Two years' test of a temperature sensing system based on fibre Bragg grating technology for the CMS GE1/1 detectors

M. Abbas; M. Abbrescia; H. Abdalla; S. Abu Zeid; A. Agapitos; A. Ahmad; A. Ahmed; A. Ahmed; W. Ahmed; S. Amarjeet; I. Asghar; P. Aspell; C. Avila; J. Babbar; Y. Ban; R. Band; S. Bansal; L. Benussi; V. Bhatnagar; M. Bianco; S. Bianco; K. Black; L. Borgonovi; O. Bouhali; A. Braghieri; S. Braibant; S. Butalla; S. Calzaferri; M. Caponero; F. Cassese; N. Cavallo; S. Chauhan; S. Colafranceschi; A. Colaleo; A. Conde Garcia; M. Dalchenko; A. De Iorio; G. De Lentdecker; D. Dell Olio; G. De Robertis; W. Dharmaratna; S. Dildick; B. Dorney; R. Erbacher; F. Fabozzi; F. Fallavollita; D. Fiorina; E. Fontanesi; M. Franco; C. Galloni; P. Giacomelli; J. Gilmore; M. Gola; M. Gruchala; A. Gutierrez; R. Hadjiiska; T. Hakkarainen; J. Hauser; K. Hoepfner; M. Hohlmann; H. Hoorani; T. Huang; P. Iaydjiev; A. Irshad; A. Iorio; J. Jaramillo; D. Jeong; V. Jha; A. Juodagalvis; E. Juska; T. Kamon; P. Karchin; A. Kaur; H. Kaur; H. Keller; H. Kim; J. Kim; A. Kumar; S. Kumar; H. Kumawat; N. Lacalamita; J. Lee; A. Levin; Q. Li; F. Licciulli; L. Lista; F. Loddo; M. Lohan; M. Luhach; M. Maggi; N. Majumdar; K. Malagalage; S. Malhorta; S. Martiradonna; N. McColl; C. McLean; J. Merlin; D. Mishra; G. Mocellin; L. Moureaux; A. Muhammad; S. Muhammad; S. Mukhopadhyay; M. Naimuddin; P. Netrakanti; S. Nuzzo; R. Oliveira; L. Pant; P. Paolucci; I. Park; L. Passamonti; G. Passeggio; A. Peck; L. Petre; H. Petrow; D. Piccolo; D. Pierluigi; G. Raffone; M. Rahmani; F. Ramirez; A. Ranieri; G. Rashevski; M. Ressegotti; C. Riccardi; M. Rodozov; C. Roskas; B. Rossi; P. Rout; J. D. Ruiz; A. Russo; A. Safonov; D. Saltzberg; G. Saviano; A. Shah; A. Sharma; R. Sharma; M. Shopova; F. Simone; J. Singh; E. Soldani; U. Sonnadara; E. Starling; B. Stone; J. Sturdy; G. Sultanov; Z. Szillasi; D. Teague; D. Teyssier; T. Tuuva; M. Tytgat; I. Vai; N. Vanegas; R. Venditti; P. Verwilligen; W. Vetens; A. Virdi; P. Vitulo; A. Wajid; D. Wang; K. Wang; N. Wickramage; Y. Yang; U. Yang; J. Yongho; I. Yoon; Z. You; I. Yu; S. Zaleski

doi:10.1088/1742-6596/1561/1/012006

Two years' test of a temperature sensing system based on fibre Bragg grating technology for the CMS GE1/1 detectors

M. Abbas
, M. Abbrescia
, H. Abdalla
, S. Abu Zeid
, A. Agapitos
, A. Ahmad
, A. Ahmed
, A. Ahmed
, W. Ahmed
, S. Amarjeet
, I. Asghar
, P. Aspell
, C. Avila
, J. Babbar
, Y. Ban
, R. Band
, S. Bansal
, L. Benussi
, V. Bhatnagar
, M. Bianco

