The Upgrade of the CMS RPC System during the First LHC Long Shutdown

The CMS muon system includes in both the barrel and endcap region Resistive Plate Chambers (RPC). They mainly serve as trigger detectors and also improve the reconstruction of muon parameters. Over the years, the instantaneous luminosity of the Large Hadron Collider gradually increases. During the L...

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Detalles Bibliográficos
Autores principales: Tytgat, M., Marinov, A., Verwilligen, P., Zaganidis, N., Aleksandrov, A., Genchev, V., Iaydjiev, P., Rodozov, M., Shopova, M., Sultanov, G., Assran, Y., Abbrescia, M., Calabria, C., Colaleo, A., Iaselli, G., Loddo, F., Maggi, M., Pugliese, G., Benussi, L., Bianco, S., Caponero, M., Colafranceschi, S., Felli, F., Piccolo, D., Saviano, G., Carrillo, C., Berzano, U., Gabusi, M., Vitulo, P., Kang, M., Lee, K.S., Park, S.K., Shin, S., Sharma, A.
Lenguaje:eng
Publicado: 2012
Materias:
Detectors and Experimental Techniques
Acceso en línea:https://dx.doi.org/10.1088/1748-0221/8/02/T02002
https://dx.doi.org/10.22323/1.159.0063
http://cds.cern.ch/record/1477019
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author Tytgat, M.
Marinov, A.
Verwilligen, P.
Zaganidis, N.
Aleksandrov, A.
Genchev, V.
Iaydjiev, P.
Rodozov, M.
Shopova, M.
Sultanov, G.
Assran, Y.
Abbrescia, M.
Calabria, C.
Colaleo, A.
Iaselli, G.
Loddo, F.
Maggi, M.
Pugliese, G.
Benussi, L.
Bianco, S.
Caponero, M.
Colafranceschi, S.
Felli, F.
Piccolo, D.
Saviano, G.
Carrillo, C.
Berzano, U.
Gabusi, M.
Vitulo, P.
Kang, M.
Lee, K.S.
Park, S.K.
Shin, S.
Sharma, A.
author_facet Tytgat, M.
Marinov, A.
Verwilligen, P.
Zaganidis, N.
Aleksandrov, A.
Genchev, V.
Iaydjiev, P.
Rodozov, M.
Shopova, M.
Sultanov, G.
Assran, Y.
Abbrescia, M.
Calabria, C.
Colaleo, A.
Iaselli, G.
Loddo, F.
Maggi, M.
Pugliese, G.
Benussi, L.
Bianco, S.
Caponero, M.
Colafranceschi, S.
Felli, F.
Piccolo, D.
Saviano, G.
Carrillo, C.
Berzano, U.
Gabusi, M.
Vitulo, P.
Kang, M.
Lee, K.S.
Park, S.K.
Shin, S.
Sharma, A.
author_sort Tytgat, M.
collection CERN
description The CMS muon system includes in both the barrel and endcap region Resistive Plate Chambers (RPC). They mainly serve as trigger detectors and also improve the reconstruction of muon parameters. Over the years, the instantaneous luminosity of the Large Hadron Collider gradually increases. During the LHC Phase 1 (~first 10 years of operation) an ultimate luminosity is expected above its design value of 10^34/cm^2/s at 14 TeV. To prepare the machine and also the experiments for this, two long shutdown periods are scheduled for 2013-2014 and 2018-2019. The CMS Collaboration is planning several detector upgrades during these long shutdowns. In particular, the muon detection system should be able to maintain a low-pT threshold for an efficient Level-1 Muon Trigger at high particle rates. One of the measures to ensure this, is to extend the present RPC system with the addition of a 4th layer in both endcap regions. During the first long shutdown, these two new stations will be equipped in the region |eta|<1.6 with 144 High Pressure Laminate (HPL) double-gap RPCs operating in avalanche mode, with a similar design as the existing CMS endcap chambers. Here, we present the upgrade plans for the CMS RPC system for the fist long shutdown, including trigger simulation studies for the extended system, and details on the new HPL production, the chamber assembly and the quality control procedures.
