Impact of the Radiation Background on the CMS muon high-eta upgrade for the LHC high luminosity scenario

D. Abbaneo; M. Abbas; M. Abbrescia; A. A. Abdelalim; M. Abi Akl; W. Ahmed; W. Ahmed; P. Altieri; R. Aly; A. Ashfaq; P. Aspell; Y. Assran; I. Awan; S. Bally; Y. Ban; S. Banerjee; P. Barria; L. Benussi; V. Bhopatkar; S. Bianco; J. Bos; O. Bouhali; S. Braibant; S. Buontempo; J. Cai; C. Calabria; C. Caputo; F. Cassese; A. Castaneda; S. Cauwenbergh; F. R. Cavallo; A. Celik; M. Choi; K. Choi; S. Choi; J. Christiansen; A. Cimmino; S. Colafranceschi; A. Colaleo; A. Conde Garcia; M. M. Dabrowski; G. De Lentdecker; R. De Oliveira; G. De Robertis; S. Dildick; B. Dorney; W. Elmetenawee; G. Fabrice; S. Ferry; P. Giacomelli; J. Gilmore; L. Guiducci; A. Gutierrez; R. M. Hadjiiska; A. Hassan; J. Hauser; K. Hoepfner; M. Hohlmann; H. Hoorani; Y. G. Jeng; T. Kamon; P. E. Karchin; H. Kim; S. Krutelyov; A. Kumar; J. Lee; J. Lee; T. Lenzi; L. Litov; F. Loddo; T. Maerschalk; G. Magazzu; M. Maggi; Y. Maghrbi; A. Magnani; N. Majumdar; P. K. Mal; K. Mandal; A. Marchioro; A. Marinov; J. A. Merlin; N. Mohammed; A. K. Mohanty; A. Mohapatra; S. Muhammad; S. Mukhopadhyay; S. Nuzzo; E. Oliveri; L. M. Pant; P. Paolucci; I. Park; G. Passeggio; B. Pavlov; B. Philipps; M. Phipps; D. Piccolo; H. Postema; G. Pugliese; A. Puig Baranac; A. Radi; R. Radogna; G. Raffone; S. Ramkrishna; A. Ranieri; C. Riccardi; A. Rodrigues; L. Ropelewski; S. Roychoddhury; M. S. Ryu; G. Ryu; A. Safonov; A. Sakharov; S. Salva; G. Saviano; A. Sharma; S. K. Swain; J. P. Talvitie; C. Tamma; A. Tatarinov; N. Turini; T. Tuuva; J. Twigger; M. Tytgat; I. Vai; M. Van Stenis; R. Venditi; E. Verhagen; P. Verwilligen; P. Vitulo; U. Yang; Y. Yang; R. Yonamine; N. Zaganidis; F. Zenoni; A. Zhang

Impact of the Radiation Background on the CMS muon high-eta upgrade for the LHC high luminosity scenario

