First results on MPGD prototypes in test beam for MPGD-based HCAL at a future Muon Collider experiment

被引:0
|
作者
Colaleo, A. [1 ,2 ]
Buonsante, M. [1 ,2 ]
Longo, L. [2 ]
Maggi, M. [2 ]
Pellecchia, A. [1 ,2 ]
Radogna, R. [1 ,2 ]
Simone, F. M. [1 ,2 ]
Stamerra, A. [1 ,2 ]
Venditti, R. [1 ,2 ]
Verwilligen, P. J. [2 ]
Zaza, A. [1 ,2 ]
机构
[1] Univ Bari Aldo Moro, Bari, Italy
[2] INFN, Sez Bari, Bari, Italy
来源
JOURNAL OF INSTRUMENTATION | 2024年 / 19卷 / 03期
关键词
Micropattern gaseous detectors (MSGC; GEM; THGEM; RETHGEM; MHSP; MICROPIC; MICROMEGAS; InGrid; etc); Calorimeters; MICROMEGAS;
D O I
10.1088/1748-0221/19/03/C03021
中图分类号
TH7 [仪器、仪表];
学科分类号
0804 ; 080401 ; 081102 ;
摘要
The Multi-TeV Muon Collider will allow significant advancement in particle physics and in the understanding of its Standard Model for the era after the High-Luminosity LHC. The Muon Collider physics program involves precise Higgs boson sector measurements and TeV-scale new physics exploration. These goals demand accurate full-event reconstruction. The Particle Flow algorithm, which utilizes tracking, calorimeter, and muon detectors, is ideal for identifying and precisely estimating particle momenta/energies and can accomplish this task. Tracking detectors measure charged particle momenta, while calorimeters provide energy measurements for photons and neutral hadrons. Therefore, combining an exceptional tracking system with high-granularity calorimeters is essential. A major challenge is discerning mu mu collision products from beam -inducedbackground, due to muon decay. To address this, an innovative hadronic calorimeter (HCAL) using Micro Pattern Gas Detectors (MPGDs) is proposed. MPGDs provide robust technology for high radiation and ensure precise spatial measurements. Dedicated studies are needed to assess and optimize the performance of an MPGD-based HCAL, including the development of medium-scale prototypes for performance measurements. This article describes the studies for a hadronic calorimeter based on MPGDs, relying on advanced technologies such as mu-rwell, resistive MicroMegas, and RPWELL. To assess the performance of MPGD detectors, a test beam was conducted in July 2023 at the Super Proton Synchrotron at CERN. This test beam aimed to evaluate the performance of MPGD detectors with 1x1 cm(2) pad readout under beam irradiation. Preliminary results from this test are presented.
引用
收藏
页数:8
相关论文
共 29 条
  • [21] Test beam results of the GE1/1 prototype for a future upgrade of the CMS high-η muon system
    Abbaneo, D.
    Abbrescia, M.
    Armagnaud, C.
    Aspell, P.
    Bagliesi, M. G.
    Ban, Y.
    Bally, S.
    Benussi, L.
    Berzano, U.
    Bianco, S.
    Bos, J.
    Bunkowski, K.
    Cai, J.
    Cecchi, R.
    Chatelain, J. P.
    Christiansen, J.
    Colafranceschi, S.
    Colaleo, A.
    Garcia, A. Conde
    David, E.
    de Robertis, G.
    De Oliveira, R.
    Pinto, S. Duarte
    Ferry, S.
    Formenti, F.
    Franconi, L.
    Gnanvo, K.
    Gutierrez, A.
    Hohlmann, M.
    Karchin, P. E.
    Loddo, F.
    Magazzu, G.
    Maggi, M.
    Marchioro, A.
    Marinov, A.
    Mehta, K.
    Merlin, J.
    Mohapatra, A.
    Moulik, T.
    Nemallapudi, M. V.
    Nuzzo, S.
    Oliveri, E.
    Piccolo, D.
    Postema, H.
    Raffone, G.
    Rodrigues, A.
    Ropelewski, L.
    Saviano, G.
    Sharma, A.
    Staib, M. J.
    2011 IEEE NUCLEAR SCIENCE SYMPOSIUM AND MEDICAL IMAGING CONFERENCE (NSS/MIC), 2011, : 1806 - 1810
  • [22] Electron beam test of key elements of the laser-based calibration system for the muon g-2 experiment
    Anastasi, A.
    Basti, A.
    Bedeschi, F.
    Bartolini, M.
    Cantatore, G.
    Cauz, D.
    Corradi, G.
    Dabagov, S.
    Di Sciascio, G.
    Di Stefano, R.
    Driutti, A.
    Escalante, O.
    Ferrari, C.
    Fienberg, A. T.
    Fioretti, A.
    Gabbanini, C.
    Gioiosa, A.
    Hampai, D.
    Hertzog, D. W.
    Iacovacci, M.
    Karuza, M.
    Kaspar, J.
    Liedl, A.
    Lusiani, A.
    Marignetti, F.
    Mastroianni, S.
    Moricciani, D.