id cern-1477019
institution Organización Europea para la Investigación Nuclear
language eng
publishDate 2012
record_format invenio
spelling cern-14770192021-05-03T20:10:38Zdoi:10.1088/1748-0221/8/02/T02002doi:10.22323/1.159.0063http://cds.cern.ch/record/1477019engTytgat, M.Marinov, A.Verwilligen, P.Zaganidis, N.Aleksandrov, A.Genchev, V.Iaydjiev, P.Rodozov, M.Shopova, M.Sultanov, G.Assran, Y.Abbrescia, M.Calabria, C.Colaleo, A.Iaselli, G.Loddo, F.Maggi, M.Pugliese, G.Benussi, L.Bianco, S.Caponero, M.Colafranceschi, S.Felli, F.Piccolo, D.Saviano, G.Carrillo, C.Berzano, U.Gabusi, M.Vitulo, P.Kang, M.Lee, K.S.Park, S.K.Shin, S.Sharma, A.The Upgrade of the CMS RPC System during the First LHC Long ShutdownDetectors and Experimental TechniquesThe CMS muon system includes in both the barrel and endcap region Resistive Plate Chambers (RPC). They mainly serve as trigger detectors and also improve the reconstruction of muon parameters. Over the years, the instantaneous luminosity of the Large Hadron Collider gradually increases. During the LHC Phase 1 (~first 10 years of operation) an ultimate luminosity is expected above its design value of 10^34/cm^2/s at 14 TeV. To prepare the machine and also the experiments for this, two long shutdown periods are scheduled for 2013-2014 and 2018-2019. The CMS Collaboration is planning several detector upgrades during these long shutdowns. In particular, the muon detection system should be able to maintain a low-pT threshold for an efficient Level-1 Muon Trigger at high particle rates. One of the measures to ensure this, is to extend the present RPC system with the addition of a 4th layer in both endcap regions. During the first long shutdown, these two new stations will be equipped in the region |eta|<1.6 with 144 High Pressure Laminate (HPL) double-gap RPCs operating in avalanche mode, with a similar design as the existing CMS endcap chambers. Here, we present the upgrade plans for the CMS RPC system for the fist long shutdown, including trigger simulation studies for the extended system, and details on the new HPL production, the chamber assembly and the quality control procedures.The CMS muon system includes in both the barrel and endcap region Resistive Plate Chambers (RPC). They mainly serve as trigger detectors and also improve the reconstruction of muon parameters. Over the years, the instantaneous luminosity of the Large Hadron Collider gradually increases. During the LHC Phase 1 ( ~ first 10 years of operation) an ultimate luminosity is expected above its design value of 10(34) cm(−)(2)s(−)(1) at 14 TeV. To prepare the machine and also the experiments for this, two long shutdown periods are scheduled for 2013-2014 and 2018-2019. The CMS Collaboration is planning several detector upgrades during these long shutdowns. In particular, the muon detection system should be able to maintain a low-pT threshold for an efficient Level-1 Muon Trigger at high particle rates. One of the measures to ensure this, is to extend the present RPC system with the addition of a 4th layer in both endcap regions. During the first long shutdown, these two new stations will be equipped in the region |η| < 1.6 with 144 High Pressure Laminate (HPL) double-layer RPCs operating in avalanche mode, with a similar design as the existing CMS endcap chambers. Here, we present the upgrade plans for the CMS RPC system for the fist long shutdown, including trigger simulation studies for the extended system, and details on the new HPL production, the chamber assembly and the quality control procedures.The CMS muon system includes in both the barrel and endcap region Resistive Plate Chambers (RPC). They mainly serve as trigger detectors and also improve the reconstruction of muon parameters. Over the years, the instantaneous luminosity of the Large Hadron Collider gradually increases. During the LHC Phase 1 (~first 10 years of operation) an ultimate luminosity is expected above its design value of 10^34/cm^2/s at 14 TeV. To prepare the machine and also the experiments for this, two long shutdown periods are scheduled for 2013-2014 and 2018-2019. The CMS Collaboration is planning several detector upgrades during these long shutdowns. In particular, the muon detection system should be able to maintain a low-pT threshold for an efficient Level-1 Muon Trigger at high particle rates. One of the measures to ensure this, is to extend the present RPC system with the addition of a 4th layer in both endcap regions. During the first long shutdown, these two new stations will be equipped in the region |eta|<1.6 with 144 High Pressure Laminate (HPL) double-gap RPCs operating in avalanche mode, with a similar design as the existing CMS endcap chambers. Here, we present the upgrade plans for the CMS RPC system for the fist long shutdown, including trigger simulation studies for the extended system, and details on the new HPL production, the chamber assembly and the quality control procedures.arXiv:1209.1979oai:cds.cern.ch:14770192012-09-11
spellingShingle Detectors and Experimental Techniques
Tytgat, M.
Marinov, A.
Verwilligen, P.
Zaganidis, N.
Aleksandrov, A.
Genchev, V.
Iaydjiev, P.
Rodozov, M.
Shopova, M.
Sultanov, G.
Assran, Y.
Abbrescia, M.
Calabria, C.
Colaleo, A.
Iaselli, G.
Loddo, F.
Maggi, M.
Pugliese, G.
Benussi, L.
Bianco, S.
Caponero, M.
Colafranceschi, S.
Felli, F.
Piccolo, D.
Saviano, G.
Carrillo, C.
Berzano, U.
Gabusi, M.
Vitulo, P.
Kang, M.
Lee, K.S.
Park, S.K.
Shin, S.
Sharma, A.
The Upgrade of the CMS RPC System during the First LHC Long Shutdown
title The Upgrade of the CMS RPC System during the First LHC Long Shutdown
title_full The Upgrade of the CMS RPC System during the First LHC Long Shutdown
title_fullStr The Upgrade of the CMS RPC System during the First LHC Long Shutdown
title_full_unstemmed The Upgrade of the CMS RPC System during the First LHC Long Shutdown
title_short The Upgrade of the CMS RPC System during the First LHC Long Shutdown
title_sort upgrade of the cms rpc system during the first lhc long shutdown
topic Detectors and Experimental Techniques
url https://dx.doi.org/10.1088/1748-0221/8/02/T02002
https://dx.doi.org/10.22323/1.159.0063
http://cds.cern.ch/record/1477019
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