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

G. Abbiendi (1); J. Alcaraz Maestre (2); A. \'Alvarez Fern\'andez (2),; B. \'Alvarez Gonz\'alez (3); N. Amapane (4; 5); I. Bachiller (2); J. M.; Barcala (2); L. Barcellan (6); C. Battilana (1; 7); M. Bellato (6); G.; Bencze (8); M. Benettoni (6); N. Beni (9); A. Benvenuti (1); L. C. Blanco; Ramos (2); A. Boletti (6); A. Bragagnolo (6); J. A. Brochero Cifuentes (2),; V. Cafaro (1); A. Calderon (10); E. Calvo (2); A. Cappati (4; 5); R.; Carlin (6); C. A. Carrillo Montoya (2); F. R. Cavallo (1); J. M. Cela Ruiz; (2); M. Cepeda (2); M. Cerrada (2); B. Chazin Quero (10); P. Checchia (6); L.; Ciano (6); N. Colino (2); D. Corti (6); G. Cotto (4; 5); J. Cuevas (3); M.; Cuffiani (1; 7); G. M. Dallavalle (1); D. Dattola (4); B. De La Cruz (2),; P. DeRemigis (4); C. Erice Cid (3); F. Fabbri (1); A. Fanfani (1; 7); D.; Fasanella (1; 7; 16); C.F.Bedoya (2); J. F. de Troc\'oniz (11); P.; Fernandez Manteca (10); J. Fern\'andez Men\'endez (3); J. P. Fern\'andez; Ramos (2); S. Folgueras (3); M. C. Fouz (2); D. Francia Ferrero (2); J.; Garc\'ia Romero (2); F. Gasparini (6); U. Gasparini (6); S. Ghosh (12); V.; Giordano (1); F. Gomez Casademunt (10); F. Gonella (6); I. Gonz\'alez; Caballero (3); J. R. Gonz\'alez Fern\'andez (3); O. Gonz\'alez L\'opez (2),; S. Goy L\'opez (2); A. Gozzelino (6); A. Griggio (6); G. Grosso (6); C.; Guandalini (1); L. Guiducci (1; 7); M. Gulmini (5; 13); T. Hebbeker; (12); C. Heidemann (12); J. M. Hern\'andez (2); K. Hoepfner (12); F. Iemmi (1; and 7); R. Isocrate (6); M. I. Josa (2); B. Kiani (4; 5); S. Lacaprara; (6); S. Lo Meo (1; 15); S. Marcellini (1); M. Margoni (6); J. Mar\'in (2),; C. Mariotti (4); I. Mart\'in Mart\'in (2); J. J. Mart\'inez Morales (2); C.; Mart\'inez Rivero (10); S. Maselli (4); G. Masetti (1); A. T. Meneguzzo (6),; M. Merschmeyer (12); G. Mocellin (f; q); L. Modenese (6); A. Molinero (2); J.; Molnar (9); F. Montecassiano (6); D. Moran (2); J. J. Navarrete (2); F.; Navarria (1; 7); \'A. Navarro Tobar (2); J. C. Oller (2); M. Passaseo (6),; J. Pazzini (6); M. Pegoraro (6); J. Puerta Pelayo (2); M. Pelliccioni (4); B.; Philipps (12); J. Piedra Gomez (10); G. L. Pinna Angioni (4; 5); N.; Pozzobon (6); M. Presilla (6); C. Prieels (10); F. Primavera (1; 7); J. C.; Puras S\'anchez (2); I. Redondo (2); D. D. Redondo Ferrero (2); H. Reithler; (12); T. Rodrigo (10); V. Rodr\'iguez Bouza (3); J. Roemer (12); P. Ronchese; (6); R. Rossin (6); F. Rotondo (4); T. Rovelli (1); S. S\'anchez Cruz (3); S.; S\'anchez Navas (2); J. Sastre (2); L. Scodellaro (10); F. Simonetto (6); M.; S. Soares (2); A. Staiano (4); Z. Szillasi (9); D. F. Teyssier (9); N.; Toniolo (e; m); E. Torassa (6); D. Trocino (4); B. Ujvari (14); S. Ventura; (6); R. Vilar Cortabitarte (10); J. Vizan Garcia (10); M. Zanetti (6); F. P.; Zantis (12); G. Zilizi (14); P. Zotto (6) ((1) INFN Sezione di Bologna,; Bologna; Italy; (2) Centro de Investigaciones Energ\'eticas Medioambientales; y Tecnol\'ogicas (CIEMAT); Madrid; Spain; (3) Instituto Universitario de; Ciencias y Tecnolog\'ias Espaciales de Asturias (ICTEA); Universidad de; Oviedo; Oviedo; Spain; (4) INFN Sezione di Torino; Torino; Italy; (5); Universit\`a di Torino; Torino; Italy; (6) INFN Sezione di Padova,; Universit\`a di Padova; Padova; Italy; (7) Universit\`a di Bologna; Bologna,; Italy; (8) Wigner Research Centre for Physics; Budapest; Hungary; (9); Institute of Nuclear Research ATOMKI; Debrecen; Hungary; (10) Instituto de; F\'isica de Cantabria (IFCA); CSIC-Universidad de Cantabria; Santander,; Spain; (11) Universidad Aut\'onoma 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; sustainable economic development,; Bologna; Italy; (16) Now at CERN; (17) Now at RWTH Aachen University)

arXiv:1912.06178·physics.ins-det·December 16, 2019

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

G. Abbiendi (1), J. Alcaraz Maestre (2), A. \'Alvarez Fern\'andez (2),, B. \'Alvarez Gonz\'alez (3), N. Amapane (4, 5), I. Bachiller (2), J. M., Barcala (2), L. Barcellan (6), C. Battilana (1, 7), M. Bellato (6), G., Bencze (8), M. Benettoni (6), N. Beni (9), A. Benvenuti (1)

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TL;DR

This study investigates the radiation effects on CMS Drift Tubes muon detectors for HL-LHC, combining irradiation tests, simulations, and ongoing analysis to assess performance degradation and mitigation strategies.

Contribution

It provides new irradiation data on CMS DT chambers under HL-LHC-like conditions and evaluates their impact on muon detection efficiency.

Findings

01

Degradation of DT cell performance observed after irradiation.

02

Simulations show minimal impact on muon reconstruction efficiency.

03

Ongoing analysis of aged components and mitigation strategies.

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 ( $\sim$ 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…

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