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1.
Design and Construction of the Mechanical Structure for Thin-Gap RPC Triplets for the Upgrade of the ATLAS Muon Spectrometer / Kortner, Oliver (Max-Planck-Institut fuer Physik)
The advent of thin-gap RPCs with 1 mm gas gaps instead of 2 mm in the present RPCs opened the possibility to instrument the inner barrel layer of the ATLAS muon spectrometer where there is very limited amount of space in radial direction from the beam line. [...]
ATL-MUON-PROC-2020-010.
- 2020. - 6 p.
Original Communication (restricted to ATLAS) - Full text
2.
Test of new eco-gas mixtures for the multigap resistive plate chambers of the EEE project / Trimarchi, M (Enrico Fermi Ctr., Rome ; INFN, Catania ; Messina U.) ; Abbrescia, M (Enrico Fermi Ctr., Rome ; INFN, Bari ; Bari U.) ; Avanzini, C (Enrico Fermi Ctr., Rome ; INFN, Pisa ; Pisa U.) ; Baldini, L (Enrico Fermi Ctr., Rome ; INFN, Pisa ; Pisa U.) ; Ferroli, R Baldini (Enrico Fermi Ctr., Rome ; Frascati) ; Batignani, L G (Enrico Fermi Ctr., Rome ; INFN, Pisa ; Pisa U.) ; Battaglieri, M (Enrico Fermi Ctr., Rome ; INFN, Genoa ; Genoa U.) ; Boi, S (Enrico Fermi Ctr., Rome ; INFN, Cagliari ; Cagliari U.) ; Bossini, E (Enrico Fermi Ctr., Rome ; INFN, Siena ; Siena U.) ; Carnesecchi, F (Enrico Fermi Ctr., Rome ; INFN, Bologna ; Bologna U.) et al.
The Extreme Energy Events (EEE) experiment is a project by Centro Fermi (Museo Storico della Fisica e Centro Studi e Ricerche “Enrico Fermi”) in collaboration with INFN, CERN and MIUR, designed to study cosmic rays via a network of muon telescopes, based on the Multigap Resistive Plate Chambers (MRPC) technology. Due to its wide coverage over the Italian territory (more than 10° in latitude and longitude, covering more than 3x10$^5$ km$^2$), the EEE network is the largest MRPC – based system for cosmic rays detection. [...]
Elsevier, 2019 - 2 p. - Published in : Nucl. Instrum. Methods Phys. Res., A 936 (2019) 493-494
In : Frontier Detectors for Frontier Physics: XIV Pisa Meeting on Advanced Detectors, La Biodola, Isola D'elba, Italy, 27 May - 2 Jun 2018, pp.493-494
3.
Performance of the multigap resistive plate chambers of the extreme energy events project / Garbini, M (INFN, Bologna ; Bologna U. ; Enrico Fermi Ctr., Rome) ; Abbrescia, M (Enrico Fermi Ctr., Rome ; INFN, Bari ; Bari U.) ; Avanzini, C (Enrico Fermi Ctr., Rome ; INFN, Pisa ; Pisa U.) ; Baldini, L (Enrico Fermi Ctr., Rome ; INFN, Pisa ; Pisa U.) ; Baldini Ferroli, R (Enrico Fermi Ctr., Rome ; Frascati) ; Batignani, L G (Enrico Fermi Ctr., Rome ; INFN, Pisa ; Pisa U.) ; Battaglieri, M (Enrico Fermi Ctr., Rome ; INFN, Genoa ; Genoa U.) ; Boi, S (Enrico Fermi Ctr., Rome ; INFN, Cagliari ; Cagliari U.) ; Bossini, E (Enrico Fermi Ctr., Rome ; INFN, Siena ; Siena U.) ; Carnesecchi, F (Enrico Fermi Ctr., Rome ; INFN, Bologna ; Bologna U.) et al.
The Extreme Energy Events (EEE) Project is devoted to the detection and study of high-energy cosmic rays. It is a network of 53 muon tracking telescopes made of three Multigap Resistive Plate Chambers (MRPC), synchronized by GPS and installed inside high schools distributed on the Italian territory. [...]
Elsevier, 2019 - 2 p. - Published in : Nucl. Instrum. Methods Phys. Res., A 936 (2019) 474-475
In : Frontier Detectors for Frontier Physics: XIV Pisa Meeting on Advanced Detectors, La Biodola, Isola D'elba, Italy, 27 May - 2 Jun 2018, pp.474-475
4.
RPC based 5D tracking concept for high multiplicity tracking trigger / Aielli, G. (University of Roma Tor Vergata, INFN of Roma Tor Vergata) ; Camarri, P. (University of Roma Tor Vergata, INFN of Roma Tor Vergata) ; Cardarelli, R. (University of Roma Tor Vergata, INFN of Roma Tor Vergata) ; Di Ciaccio, A. (University of Roma Tor Vergata, INFN of Roma Tor Vergata) ; Distante, L. (University of Roma Tor Vergata) ; Liberti, B. (INFN of Roma Tor Vergata) ; Paolozzi, L. (University of Geneva) ; Pastori, E. (INFN of Roma Tor Vergata) ; Santonico, R. (University of Roma Tor Vergata, INFN of Roma Tor Vergata)
The recently approved High Luminosity LHC project (HL-LHC) and the future colliders proposals present a challenging experimental scenario, dominated by high pileup, radiation background and a bunch crossing time possibly shorter than 5 ns. This holds as well for muon systems, where RPCs can play a fundamental role in the design of the future experiments. [...]
AIDA-2020-CONF-2020-009.- Geneva : CERN, 2020 - Published in : Fulltext: PDF;
In : 13th Workshop on Resistive Plate Chambers and Related Detectors, Ghent, Belgium, 22 - 26 Feb 2016
5.
Studies of gas volumes current density in the ATLAS RPC detector during 2018 data taking at Large Hadron Collider / Krasnopevtsev, Dimitrii (University of Science and Technology of China)
The ATLAS Resistive Plate Chamber (RPC) detector is a tracking trigger, used to primarily select high momentum muons in the ATLAS barrel region ($|\eta|<$1.05) at the 40 MHz collision rate, and to provide muons azimuthal coordinates. [...]
ATL-MUON-PROC-2020-007.
- 2020. - 7 p.
Original Communication (restricted to ATLAS) - Full text
6.
The BIS78 Resistive Plate Chambers upgrade of the ATLAS Muon Spectrometer for the LHC Run-3 / Massa, Lorenzo (Universita e INFN, Bologna)
Resistive Plate Chambers are used in the ATLAS experiment and provide the muon trigger and two coordinate measurements in the barrel region |$\eta$|<1.05. [...]
ATL-MUON-PROC-2020-003.
- 2020. - 8 p.
Original Communication (restricted to ATLAS) - Full text
7.
The BIS78 Resistive Plate Chambers upgrade of the ATLAS Muon Spectrometer for the LHC Run-3 / Massa, Lorenzo (Universita e INFN, Bologna) /ATLAS Collaboration
Resistive Plate Chambers are used in the ATLAS experiment and provide the muon trigger and two coordinate measurements in the barrel region |n|<1.05 In preparation for the coming years of LHC running at higher luminosity, besides the New Small Wheel project which is expected to complement the ATLAS Muon spectrometer in the end-cap regions, a smaller size project, known as BIS78, is being developed aiming at the installation during the LHC Long Shutdown 2 (2020-2021). The BIS78 project will reinforce the fake rejection and the selectivity of the muon trigger in the transition region between the ATLAS barrel and the endcaps (1<|eta|<1.3) by adding 32 RPC triplets along z on the edges of the inner barrel even sectors (BIS7 and BIS8) as this region is characterized by high rate due to secondary charged tracks generated by beam halo protons and a lack of detector instrumentation. [...]
ATL-MUON-SLIDE-2020-070.- Geneva : CERN, 2020 - 18 p. Fulltext: PDF; External link: Original Communication (restricted to ATLAS)
In : XV Workshop on Resistive Plate Chambers and related detectors, Roma, Italy, 10 - 14 Feb 2020
8.