D. Abbaneo, M. Abbas, M. Abbrescia, A. A. Abdelalim, M. Abi Akl, W. Ahmed, W. Ahmed, P. Altieri, R. Aly, A. Ashfaq, P. Aspell, Y. Assran, I. Awan, S. Bally, Y. Ban, S. Banerjee, P. Barria, L. Benussi, V. Bhopatkar, S. BiancoJ. Bos, O. Bouhali, S. Braibant, S. Buontempo, J. Cai, C. Calabria, C. Caputo, F. Cassese, A. Castaneda^*, S. Cauwenbergh, F. R. Cavallo, A. Celik, M. Choi, K. Choi, S. Choi, J. Christiansen, A. Cimmino, S. Colafranceschi, A. Colaleo, A. Conde Garcia, M. M. Dabrowski, G. De Lentdecker, R. De Oliveira, G. De Robertis, S. Dildick, B. Dorney, W. Elmetenawee, G. Fabrice, S. Ferry, P. Giacomelli, J. Gilmore, L. Guiducci, A. Gutierrez, R. M. Hadjiiska, A. Hassan, J. Hauser, K. Hoepfner, M. Hohlmann, H. Hoorani, Y. G. Jeng, T. Kamon, P. E. Karchin, H. Kim, S. Krutelyov, A. Kumar, J. Lee, J. Lee, T. Lenzi, L. Litov, F. Loddo, T. Maerschalk, G. Magazzu, M. Maggi, Y. Maghrbi, A. Magnani, N. Majumdar, P. K. Mal, K. Mandal, A. Marchioro, A. Marinov, J. A. Merlin, N. Mohammed, A. K. Mohanty, A. Mohapatra, S. Muhammad, S. Mukhopadhyay, S. Nuzzo, E. Oliveri, L. M. Pant, P. Paolucci, I. Park, G. Passeggio, B. Pavlov, B. Philipps, M. Phipps, D. Piccolo, H. Postema, G. Pugliese, A. Puig Baranac, A. Radi, R. Radogna, G. Raffone, S. Ramkrishna, A. Ranieri, C. Riccardi, A. Rodrigues, L. Ropelewski, S. Roychoddhury, M. S. Ryu, G. Ryu, A. Safonov, A. Sakharov, S. Salva, G. Saviano, A. Sharma, S. K. Swain, J. P. Talvitie, C. Tamma, A. Tatarinov, N. Turini, T. Tuuva, J. Twigger, M. Tytgat, I. Vai, M. Van Stenis, R. Venditi, E. Verhagen, P. Verwilligen, P. Vitulo, U. Yang, Y. Yang, R. Yonamine, N. Zaganidis, F. Zenoni, A. Zhang

^*المؤلف المقابل لهذا العمل

Physics

نتاج البحث: المساهمة في مجلة › Conference article › مراجعة النظراء

ملخص

The Compact Muon Solenoid (CMS) experiment at the LHC is planning an upgrade of its muon detection system aiming to extend the muon detection capabilities in the forward region with the installation of new muon stations based on Gas Electron Multiplier (GEM) and Resistive Plate Chambers (RPC) technologies during the so-called Phase-2 upgrade scenario. With the imminent increase on luminosity to 5 × 10³⁴cm^-2s^-1 and center of mass collision energy of 14 TeV an unprecedented and hostile radiation environment will be created, the most affected detectors will be the ones located in the forward region where the intense flux of neutrons and photons could potentially degrade the detector performance. Using FLUKA simulation the expected radiation environment is estimated for the regions of interest, possible shielding scenarios are proposed and the effect on the detector performance is discussed.

اللغة الأصلية	English
رقم المقال	086
دورية	Proceedings of Science
مستوى الصوت	0
حالة النشر	Published - 2014
الحدث	3rd Technology and Instrumentation in Particle Physics Conference, TIPP 2014 - Amsterdam, Netherlands المدة: يونيو ٢ ٢٠١٤ → يونيو ٦ ٢٠١٤

ASJC Scopus subject areas

???subjectarea.asjc.1000???

الملفات والروابط الأخرى

قم بذكر هذا

Abbaneo, D., Abbas, M., Abbrescia, M., Abdelalim, A. A., Abi Akl, M., Ahmed, W., Ahmed, W., Altieri, P., Aly, R., Ashfaq, A., Aspell, P., Assran, Y., Awan, I., Bally, S., Ban, Y., Banerjee, S., Barria, P., Benussi, L., Bhopatkar, V., ... Zhang, A. (2014). Impact of the Radiation Background on the CMS muon high-eta upgrade for the LHC high luminosity scenario. Proceedings of Science, 0, المقال 086.