S. Bianco, K. Black, L. Borgonovi, O. Bouhali, A. Braghieri, S. Braibant, S. Butalla, S. Calzaferri, M. Caponero^*, F. Cassese, N. Cavallo, S. Chauhan, S. Colafranceschi, A. Colaleo, A. Conde Garcia, M. Dalchenko, A. De Iorio, G. De Lentdecker, D. Dell Olio, G. De Robertis, W. Dharmaratna, S. Dildick, B. Dorney, R. Erbacher, F. Fabozzi, F. Fallavollita, D. Fiorina, E. Fontanesi, M. Franco, C. Galloni, P. Giacomelli, J. Gilmore, M. Gola, M. Gruchala, A. Gutierrez, R. Hadjiiska, T. Hakkarainen, J. Hauser, K. Hoepfner, M. Hohlmann, H. Hoorani, T. Huang, P. Iaydjiev, A. Irshad, A. Iorio, J. Jaramillo, D. Jeong, V. Jha, A. Juodagalvis, E. Juska, T. Kamon, P. Karchin, A. Kaur, H. Kaur, H. Keller, H. Kim, J. Kim, A. Kumar, S. Kumar, H. Kumawat, N. Lacalamita, J. Lee, A. Levin, Q. Li, F. Licciulli, L. Lista, F. Loddo, M. Lohan, M. Luhach, M. Maggi, N. Majumdar, K. Malagalage, S. Malhorta, S. Martiradonna, N. McColl, C. McLean, J. Merlin, D. Mishra, G. Mocellin, L. Moureaux, A. Muhammad, S. Muhammad, S. Mukhopadhyay, M. Naimuddin, P. Netrakanti, S. Nuzzo, R. Oliveira, L. Pant, P. Paolucci, I. Park, L. Passamonti, G. Passeggio, A. Peck, L. Petre, H. Petrow, D. Piccolo, D. Pierluigi, G. Raffone, M. Rahmani, F. Ramirez, A. Ranieri, G. Rashevski, M. Ressegotti, C. Riccardi, M. Rodozov, C. Roskas, B. Rossi, P. Rout, J. D. Ruiz, A. Russo, A. Safonov, D. Saltzberg, G. Saviano, A. Shah, A. Sharma, R. Sharma, M. Shopova, F. Simone, J. Singh, E. Soldani, U. Sonnadara, E. Starling, B. Stone, J. Sturdy, G. Sultanov, Z. Szillasi, D. Teague, D. Teyssier, T. Tuuva, M. Tytgat, I. Vai, N. Vanegas, R. Venditti, P. Verwilligen, W. Vetens, A. Virdi, P. Vitulo, A. Wajid, D. Wang, K. Wang, N. Wickramage, Y. Yang, U. Yang, J. Yongho, I. Yoon, Z. You, I. Yu, S. Zaleski

^*Corresponding author for this work

Karlsruhe Institute of Technology
Academy of Scientific Research and Technology
Peking University
National Center for Physics
University of Delhi
Panjab University
CERN
Universidad de los Andes Colombia
University of California at Davis
National Institute for Nuclear Physics
University of Wisconsin-Madison
University of Bologna
Texas A&M University at Qatar
University of Pavia
Florida Institute of Technology
University of Bari
Texas A&M University
Université libre de Bruxelles
University of Ruhuna
Wayne State University
Bulgarian Academy of Sciences
Lappeenranta-Lahti University of Technology
University of California at Los Angeles
RWTH Aachen University
Universidad de Antioquia
University of Seoul
Bhabha Atomic Research Centre
Vilnius University
Seoul National University
Saha Institute of Nuclear Physics
University of Colombo
Sofia University St. Kliment Ohridski
Ghent University
Institute for Nuclear Research
Korea University
Sun Yat-Sen University

Research output: Contribution to journal › Conference article › peer-review

2 Citations (Scopus)

Abstract

A temperature monitoring system based on fibre Bragg grating (FBG) fibre optic sensors has been developed for the gas electron multiplier (GEM) chambers of the Compact Muon Solenoid (CMS) detector. The monitoring system was tested in prototype chambers undergoing a general test of the various technological solutions adopted for their construction. The test lasted about two years and was conducted with the chambers being installed in the CMS detector and operated during regular experimental running. In this paper, we present test results that address the choice of materials and procedures for the production and installation of the FBG temperature monitoring system in the final GEM chambers.

