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Interstrip capacitances of the readout board used in large triple-GEM detectors for the CMS Muon Upgrade

Author
Abstract
We present analytical calculations, Finite Element Analysis modelling, and physical measurements of the interstrip capacitances for different potential strip geometries and dimensions of the readout boards for the GE2/1 triple-Gas Electron Multiplier detector in the CMS muon system upgrade. The main goal of the study is to find configurations that minimize the interstrip capacitances and consequently maximize the signal-to-noise ratio for the detector. We find agreement at the 1.5-4.8% level between the two methods of calculations and on the average at the 177c level between calculations and measurements. A configuration with halved strip lengths and doubled strip widths results in a measured 27-29% reduction over the original configuration while leaving the total number of strips unchanged. We have now adopted this design modification for all eight module types of the GE2/1 detector and will produce the final detector with this new strip design.
Keywords
Detector modelling and simulations II (electric fields, charge, transport, multiplication and induction, pulse formation, electron, emission, etc), Micropattern gaseous detectors (MSGC, GEM, THGEM,, RETHGEM, MHSP, MICROPIC, MICROMEGAS, InGrid, etc)

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MLA
Abbas, M., et al. “Interstrip Capacitances of the Readout Board Used in Large Triple-GEM Detectors for the CMS Muon Upgrade.” JOURNAL OF INSTRUMENTATION, vol. 15, no. 12, Iop Publishing Ltd, 2020, doi:10.1088/1748-0221/15/12/P12019.
APA
Abbas, M., Abbrescia, M., Abdalla, H., Abdelalim, A., AbuZeid, S., Agapitos, A., … Zaleski, S. (2020). Interstrip capacitances of the readout board used in large triple-GEM detectors for the CMS Muon Upgrade. JOURNAL OF INSTRUMENTATION, 15(12). https://doi.org/10.1088/1748-0221/15/12/P12019
Chicago author-date
Abbas, M., M. Abbrescia, H. Abdalla, A. Abdelalim, S. AbuZeid, A. Agapitos, A. Ahmad, et al. 2020. “Interstrip Capacitances of the Readout Board Used in Large Triple-GEM Detectors for the CMS Muon Upgrade.” JOURNAL OF INSTRUMENTATION 15 (12). https://doi.org/10.1088/1748-0221/15/12/P12019.
Chicago author-date (all authors)
Abbas, M., M. Abbrescia, H. Abdalla, A. Abdelalim, S. AbuZeid, A. Agapitos, A. Ahmad, A. Ahmed, W. Ahmed, C. Aime, C. Aruta, 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, A. Colaleo, J. Collins, A. Conde Garcia, M. Dalchenko, A. De Iorio, G. De Lentdecker, D. Dell Olio, G. De Robertis, W. Dharmaratna, Sven Dildick, B. Dorney, R. Erbacher, F. Fabozzi, F. Fallavollita, A. Ferraro, D. Fiorina, E. Fontanesi, M. Franco, C. Galloni, P. Giacomelli, S. Gigli, 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, F. Ivone, J. Jaramillo, D. Jeong, V Jha, A. Juodagalvis, E. Juska, B. Kailasapathy, T. Kamon, P. Karchin, A. Kaur, H. Kaur, H. Keller, H. Kim, J. Kim, A. Kumar, S. Kumar, H. Kumawat, N. Lacalamita, J. S. H. Lee, A. Levin, Q. Li, F. Licciulli, L. Lista, K. Liyanage, F. Loddo, M. Lohan, M. Luhach, M. Maggi, Y. Maghrbi, N. Majumdar, K. Malagalage, S. Malhotra, S. Martiradonna, N. Mccoll, C. McLean, J. Merlin, M. Misheva, 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. C. Park, L. Passamonti, G. Passeggio, A. Peck, N. Perera, L. Petre, H. Petrow, D. Piccolo, D. Pierluigi, G. Raffone, M. Rahmani, F. Ramirez, A. Ranieri, G. Rashevski, M. Ressegotti, C. Riccardi, M. Rodozov, E. Romano, Christos Roskas, B. Rossi, P. Rout, D. Roy, 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, Michael Tytgat, I Vai, N. Vanegas, R. Venditti, Piet Verwilligen, W. Vetens, A. Virdi, P. Vitulo, A. Wajid, D. Wang, K. Wang, Ij Watson, J. Weatherwax, N. Wickramage, D. D. C. Wickramarathna, Y. Yang, U. Yang, J. Yongho, I Yoon, Z. You, I Yu, and S. Zaleski. 2020. “Interstrip Capacitances of the Readout Board Used in Large Triple-GEM Detectors for the CMS Muon Upgrade.” JOURNAL OF INSTRUMENTATION 15 (12). doi:10.1088/1748-0221/15/12/P12019.
Vancouver
1.
Abbas M, Abbrescia M, Abdalla H, Abdelalim A, AbuZeid S, Agapitos A, et al. Interstrip capacitances of the readout board used in large triple-GEM detectors for the CMS Muon Upgrade. JOURNAL OF INSTRUMENTATION. 2020;15(12).
IEEE
[1]
M. Abbas et al., “Interstrip capacitances of the readout board used in large triple-GEM detectors for the CMS Muon Upgrade,” JOURNAL OF INSTRUMENTATION, vol. 15, no. 12, 2020.
@article{8702588,
