Study of the effects of radiation on the CMS Drift Tubes Muon Detector for the HL-LHC

G. Abbiendi; J. Alcaraz Maestre; A. Álvarez Fernández; B. Álvarez González; N. Amapane; I. Bachiller; J.M. Barcala; L. Barcellan; C. Battilana; M. Bellato; G. Bencze; M. Benettoni; N. Beni; A. Benvenuti; L.C. Blanco Ramos; A. Boletti; A. Bragagnolo; J.A. Brochero Cifuentes; V. Cafaro; A. Calderon; E. Calvo; A. Cappati; R. Carlin; C.A. Carrillo Montoya; F.R. Cavallo; J.M. Cela Ruiz; M. Cepeda; M. Cerrada; B. Chazin Quero; P. Checchia; L. Ciano; N. Colino; D. Corti; G. Cotto; J. Cuevas; M. Cuffiani; G.M. Dallavalle; D. Dattola; B. De La Cruz; P. De Remigis; C. Erice Cid; F. Fabbri; A. Fanfani; D. Fasanella; C.F. Bedoya; J.F. de Trocóniz; P. Fernandez Manteca; J. Fernández Menéndez; J.P. Fernández Ramos; S. Folgueras; M.C. Fouz; D. Francia Ferrero; J. García Romero; F. Gasparini; U. Gasparini; S. Ghosh; V. Giordano; F. Gomez Casademunt; F. Gonella; I. González Caballero; J.R. González Fernández; O. González López; S. Goy López; A. Gozzelino; A. Griggio; G. Grosso; C. Guandalini; L. Guiducci; M. Gulmini; T. Hebbeker; C. Heidemann; J.M. Hernández; K. Hoepfner; F. Iemmi; R. Isocrate; M.I. Josa; B. Kiani; S. Lacaprara; S. Lo Meo; S. Marcellini; M. Margoni; J. Marín; C. Mariotti; I. Martín Martín; J.J. Martínez Morales; C. Martínez Rivero; S. Maselli; G. Masetti; A.T. Meneguzzo; M. Merschmeyer; G. Mocellin; L. Modenese; A. Molinero; J. Molnar; F. Montecassiano; D. Moran; J.J. Navarrete; F. Navarria; Á. Navarro Tobar; J.C. Oller; M. Passaseo; J. Pazzini; M. Pegoraro; J. Puerta Pelayo; M. Pelliccioni; B. Philipps; J. Piedra Gomez; G.L. Pinna Angioni; N. Pozzobon; M. Presilla; C. Prieels; F. Primavera; J.C. Puras Sánchez; I. Redondo; D.D. Redondo Ferrero; H. Reithler; T. Rodrigo; V. Rodríguez Bouza; J. Roemer; P. Ronchese; R. Rossin; F. Rotondo; T. Rovelli; S. Sánchez Cruz; S. Sánchez Navas; J. Sastre; L. Scodellaro; F. Simonetto; M. S. Soares; A. Staiano; Z. Szillasi; D.F. Teyssier; N. Toniolo; E. Torassa; D. Trocino; B. Ujvari; S. Ventura; R. Vilar Cortabitarte; J. Vizan Garcia; M. Zanetti; F.P. Zantis; G. Zilizi; P. Zotto

doi:10.1088/1748-0221/14/12/C12010

Journal of Instrumentation

Study of the effects of radiation on the CMS Drift Tubes Muon Detector for the HL-LHC