Original language	English
Article number	012006
Journal	Journal of Physics: Conference Series
Volume	1561
Issue number	1
DOIs	https://doi.org/10.1088/1742-6596/1561/1/012006
Publication status	Published - 18 Jun 2020
Externally published	Yes
Event	2019 International Workshop on Detection Systems and Techniques in Nuclear and Particle Physics, DeSyT 2019 - Messina, Italy Duration: 11 Sept 2019 → 13 Sept 2019

Access to Document

10.1088/1742-6596/1561/1/012006

Cite this

Abbas, M., Abbrescia, M., Abdalla, H., Abu Zeid, S., Agapitos, A., Ahmad, A., Ahmed, A., Ahmed, A., Ahmed, W., Amarjeet, S., Asghar, I., Aspell, P., Avila, C., Babbar, J., Ban, Y., Band, R., Bansal, S., Benussi, L., Bhatnagar, V., ... Zaleski, S. (2020). Two years' test of a temperature sensing system based on fibre Bragg grating technology for the CMS GE1/1 detectors. Journal of Physics: Conference Series, 1561(1), Article 012006. https://doi.org/10.1088/1742-6596/1561/1/012006

@article{fd64c5069cc743f5b447495a0ddfe601,

title = "Two years' test of a temperature sensing system based on fibre Bragg grating technology for the CMS GE1/1 detectors",

abstract = "A temperature monitoring system based on fibre Bragg grating (FBG) fibre optic sensors has been developed for the gas electron multiplier (GEM) chambers of the Compact Muon Solenoid (CMS) detector. The monitoring system was tested in prototype chambers undergoing a general test of the various technological solutions adopted for their construction. The test lasted about two years and was conducted with the chambers being installed in the CMS detector and operated during regular experimental running. In this paper, we present test results that address the choice of materials and procedures for the production and installation of the FBG temperature monitoring system in the final GEM chambers.",

author = "M. Abbas and M. Abbrescia and H. Abdalla and \{Abu Zeid\}, S. and A. Agapitos and A. Ahmad and A. Ahmed and A. Ahmed and W. Ahmed and S. Amarjeet and I. Asghar and P. Aspell and C. Avila and J. Babbar and Y. Ban and R. Band and S. Bansal and L. Benussi and V. Bhatnagar and M. Bianco and S. Bianco and K. Black and L. Borgonovi and O. Bouhali and A. Braghieri and S. Braibant and S. Butalla and S. Calzaferri and M. Caponero and F. Cassese and N. Cavallo and S. Chauhan and S. Colafranceschi and A. Colaleo and \{Conde Garcia\}, A. and M. Dalchenko and \{De Iorio\}, A. and \{De Lentdecker\}, G. and \{Dell Olio\}, D. and \{De Robertis\}, G. and W. Dharmaratna and S. Dildick and B. Dorney and R. Erbacher and F. Fabozzi and F. Fallavollita and D. Fiorina and E. Fontanesi and M. Franco and C. Galloni and P. Giacomelli and J. Gilmore and M. Gola and M. Gruchala and A. Gutierrez and R. Hadjiiska and T. Hakkarainen and J. Hauser and K. Hoepfner and M. Hohlmann and H. Hoorani and T. Huang and P. Iaydjiev and A. Irshad and A. Iorio and J. Jaramillo and D. Jeong and V. Jha and A. Juodagalvis and E. Juska and T. Kamon and P. Karchin and A. Kaur and H. Kaur and H. Keller and H. Kim and J. Kim and A. Kumar and S. Kumar and H. Kumawat and N. Lacalamita and J. Lee and A. Levin and Q. Li and F. Licciulli and L. Lista and F. Loddo and M. Lohan and M. Luhach and M. Maggi and N. Majumdar and K. Malagalage and S. Malhorta and S. Martiradonna and N. McColl and C. McLean and J. Merlin and D. Mishra and G. Mocellin and L. Moureaux and A. Muhammad and S. Muhammad and S. Mukhopadhyay and M. Naimuddin and P. Netrakanti and S. Nuzzo and R. Oliveira and L. Pant and P. Paolucci and I. Park and L. Passamonti and G. Passeggio and A. Peck and L. Petre and H. Petrow and D. Piccolo and D. Pierluigi and G. Raffone and M. Rahmani and F. Ramirez and A. Ranieri and G. Rashevski and M. Ressegotti and C. Riccardi and M. Rodozov and C. Roskas and B. Rossi and P. Rout and Ruiz, \{J. D.\} and A. Russo and A. Safonov and D. Saltzberg and G. Saviano and A. Shah and A. Sharma and R. Sharma and M. Shopova and F. Simone and J. Singh and E. Soldani and U. Sonnadara and E. Starling and B. Stone and J. Sturdy and G. Sultanov and Z. Szillasi and D. Teague and D. Teyssier and T. Tuuva and M. Tytgat and I. Vai and N. Vanegas and R. Venditti and P. Verwilligen and W. Vetens and A. Virdi and P. Vitulo and A. Wajid and D. Wang and K. Wang and N. Wickramage and Y. Yang and U. Yang and J. Yongho and I. Yoon and Z. You and I. Yu and S. Zaleski",