CMS-PHO-MUON-2019-005
© 2019 CERN, for the benefit of the CMS Collaboration
Open Days 2019 - CMS Muon Group exhibit
Open Days 2019 - Exposition du groupe a muons CMS

14/09/2019
Keywords: Muon Endcap, Cathode Strip Chambers, Muon Barrel, Drift Tubes, Resistive Plate Chambers
More >>
9.
Performance studies of RPC detectors with new environmentally friendly gas mixtures in presence of LHC-like radiation background / Guida, R (CERN) ; Mandelli, B (CERN) ; Rigoletti, G (Milan Bicocca U.)
Resistive Plate Chamber (RPC) detectors are widely used at the CERN LHC experiments as muon trigger thanks to their excellent time resolution. They are operated with a Freon-based gas mixture containing C$_2$H$_2$F$_4$ and SF$_6$ , both greenhouse gases (GHG) with a very high global warming potential (GWP). [...]
Elsevier, 2020 - 4 p. - Published in : Nucl. Instrum. Methods Phys. Res., A 958 (2020) 162073
In : 15th Vienna Conference on Instrumentation, Vienna, Austria, 18 - 22 Feb 2019, pp.162073
10.
Novel low resistivity glass: MRPC detectors for ultra high rate applications / Liu, Z (CERN ; World Lab., Geneva) ; Beyer, R (HZDR, Dresden) ; Dreyer, J (HZDR, Dresden) ; Fan, X (HZDR, Dresden) ; Greifenhagen, R (HZDR, Dresden) ; Kim, D W (Gangneung-Wonju Natl. U.) ; Kotte, R (HZDR, Dresden) ; Garcia, A Laso (HZDR, Dresden) ; Naumann, L (HZDR, Dresden) ; Römer, K (HZDR, Dresden) et al.
Multigap Resistive Plate Chambers (MRPCs) are often used as time-of-flight (TOF) detectors for high-energy physics and nuclear experiments thanks to their excellent time accuracy. For the Compressed Baryonic Matter (CBM) TOF system, MRPCs are required to work at particle fluxes on the order of 1–10 kHz/cm$^2$ for the outer region and 10–25 kHz/cm$^2$ for the central region. [...]
2020 - 6 p. - Published in : Nucl. Instrum. Methods Phys. Res., A 959 (2020) 163483

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