G. Abbiendi¹, J. Alcaraz Maestre², A. Álvarez Fernández², B. Álvarez González³, N. Amapane^4,5, I. Bachiller², J.M. Barcala², L. Barcellan⁶, C. Battilana^1,7, M. Bellato⁶, G. Bencze⁸, M. Benettoni⁶, N. Beni⁹, A. Benvenuti¹, L.C. Blanco Ramos², A. Boletti⁶, A. Bragagnolo⁶, J.A. Brochero Cifuentes², V. Cafaro¹, A. Calderon¹⁰, E. Calvo², A. Cappati^4,5, R. Carlin⁶, C.A. Carrillo Montoya², F.R. Cavallo¹, J.M. Cela Ruiz², M. Cepeda², M. Cerrada², B. Chazin Quero¹⁰, P. Checchia⁶, L. Ciano⁶, N. Colino², D. Corti⁶, G. Cotto^4,5, J. Cuevas³, M. Cuffiani^1,7, G.M. Dallavalle¹, D. Dattola⁴, B. De La Cruz², P. De Remigis⁴, C. Erice Cid³, F. Fabbri¹, A. Fanfani^1,7, D. Fasanella^1,7, C.F. Bedoya², J.F. de Trocóniz¹¹, P. Fernandez Manteca¹⁰, J. Fernández Menéndez³, J.P. Fernández Ramos², S. Folgueras³, M.C. Fouz², D. Francia Ferrero², J. García Romero², F. Gasparini⁶, U. Gasparini⁶, S. Ghosh¹², V. Giordano¹, F. Gomez Casademunt¹⁰, F. Gonella⁶, I. González Caballero³, J.R. González Fernández³, O. González López², S. Goy López², A. Gozzelino⁶, A. Griggio⁶, G. Grosso⁶, C. Guandalini¹, L. Guiducci^1,7, M. Gulmini^5,13, T. Hebbeker¹², C. Heidemann¹², J.M. Hernández², K. Hoepfner¹², F. Iemmi^1,7, R. Isocrate⁶, M.I. Josa², B. Kiani^4,5, S. Lacaprara⁶, S. Lo Meo^1,15, S. Marcellini¹, M. Margoni⁶, J. Marín², C. Mariotti⁴, I. Martín Martín², J.J. Martínez Morales², C. Martínez Rivero¹⁰, S. Maselli⁴, G. Masetti¹, A.T. Meneguzzo⁶, M. Merschmeyer¹², G. Mocellin⁶, L. Modenese⁶, A. Molinero², J. Molnar⁹, F. Montecassiano⁶, D. Moran², J.J. Navarrete², F. Navarria^1,7, Á. Navarro Tobar², J.C. Oller², M. Passaseo⁶, J. Pazzini⁶, M. Pegoraro⁶, J. Puerta Pelayo², M. Pelliccioni⁴, B. Philipps¹², J. Piedra Gomez¹⁰, G.L. Pinna Angioni^4,5, N. Pozzobon⁶, M. Presilla⁶, C. Prieels¹⁰, F. Primavera^1,7, J.C. Puras Sánchez², I. Redondo², D.D. Redondo Ferrero², H. Reithler¹², T. Rodrigo¹⁰, V. Rodríguez Bouza³, J. Roemer¹², P. Ronchese⁶, R. Rossin⁶, F. Rotondo⁴, T. Rovelli¹, S. Sánchez Cruz³, S. Sánchez Navas², J. Sastre², L. Scodellaro¹⁰, F. Simonetto⁶, M. S. Soares², A. Staiano⁴, Z. Szillasi⁹, D.F. Teyssier⁹, N. Toniolo^5,13, E. Torassa⁶, D. Trocino⁴, B. Ujvari¹⁴, S. Ventura⁶, R. Vilar Cortabitarte¹⁰, J. Vizan Garcia¹⁰, M. Zanetti⁶, F.P. Zantis¹², G. Zilizi¹⁴ and P. Zotto⁶

Published 11 December 2019 • © 2019 IOP Publishing Ltd and Sissa Medialab
Journal of Instrumentation, Volume 14, December 2019 21st International Workshop On Radiation Imaging Detectors Citation G. Abbiendi et al 2019 JINST 14 C12010 DOI 10.1088/1748-0221/14/12/C12010

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¹ INFN Sezione di Bologna, Bologna, Italy

² Centro de Investigaciones Energéticas Medioambientales y Tecnológicas (CIEMAT), Madrid, Spain

³ Instituto Universitario de Ciencias y Tecnologías Espaciales de Asturias (ICTEA), Universidad de Oviedo, Oviedo, Spain

⁴ INFN Sezione di Torino, Torino, Italy

⁵ Università di Torino, Torino, Italy

⁶ INFN Sezione di Padova, Università di Padova, Padova, Italy

⁷ Università di Bologna, Bologna, Italy

⁸ Wigner Research Centre for Physics, Budapest, Hungary

⁹ Institute of Nuclear Research ATOMKI, Debrecen, Hungary

¹⁰ Instituto de Física de Cantabria (IFCA), CSIC-Universidad de Cantabria, Santander, Spain

¹¹ Universidad Autónoma de Madrid (UAM), Madrid, Spain

¹² RWTH Aachen University, III. Physikalisches Institut A, Aachen, Germany

¹³ Laboratori Nazionali di Legnaro dell'INFN, Legnaro, Italy

¹⁴ Institute of Physics, University of Debrecen, Debrecen, Hungary

¹⁵ Italian National Agency for New Technologies, Energy and sustainable economic development, Bologna, Italy

Dates

Received 8 October 2019
Accepted 5 November 2019
Published 11 December 2019

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Abstract

The CMS drift tubes (DT) muon detector, built for withstanding the LHC expected integrated and instantaneous luminosities, will be used also in the High Luminosity LHC (HL-LHC) at a 5 times larger instantaneous luminosity and, consequently, much higher levels of radiation, reaching about 10 times the LHC integrated luminosity. Initial irradiation tests of a spare DT chamber at the CERN gamma irradiation facility (GIF++), at large (∼ O(100)) acceleration factor, showed ageing effects resulting in a degradation of the DT cell performance. However, full CMS simulations have shown almost no impact in the muon reconstruction efficiency over the full barrel acceptance and for the full integrated luminosity. A second spare DT chamber was moved inside the GIF++ bunker in October 2017. The chamber was being irradiated at lower acceleration factors, and only 2 out of the 12 layers of the chamber were switched at working voltage when the radioactive source was active, being the other layers in standby. In this way the other non-aged layers are used as reference and as a precise and unbiased telescope of muon tracks for the efficiency computation of the aged layers of the chamber, when set at working voltage for measurements. An integrated dose equivalent to two times the expected integrated luminosity of the HL-LHC run has been absorbed by this second spare DT chamber and the final impact on the muon reconstruction efficiency is under study. Direct inspection of some extracted aged anode wires presented a melted resistive deposition of materials. Investigation on the outgassing of cell materials and of the gas components used at the GIF++ are underway. Strategies to mitigate the ageing effects are also being developed. From the long irradiation measurements of the second spare DT chamber, the effects of radiation in the performance of the DTs expected during the HL-LHC run will be presented.

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