note = "Publisher Copyright: {\textcopyright} Published under licence by IOP Publishing Ltd.; 2019 International Workshop on Detection Systems and Techniques in Nuclear and Particle Physics, DeSyT 2019 ; Conference date: 11-09-2019 Through 13-09-2019",

year = "2020",

month = jun,

day = "18",

doi = "10.1088/1742-6596/1561/1/012006",

language = "English",

volume = "1561",

journal = "Journal of Physics: Conference Series",

issn = "1742-6588",

publisher = "IOP Publishing Ltd.",

number = "1",

}

Abbas, M, Abbrescia, M, Abdalla, H, Abu Zeid, S, Agapitos, A, Ahmad, A, Ahmed, A, Ahmed, A, Ahmed, W, Amarjeet, S, Asghar, I, Aspell, P, Avila, C, Babbar, J, Ban, Y, Band, R, Bansal, S, Benussi, L, Bhatnagar, V, Bianco, M, Bianco, S, Black, K, Borgonovi, L, Bouhali, O, Braghieri, A, Braibant, S, Butalla, S, Calzaferri, S, Caponero, M, Cassese, F, Cavallo, N, Chauhan, S, Colafranceschi, S, Colaleo, A, Conde Garcia, A, Dalchenko, M, De Iorio, A, De Lentdecker, G, Dell Olio, D, De Robertis, G, Dharmaratna, W, Dildick, S, Dorney, B, Erbacher, R, Fabozzi, F, Fallavollita, F, Fiorina, D, Fontanesi, E, Franco, M, Galloni, C, Giacomelli, P, Gilmore, J, Gola, M, Gruchala, M, Gutierrez, A, Hadjiiska, R, Hakkarainen, T, Hauser, J, Hoepfner, K, Hohlmann, M, Hoorani, H, Huang, T, Iaydjiev, P, Irshad, A, Iorio, A, Jaramillo, J, Jeong, D, Jha, V, Juodagalvis, A, Juska, E, Kamon, T, Karchin, P, Kaur, A, Kaur, H, Keller, H, Kim, H, Kim, J, Kumar, A, Kumar, S, Kumawat, H, Lacalamita, N, Lee, J, Levin, A, Li, Q, Licciulli, F, Lista, L, Loddo, F, Lohan, M, Luhach, M, Maggi, M, Majumdar, N, Malagalage, K, Malhorta, S, Martiradonna, S, McColl, N, McLean, C, Merlin, J, Mishra, D, Mocellin, G, Moureaux, L, Muhammad, A, Muhammad, S, Mukhopadhyay, S, Naimuddin, M, Netrakanti, P, Nuzzo, S, Oliveira, R, Pant, L, Paolucci, P, Park, I, Passamonti, L, Passeggio, G, Peck, A, Petre, L, Petrow, H, Piccolo, D, Pierluigi, D, Raffone, G, Rahmani, M, Ramirez, F, Ranieri, A, Rashevski, G, Ressegotti, M, Riccardi, C, Rodozov, M, Roskas, C, Rossi, B, Rout, P, Ruiz, JD, Russo, A, Safonov, A, Saltzberg, D, Saviano, G, Shah, A, Sharma, A, Sharma, R, Shopova, M, Simone, F, Singh, J, Soldani, E, Sonnadara, U, Starling, E, Stone, B, Sturdy, J, Sultanov, G, Szillasi, Z, Teague, D, Teyssier, D, Tuuva, T, Tytgat, M, Vai, I, Vanegas, N, Venditti, R, Verwilligen, P, Vetens, W, Virdi, A, Vitulo, P, Wajid, A, Wang, D, Wang, K, Wickramage, N, Yang, Y, Yang, U, Yongho, J, Yoon, I, You, Z, Yu, I & Zaleski, S 2020, 'Two years' test of a temperature sensing system based on fibre Bragg grating technology for the CMS GE1/1 detectors', Journal of Physics: Conference Series, vol. 1561, no. 1, 012006. https://doi.org/10.1088/1742-6596/1561/1/012006