Abbaneo, D, Abbas, M, Abbrescia, M, Abdelalim, AA, Abi Akl, M, Ahmed, W, Ahmed, W, Altieri, P, Aly, R, Ashfaq, A, Aspell, P, Assran, Y, Awan, I, Bally, S, Ban, Y, Banerjee, S, Barria, P, Benussi, L, Bhopatkar, V, Bianco, S, Bos, J, Bouhali, O, Braibant, S, Buontempo, S, Cai, J, Calabria, C, Caputo, C, Cassese, F, Castaneda, A, Cauwenbergh, S, Cavallo, FR, Celik, A, Choi, M, Choi, K, Choi, S, Christiansen, J, Cimmino, A, Colafranceschi, S, Colaleo, A, Conde Garcia, A, Dabrowski, MM, De Lentdecker, G, De Oliveira, R, De Robertis, G, Dildick, S, Dorney, B, Elmetenawee, W, Fabrice, G, Ferry, S, Giacomelli, P, Gilmore, J, Guiducci, L, Gutierrez, A, Hadjiiska, RM, Hassan, A, Hauser, J, Hoepfner, K, Hohlmann, M, Hoorani, H, Jeng, YG, Kamon, T, Karchin, PE, Kim, H, Krutelyov, S, Kumar, A, Lee, J, Lee, J, Lenzi, T, Litov, L, Loddo, F, Maerschalk, T, Magazzu, G, Maggi, M, Maghrbi, Y, Magnani, A, Majumdar, N, Mal, PK, Mandal, K, Marchioro, A, Marinov, A, Merlin, JA, Mohammed, N, Mohanty, AK, Mohapatra, A, Muhammad, S, Mukhopadhyay, S, Nuzzo, S, Oliveri, E, Pant, LM, Paolucci, P, Park, I, Passeggio, G, Pavlov, B, Philipps, B, Phipps, M, Piccolo, D, Postema, H, Pugliese, G, Puig Baranac, A, Radi, A, Radogna, R, Raffone, G, Ramkrishna, S, Ranieri, A, Riccardi, C, Rodrigues, A, Ropelewski, L, Roychoddhury, S, Ryu, MS, Ryu, G, Safonov, A, Sakharov, A, Salva, S, Saviano, G, Sharma, A, Swain, SK, Talvitie, JP, Tamma, C, Tatarinov, A, Turini, N, Tuuva, T, Twigger, J, Tytgat, M, Vai, I, Van Stenis, M, Venditi, R, Verhagen, E, Verwilligen, P, Vitulo, P, Yang, U, Yang, Y, Yonamine, R, Zaganidis, N, Zenoni, F & Zhang, A 2014, 'Impact of the Radiation Background on the CMS muon high-eta upgrade for the LHC high luminosity scenario', Proceedings of Science, المجلد 0, 086.

@article{12007230382e4e098885ebcfbb0bfa20,

title = "Impact of the Radiation Background on the CMS muon high-eta upgrade for the LHC high luminosity scenario",

abstract = "The Compact Muon Solenoid (CMS) experiment at the LHC is planning an upgrade of its muon detection system aiming to extend the muon detection capabilities in the forward region with the installation of new muon stations based on Gas Electron Multiplier (GEM) and Resistive Plate Chambers (RPC) technologies during the so-called Phase-2 upgrade scenario. With the imminent increase on luminosity to 5 × 1034cm-2s-1 and center of mass collision energy of 14 TeV an unprecedented and hostile radiation environment will be created, the most affected detectors will be the ones located in the forward region where the intense flux of neutrons and photons could potentially degrade the detector performance. Using FLUKA simulation the expected radiation environment is estimated for the regions of interest, possible shielding scenarios are proposed and the effect on the detector performance is discussed.",

