Particle identification studies with a full-size 4-GEM prototype for the   ALICE TPC upgrade

M.M. Aggarwal; Z. Ahammed; S. Aiola; J. Alme; T. Alt; W. Amend; A.; Andronic; V. Anguelov; H. Appelsh\"auser; M. Arslandok; R. Averbeck; M. Ball,; G.G. Barnaf\"oldi; E. Bartsch; R. Bellwied; G. Bencedi; M. Berger; N. Bialas,; P. Bialas; L. Bianchi; S. Biswas; L. Boldizs\'ar; L. Bratrud; P.; Braun-Munzinger; M. Bregant; C.L. Britton; E.J. Brucken; H. Caines; A.J.; Castro; S. Chattopadhyay; P. Christiansen; L.G. Clonts; T.M. Cormier; S. Das,; S. Dash; A. Deisting; S. Dittrich; A.K. Dubey; R. Ehlers; M. Engel; F.; Erhardt; N.B. Ezell; L. Fabbietti; U. Frankenfeld; J.J. Gaardh{\o}je; C.; Garabatos; P. Gasik; \'A. Gera; P. Ghosh; S.K. Ghosh; P. Gl\"assel; O.; Grachov; A. Grein; T. Gunji; H. Hamagaki; G. Hamar; J.W. Harris; P. Hauer; J.; Hehner; E. Hellb\"ar; H. Helstrup; T.E. Hilden; B. Hohlweger; M. Ivanov; M.; Jung; D. Just; E. Kangasaho; R. Keidel; B. Ketzer; S.A. Khan; S. Kirsch; T.; Klemenz; S. Klewin; A.G. Knospe; M. Kowalski; L. Kumar; R. Lang; R. Langoy,; L. Lautner; F. Liebske; J. Lien; C. Lippmann; H.M. Ljunggren; W.J. Llope; S.; Mahmood; T. Mahmoud; R. Majka; P. Malzacher; A. Mar\'in; C. Markert; S.; Masciocchi; A. Mathis; A. Matyja; M. Meres; D.L. Mihaylov; D. Miskowiec; J.; Mitra; T. Mittelstaedt; T. Morhardt; J. Mulligan; R.H. Munzer; K. M\"unning,; M.G. Munhoz; S. Muhuri; H. Murakami; B.K. Nandi; H. Natal da Luz; C.; Nattrass; T.K. Nayak; R.A. Negrao De Oliveira; M. Nicassio; B.S. Nielsen; L.; Ol\'ah; A. Oskarsson; J. Otwinowski; K. Oyama; G. Pai\'c; R.N. Patra; V.; Peskov; M. Pikna; L. Pinsky; M. Planinic; M.G. Poghosyan; N. Poljak; F.; Pompei; S.K. Prasad; C.A. Pruneau; J. Putschke; S. Raha; J. Rak; J. Rasson,; V. Ratza; K.F. Read; A. Rehman; R. Renfordt; T. Richert; K. R{\o}ed; D.; R\"ohrich; T. Rudzki; R. Sahoo; S. Sahoo; P.K. Sahu; J. Saini; B. Schaefer,; J. Schambach; S. Scheid; C. Schmidt; H.R. Schmidt; N.V Schmidt; H. Schulte,; K. Schweda; I. Selyuzhenkov; N. Sharma; D. Silvermyr; R.N. Singaraju; B.; Sitar; N. Smirnov; S.P. Sorensen; F. Sozzi; J. Stachel; E. Stenlund; P.; Strmen; I. Szarka; G. Tambave; K. Terasaki; A. Timmins; K. Ullaland; A.; Utrobicic; D. Varga; R. Varma; A. Velure; V. Vislavicius; S. Voloshin; B.; Voss; D. Vranic; J. Wiechula; S. Winkler; J. Wikne; B. Windelband; C. Zhao

arXiv:1805.03234·physics.ins-det·July 16, 2018

Particle identification studies with a full-size 4-GEM prototype for the ALICE TPC upgrade

M.M. Aggarwal, Z. Ahammed, S. Aiola, J. Alme, T. Alt, W. Amend, A., Andronic, V. Anguelov, H. Appelsh\"auser, M. Arslandok, R. Averbeck, M. Ball,, G.G. Barnaf\"oldi, E. Bartsch, R. Bellwied, G. Bencedi, M. Berger, N. Bialas,, P. Bialas, L. Bianchi, S. Biswas, L. Boldizs\'ar

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TL;DR

This paper reports on the development and testing of a full-size 4-GEM prototype for the ALICE TPC upgrade, demonstrating improved particle identification capabilities suitable for higher collision rates at CERN.

Contribution

The study presents a full-size GEM-based readout chamber prototype that meets the ALICE TPC upgrade requirements, with performance validated through test beam experiments and simulations.

Findings

01

dE/dx resolution meets current and upgrade requirements

02

Prototype successfully tested in CERN PS beam

03

Simulations accurately reproduce experimental data

Abstract

A large Time Projection Chamber is the main device for tracking and charged-particle identification in the ALICE experiment at the CERN LHC. After the second long shutdown in 2019/20, the LHC will deliver Pb beams colliding at an interaction rate of about 50 kHz, which is about a factor of 50 above the present readout rate of the TPC. This will result in a significant improvement on the sensitivity to rare probes that are considered key observables to characterize the QCD matter created in such collisions. In order to make full use of this luminosity, the currently used gated Multi-Wire Proportional Chambers will be replaced. The upgrade relies on continuously operated readout detectors employing Gas Electron Multiplier technology to retain the performance in terms of particle identification via the measurement of the specific energy loss by ionization d $E$ /d $x$ . A full-size readout…

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