TY - JOUR

T1 - Two years' test of a temperature sensing system based on fibre Bragg grating technology for the CMS GE1/1 detectors

AU - Abbas, M.

AU - Abbrescia, M.

AU - Abdalla, H.

AU - Abu Zeid, S.

AU - Agapitos, A.

AU - Ahmad, A.

AU - Ahmed, A.

AU - Ahmed, W.

AU - Amarjeet, S.

AU - Asghar, I.

AU - Aspell, P.

AU - Avila, C.

AU - Babbar, J.

AU - Ban, Y.

AU - Band, R.

AU - Bansal, S.

AU - Benussi, L.

AU - Bhatnagar, V.

AU - Bianco, M.

AU - Bianco, S.

AU - Black, K.

AU - Borgonovi, L.

AU - Bouhali, O.

AU - Braghieri, A.

AU - Braibant, S.

AU - Butalla, S.

AU - Calzaferri, S.

AU - Caponero, M.

AU - Cassese, F.

AU - Cavallo, N.

AU - Chauhan, S.

AU - Colafranceschi, S.

AU - Colaleo, A.

AU - Conde Garcia, A.

AU - Dalchenko, M.

AU - De Iorio, A.

AU - De Lentdecker, G.

AU - Dell Olio, D.

AU - De Robertis, G.

AU - Dharmaratna, W.

AU - Dildick, S.

AU - Dorney, B.

AU - Erbacher, R.

AU - Fabozzi, F.

AU - Fallavollita, F.

AU - Fiorina, D.

AU - Fontanesi, E.

AU - Franco, M.

AU - Galloni, C.

AU - Giacomelli, P.

AU - Gilmore, J.

AU - Gola, M.

AU - Gruchala, M.

AU - Gutierrez, A.

AU - Hadjiiska, R.

AU - Hakkarainen, T.

AU - Hauser, J.

AU - Hoepfner, K.

AU - Hohlmann, M.

AU - Hoorani, H.

AU - Huang, T.

AU - Iaydjiev, P.

AU - Irshad, A.

AU - Iorio, A.

AU - Jaramillo, J.

AU - Jeong, D.

AU - Jha, V.

AU - Juodagalvis, A.

AU - Juska, E.

AU - Kamon, T.

AU - Karchin, P.

AU - Kaur, A.

AU - Kaur, H.

AU - Keller, H.

AU - Kim, H.

AU - Kim, J.

AU - Kumar, A.

AU - Kumar, S.

AU - Kumawat, H.

AU - Lacalamita, N.

AU - Lee, J.

AU - Levin, A.

AU - Li, Q.

AU - Licciulli, F.

AU - Lista, L.

AU - Loddo, F.

AU - Lohan, M.

AU - Luhach, M.

AU - Maggi, M.

AU - Majumdar, N.

AU - Malagalage, K.

