C.

AU - Maggi, M.

AU - Benussi, L.

AU - Bianco, S.

AU - Colafranceschi, S.

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AU - Kang, M.

AU - Lee, K. S.

AU - Park, Sung Keun

AU - Shin, S.

AU - Kim, M. S.

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AU - Goh, J.

AU - -I Choi, Y.

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