author = "D. Abbaneo and M. Abbas and M. Abbrescia and Abdelalim, {A. A.} and {Abi Akl}, M. and W. Ahmed and W. Ahmed and P. Altieri and R. Aly and A. Ashfaq and P. Aspell and Y. Assran and I. Awan and S. Bally and Y. Ban and S. Banerjee and P. Barria and L. Benussi and V. Bhopatkar and S. Bianco and J. Bos and O. Bouhali and S. Braibant and S. Buontempo and J. Cai and C. Calabria and C. Caputo and F. Cassese and A. Castaneda and S. Cauwenbergh and Cavallo, {F. R.} and A. Celik and M. Choi and K. Choi and S. Choi and J. Christiansen and A. Cimmino and S. Colafranceschi and A. Colaleo and {Conde Garcia}, A. and Dabrowski, {M. M.} and {De Lentdecker}, G. and {De Oliveira}, R. and {De Robertis}, G. and S. Dildick and B. Dorney and W. Elmetenawee and G. Fabrice and S. Ferry and P. Giacomelli and J. Gilmore and L. Guiducci and A. Gutierrez and Hadjiiska, {R. M.} and A. Hassan and J. Hauser and K. Hoepfner and M. Hohlmann and H. Hoorani and Jeng, {Y. G.} and T. Kamon and Karchin, {P. E.} and H. Kim and S. Krutelyov and A. Kumar and J. Lee and J. Lee and T. Lenzi and L. Litov and F. Loddo and T. Maerschalk and G. Magazzu and M. Maggi and Y. Maghrbi and A. Magnani and N. Majumdar and Mal, {P. K.} and K. Mandal and A. Marchioro and A. Marinov and Merlin, {J. A.} and N. Mohammed and Mohanty, {A. K.} and A. Mohapatra and S. Muhammad and S. Mukhopadhyay and S. Nuzzo and E. Oliveri and Pant, {L. M.} and P. Paolucci and I. Park and G. Passeggio and B. Pavlov and B. Philipps and M. Phipps and D. Piccolo and H. Postema and G. Pugliese and {Puig Baranac}, A. and A. Radi and R. Radogna and G. Raffone and S. Ramkrishna and A. Ranieri and C. Riccardi and A. Rodrigues and L. Ropelewski and S. Roychoddhury and Ryu, {M. S.} and G. Ryu and A. Safonov and A. Sakharov and S. Salva and G. Saviano and A. Sharma and Swain, {S. K.} and Talvitie, {J. P.} and C. Tamma and A. Tatarinov and N. Turini and T. Tuuva and J. Twigger and M. Tytgat and I. Vai and {Van Stenis}, M. and R. Venditi and E. Verhagen and P. Verwilligen and P. Vitulo and U. Yang and Y. Yang and R. Yonamine and N. Zaganidis and F. Zenoni and A. Zhang",

note = "Publisher Copyright: {\textcopyright} Copyright owned by the author(s) under the terms of the Creative Commons Attribution-NonCommercial-ShareAlike Licence.; 3rd Technology and Instrumentation in Particle Physics Conference, TIPP 2014 ; Conference date: 02-06-2014 Through 06-06-2014",

year = "2014",

language = "English",

volume = "0",

journal = "Proceedings of Science",

issn = "1824-8039",

publisher = "Sissa Medialab Srl",

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TY - JOUR

T1 - Impact of the Radiation Background on the CMS muon high-eta upgrade for the LHC high luminosity scenario

AU - Abbaneo, D.

AU - Abbas, M.

AU - Abbrescia, M.

AU - Abdelalim, A. A.

AU - Abi Akl, M.

AU - Ahmed, W.

AU - Altieri, P.

AU - Aly, R.

AU - Ashfaq, A.

AU - Aspell, P.

AU - Assran, Y.

AU - Awan, I.

AU - Bally, S.

AU - Ban, Y.

AU - Banerjee, S.

AU - Barria, P.

AU - Benussi, L.

AU - Bhopatkar, V.

AU - Bianco, S.

AU - Bos, J.

AU - Bouhali, O.

AU - Braibant, S.

AU - Buontempo, S.

AU - Cai, J.

AU - Calabria, C.

AU - Caputo, C.

AU - Cassese, F.

AU - Castaneda, A.

AU - Cauwenbergh, S.

AU - Cavallo, F. R.

AU - Celik, A.

AU - Choi, M.

AU - Choi, K.

AU - Choi, S.

AU - Christiansen, J.

AU - Cimmino, A.

AU - Colafranceschi, S.

AU - Colaleo, A.

AU - Conde Garcia, A.

AU - Dabrowski, M. M.

AU - De Lentdecker, G.

AU - De Oliveira, R.

AU - De Robertis, G.

AU - Dildick, S.

AU - Dorney, B.

AU - Elmetenawee, W.

AU - Fabrice, G.

AU - Ferry, S.

AU - Giacomelli, P.

AU - Gilmore, J.

AU - Guiducci, L.

AU - Gutierrez, A.

AU - Hadjiiska, R. M.

AU - Hassan, A.

AU - Hauser, J.

AU - Hoepfner, K.

AU - Hohlmann, M.

AU - Hoorani, H.

AU - Jeng, Y. G.

AU - Kamon, T.

AU - Karchin, P. E.

AU - Kim, H.

AU - Krutelyov, S.

AU - Kumar, A.

AU - Lee, J.

AU - Lenzi, T.

AU - Litov, L.

AU - Loddo, F.

AU - Maerschalk, T.

AU - Magazzu, G.

AU - Maggi, M.