    Pauletta, G.
    Piacentino, G. M.
    Raha, N.
    Rossi, E.
    Santi, L.
    Venanzoni, G.
    NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT, 2017, 842 : 86 - 91
  • [23] First test-beam results obtained with IDEA, a detector concept designed for future lepton colliders
    Aly, R.
    Antonello, M.
    Azzi, P.
    Bedeschi, F.
    Bencivenni, G.
    Borgonovi, L.
    Caccia, M. L. M.
    Chu, X.
    Cibinetto, G.
    Coates, T.
    Cussans, D.
    De Filippis, N.
    De Santo, A.
    Dunser, M.
    Ete, R.
    Farinelli, R.
    Ferrari, R.
    Fontanesi, E.
    Franchino, S.
    Gaudio, G.
    Giacomelli, P.
    Grancagnolo, F.
    Gribanov, S.
    Hauptman, J. M.
    Janot, P.
    Jones, S. D.
    Lee, K.
    Lee, S.
    Lerner, G.
    Morello, G.
    Nam, K.
    Pezzotti, L.
    Pingault, A.
    Lener, M. Poli
    Popov, A. A.
    Salvatore, F.
    Santoro, R.
    Taliercio, A.
    Tassielli, G. F.
    Testa, B.
    Vivarelli, I.
    Wigmans, R.
    NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT, 2020, 958
  • [24] The Instrumented Flux Return Detector of the SuperB Experiment: R&D studies and first results of the Fermilab Beam Test
    Andreotti, M.
    Baldini, W.
    Calabrese, R.
    Carassiti, V.
    Cotta, A.
    Cibinetto, G.
    Evangelisti, F.
    Luppi, E.
    Malaguti, R.
    Manzali, M.
    Melchiorri, M.
    Munerato, M.
    Santoro, V.
    Tommassetti, L.
    Benettoni, M.
    Dalcorso, F.
    Feltresi, E.
    Fanin, C.
    Gagliardi, N.
    Posocco, M.
    Rotondo, M.
    Stroili, R.
    PROCEEDINGS OF THE 2ND INTERNATIONAL CONFERENCE ON TECHNOLOGY AND INSTRUMENTATION IN PARTICLE PHYSICS (TIPP 2011), 2012, 37 : 659 - 666
  • [25] Test beam results of the first CMS double-sided strip module prototypes using the CBC2 read-out chip
    Harb, Ali
    Mussgiller, Andreas
    Hauk, Johannes
    NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT, 2017, 845 : 93 - 96
  • [26] First results from pion beam test of an iron/gas calorimeter based on ceramic parallel plate chambers
    Bencze, Gy.L.
    Bizetti, A.
    Civinini, C.
    Dalla Santa, F.
    D'Alessandro, R.
    Ferrando, A.
    Fouz, M.C.
    Iglesias, A.
    Ivochkin, V.
    Josa, M.I.
    Khan, A.
    Malinin, A.
    Martinez-Laso, L.
    Meschini, M.
    Pojidaev, V.
    Salicio, J.M.
    Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 1997, 386 (2-3): : 259 - 268
  • [27] First results from pion beam test of an iron/gas calorimeter based on ceramic parallel plate chambers
    Bencze, GL
    Bizetti, A
    Civinini, C
    DallaSanta, F
    DAlessandro, R
    Ferrando, A
    Fouz, MC
    Iglesias, A
    Ivochkin, V
    Josa, MI
    Khan, A
    Malinin, A
    MartinezLaso, L
    Meschini, M
    Pojidaev, V
    Salicio, JM
    NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT, 1997, 386 (2-3): : 259 - 268
  • [28] Design and test results of the first prototype detector based on thin-walled drift tubes for the NA62 experiment
    Azorskiy, N. I.
    Bazylev, S. N.
    Glonti, L. N.
    Danielsson, H.
    Zinchenko, A. I.
    Zlobin, Yu. L.
    Kekelidze, V. D.
    Kuchinskiy, N. A.
    Madigozhin, D. T.
    Movchan, S. A.
    Potrebenikov, Yu. K.
    Samsonov, V. A.
    Slepnev, V. M.
    Slepnev, I. V.
    Frabetti, P. -L.
    Shvetsov, V. S.
    Shkarovskiy, S. N.
    INSTRUMENTS AND EXPERIMENTAL TECHNIQUES, 2015, 58 (05) : 593 - 601
  • [29] Design and test results of the first prototype detector based on thin-walled drift tubes for the NA62 experiment
    N. I. Azorskiy
    S. N. Bazylev
    L. N. Glonti
    H. Danielsson
    A. I. Zinchenko
    Yu. L. Zlobin
    V. D. Kekelidze
    N. A. Kuchinskiy
    D. T. Madigozhin
    S. A. Movchan
    Yu. K. Potrebenikov
    V. A. Samsonov
    V. M. Slepnev
    I. V. Slepnev
    P.-L. Frabetti
    V. S. Shvetsov
    S. N. Shkarovskiy
    Instruments and Experimental Techniques, 2015, 58 : 593 - 601
123