  abstract     = {{We present analytical calculations, Finite Element Analysis modelling, and physical measurements of the interstrip capacitances for different potential strip geometries and dimensions of the readout boards for the GE2/1 triple-Gas Electron Multiplier detector in the CMS muon system upgrade. The main goal of the study is to find configurations that minimize the interstrip capacitances and consequently maximize the signal-to-noise ratio for the detector. We find agreement at the 1.5-4.8% level between the two methods of calculations and on the average at the 177c level between calculations and measurements. A configuration with halved strip lengths and doubled strip widths results in a measured 27-29% reduction over the original configuration while leaving the total number of strips unchanged. We have now adopted this design modification for all eight module types of the GE2/1 detector and will produce the final detector with this new strip design.}},
  articleno    = {{P12019}},
  author       = {{Abbas, M. and Abbrescia, M. and Abdalla, H. and Abdelalim, A. and AbuZeid, S. and Agapitos, A. and Ahmad, A. and Ahmed, A. and Ahmed, W. and Aime, C. and Aruta, C. and Asghar, I and Aspell, P. and Avila, C. and Babbar, J. and Ban, Y. and Band, R. and Bansal, S. and Benussi, L. and Bhatnagar, V and Bianco, M. and Bianco, S. and Black, K. and Borgonovi, L. and Bouhali, O. and Braghieri, A. and Braibant, S. and Butalla, S. and Calzaferri, S. and Caponero, M. and Cassese, F. and Cavallo, N. and Chauhan, S. and Colaleo, A. and Collins, J. and Garcia, A. Conde and Dalchenko, M. and De Iorio, A. and De Lentdecker, G. and Dell Olio, D. and De Robertis, G. and Dharmaratna, W. and Dildick, Sven and Dorney, B. and Erbacher, R. and Fabozzi, F. and Fallavollita, F. and Ferraro, A. and Fiorina, D. and Fontanesi, E. and Franco, M. and Galloni, C. and Giacomelli, P. and Gigli, S. and Gilmore, J. and Gola, M. and Gruchala, M. and Gutierrez, A. and Hadjiiska, R. and Hakkarainen, T. and Hauser, J. and Hoepfner, K. and Hohlmann, M. and Hoorani, H. and Huang, T. and Iaydjiev, P. and Irshad, A. and Iorio, A. and Ivone, F. and Jaramillo, J. and Jeong, D. and Jha, V and Juodagalvis, A. and Juska, E. and Kailasapathy, B. and Kamon, T. and Karchin, P. and Kaur, A. and Kaur, H. and Keller, H. and Kim, H. and Kim, J. and Kumar, A. and Kumar, S. and Kumawat, H. and Lacalamita, N. and Lee, J. S. H. and Levin, A. and Li, Q. and Licciulli, F. and Lista, L. and Liyanage, K. and Loddo, F. and Lohan, M. and Luhach, M. and Maggi, M. and Maghrbi, Y. and Majumdar, N. and Malagalage, K. and Malhotra, S. and Martiradonna, S. and Mccoll, N. and McLean, C. and Merlin, J. and Misheva, M. and Mishra, D. and Mocellin, G. and Moureaux, L. and Muhammad, A. and Muhammad, S. and Mukhopadhyay, S. and Naimuddin, M. and Netrakanti, P. and Nuzzo, S. and Oliveira, R. and Pant, L. and Paolucci, P. and Park, I. C. and Passamonti, L. and Passeggio, G. and Peck, A. and Perera, N. and Petre, L. and Petrow, H. and Piccolo, D. and Pierluigi, D. and Raffone, G. and Rahmani, M. and Ramirez, F. and Ranieri, A. and Rashevski, G. and Ressegotti, M. and Riccardi, C. and Rodozov, M. and Romano, E. and Roskas, Christos and Rossi, B. and Rout, P. and Roy, D. and Ruiz, J. D. and Russo, A. and Safonov, A. and Saltzberg, D. and Saviano, G. and Shah, A. and Sharma, A. and Sharma, R. and Shopova, M. and Simone, F. and Singh, J. and Soldani, E. and Sonnadara, U. and Starling, E. and Stone, B. and Sturdy, J. and Sultanov, G. and Szillasi, Z. and Teague, D. and Teyssier, D. and Tuuva, T. and Tytgat, Michael and Vai, I and Vanegas, N. and Venditti, R. and Verwilligen, Piet and Vetens, W. and Virdi, A. and Vitulo, P. and Wajid, A. and Wang, D. and Wang, K. and Watson, Ij and Weatherwax, J. and Wickramage, N. and Wickramarathna, D. D. C. and Yang, Y. and Yang, U. and Yongho, J. and Yoon, I and You, Z. and Yu, I and Zaleski, S.}},
  issn         = {{1748-0221}},
  journal      = {{JOURNAL OF INSTRUMENTATION}},
  keywords     = {{Detector modelling and simulations II (electric fields, charge,transport, multiplication and induction, pulse formation, electron,emission, etc),Micropattern gaseous detectors (MSGC, GEM, THGEM,,RETHGEM, MHSP, MICROPIC, MICROMEGAS, InGrid, etc)}},
  language     = {{eng}},
  number       = {{12}},
  pages        = {{21}},
  publisher    = {{Iop Publishing Ltd}},
  title        = {{Interstrip capacitances of the readout board used in large triple-GEM detectors for the CMS Muon Upgrade}},
  url          = {{http://dx.doi.org/10.1088/1748-0221/15/12/P12019}},
  volume       = {{15}},
  year         = {{2020}},
}

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