AU - Malhorta, S.

AU - Martiradonna, S.

AU - McColl, N.

AU - McLean, C.

AU - Merlin, J.

AU - Mishra, D.

AU - Mocellin, G.

AU - Moureaux, L.

AU - Muhammad, A.

AU - Muhammad, S.

AU - Mukhopadhyay, S.

AU - Naimuddin, M.

AU - Netrakanti, P.

AU - Nuzzo, S.

AU - Oliveira, R.

AU - Pant, L.

AU - Paolucci, P.

AU - Park, I.

AU - Passamonti, L.

AU - Passeggio, G.

AU - Peck, A.

AU - Petre, L.

AU - Petrow, H.

AU - Piccolo, D.

AU - Pierluigi, D.

AU - Raffone, G.

AU - Rahmani, M.

AU - Ramirez, F.

AU - Ranieri, A.

AU - Rashevski, G.

AU - Ressegotti, M.

AU - Riccardi, C.

AU - Rodozov, M.

AU - Roskas, C.

AU - Rossi, B.

AU - Rout, P.

AU - Ruiz, J. D.

AU - Russo, A.

AU - Safonov, A.

AU - Saltzberg, D.

AU - Saviano, G.

AU - Shah, A.

AU - Sharma, A.

AU - Sharma, R.

AU - Shopova, M.

AU - Simone, F.

AU - Singh, J.

AU - Soldani, E.

AU - Sonnadara, U.

AU - Starling, E.

AU - Stone, B.

AU - Sturdy, J.

AU - Sultanov, G.

AU - Szillasi, Z.

AU - Teague, D.

AU - Teyssier, D.

AU - Tuuva, T.

AU - Tytgat, M.

AU - Vai, I.

AU - Vanegas, N.

AU - Venditti, R.

AU - Verwilligen, P.

AU - Vetens, W.

AU - Virdi, A.

AU - Vitulo, P.

AU - Wajid, A.

AU - Wang, D.

AU - Wang, K.

AU - Wickramage, N.

AU - Yang, Y.

AU - Yang, U.

AU - Yongho, J.

AU - Yoon, I.

AU - You, Z.

AU - Yu, I.

AU - Zaleski, S.

PY - 2020/6/18

Y1 - 2020/6/18

N2 - A temperature monitoring system based on fibre Bragg grating (FBG) fibre optic sensors has been developed for the gas electron multiplier (GEM) chambers of the Compact Muon Solenoid (CMS) detector. The monitoring system was tested in prototype chambers undergoing a general test of the various technological solutions adopted for their construction. The test lasted about two years and was conducted with the chambers being installed in the CMS detector and operated during regular experimental running. In this paper, we present test results that address the choice of materials and procedures for the production and installation of the FBG temperature monitoring system in the final GEM chambers.

AB - A temperature monitoring system based on fibre Bragg grating (FBG) fibre optic sensors has been developed for the gas electron multiplier (GEM) chambers of the Compact Muon Solenoid (CMS) detector. The monitoring system was tested in prototype chambers undergoing a general test of the various technological solutions adopted for their construction. The test lasted about two years and was conducted with the chambers being installed in the CMS detector and operated during regular experimental running. In this paper, we present test results that address the choice of materials and procedures for the production and installation of the FBG temperature monitoring system in the final GEM chambers.

UR - https://www.scopus.com/pages/publications/85089560880

U2 - 10.1088/1742-6596/1561/1/012006

DO - 10.1088/1742-6596/1561/1/012006

M3 - Conference article

AN - SCOPUS:85089560880

SN - 1742-6588

VL - 1561

JO - Journal of Physics: Conference Series

JF - Journal of Physics: Conference Series

IS - 1

M1 - 012006

T2 - 2019 International Workshop on Detection Systems and Techniques in Nuclear and Particle Physics, DeSyT 2019

Y2 - 11 September 2019 through 13 September 2019

ER -

Two years' test of a temperature sensing system based on fibre Bragg grating technology for the CMS GE1/1 detectors

Abstract

Access to Document

Other files and links

Fingerprint

Cite this