AU - Maghrbi, Y.

AU - Magnani, A.

AU - Majumdar, N.

AU - Mal, P. K.

AU - Mandal, K.

AU - Marchioro, A.

AU - Marinov, A.

AU - Merlin, J. A.

AU - Mohammed, N.

AU - Mohanty, A. K.

AU - Mohapatra, A.

AU - Muhammad, S.

AU - Mukhopadhyay, S.

AU - Nuzzo, S.

AU - Oliveri, E.

AU - Pant, L. M.

AU - Paolucci, P.

AU - Park, I.

AU - Passeggio, G.

AU - Pavlov, B.

AU - Philipps, B.

AU - Phipps, M.

AU - Piccolo, D.

AU - Postema, H.

AU - Pugliese, G.

AU - Puig Baranac, A.

AU - Radi, A.

AU - Radogna, R.

AU - Raffone, G.

AU - Ramkrishna, S.

AU - Ranieri, A.

AU - Riccardi, C.

AU - Rodrigues, A.

AU - Ropelewski, L.

AU - Roychoddhury, S.

AU - Ryu, M. S.

AU - Ryu, G.

AU - Safonov, A.

AU - Sakharov, A.

AU - Salva, S.

AU - Saviano, G.

AU - Sharma, A.

AU - Swain, S. K.

AU - Talvitie, J. P.

AU - Tamma, C.

AU - Tatarinov, A.

AU - Turini, N.

AU - Tuuva, T.

AU - Twigger, J.

AU - Tytgat, M.

AU - Vai, I.

AU - Van Stenis, M.

AU - Venditi, R.

AU - Verhagen, E.

AU - Verwilligen, P.

AU - Vitulo, P.

AU - Yang, U.

AU - Yang, Y.

AU - Yonamine, R.

AU - Zaganidis, N.

AU - Zenoni, F.

AU - Zhang, A.

N1 - Publisher Copyright: © Copyright owned by the author(s) under the terms of the Creative Commons Attribution-NonCommercial-ShareAlike Licence.

PY - 2014

Y1 - 2014

N2 - The Compact Muon Solenoid (CMS) experiment at the LHC is planning an upgrade of its muon detection system aiming to extend the muon detection capabilities in the forward region with the installation of new muon stations based on Gas Electron Multiplier (GEM) and Resistive Plate Chambers (RPC) technologies during the so-called Phase-2 upgrade scenario. With the imminent increase on luminosity to 5 × 1034cm-2s-1 and center of mass collision energy of 14 TeV an unprecedented and hostile radiation environment will be created, the most affected detectors will be the ones located in the forward region where the intense flux of neutrons and photons could potentially degrade the detector performance. Using FLUKA simulation the expected radiation environment is estimated for the regions of interest, possible shielding scenarios are proposed and the effect on the detector performance is discussed.

AB - The Compact Muon Solenoid (CMS) experiment at the LHC is planning an upgrade of its muon detection system aiming to extend the muon detection capabilities in the forward region with the installation of new muon stations based on Gas Electron Multiplier (GEM) and Resistive Plate Chambers (RPC) technologies during the so-called Phase-2 upgrade scenario. With the imminent increase on luminosity to 5 × 1034cm-2s-1 and center of mass collision energy of 14 TeV an unprecedented and hostile radiation environment will be created, the most affected detectors will be the ones located in the forward region where the intense flux of neutrons and photons could potentially degrade the detector performance. Using FLUKA simulation the expected radiation environment is estimated for the regions of interest, possible shielding scenarios are proposed and the effect on the detector performance is discussed.

UR - http://www.scopus.com/inward/record.url?scp=85011591081&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85011591081&partnerID=8YFLogxK

M3 - Conference article

AN - SCOPUS:85011591081

SN - 1824-8039

VL - 0

JO - Proceedings of Science

JF - Proceedings of Science

M1 - 086

T2 - 3rd Technology and Instrumentation in Particle Physics Conference, TIPP 2014

Y2 - 2 June 2014 through 6 June 2014

ER -

Impact of the Radiation Background on the CMS muon high-eta upgrade for the LHC high luminosity scenario

ملخص

ASJC Scopus subject areas

الملفات والروابط الأخرى

بصمة

قم بذكر هذا