Timing performance of the CMS High Granularity Calorimeter prototype-Reference-Cited by-同舟云学术

Timing performance of the CMS High Granularity Calorimeter prototype

Published:2024-04-01 Issue:04 Volume:19 Page:P04015
ISSN:1748-0221
Container-title:Journal of Instrumentation
language:
Short-container-title:J. Inst.

Author:

Acar B.,Adamov G.,Adloff C.,Afanasiev S.,Akchurin N.,Akgün B.,Khan F.A.,Alhusseini M.,Alison J.,Alpana A.,Altopp G.,Alyari M.,An S.,Anagul S.,Andreev I.,Aspell P.,Atakisi I.O.,Bach O.,Baden A.,Bakas G.,Bakshi A.,Bannerjee S.,Bargassa P.,Barney D.,Beaudette F.,Beaujean F.,Becheva E.,Becker A.,Behera P.,Belloni A.,Bergauer T.,Besançon M.,Bhattacharya S.,Bhowmik D.,Bilki B.,Bloch P.,Bodek A.,Bonanomi M.,Bonnemaison A.,Bonomally S.,Borg J.,Bouyjou F.,Bower N.,Braga D.,Brashear J.,Brondolin E.,Bryant P.,Buchot Perraguin A.,Bueghly J.,Burkle B.,Butler-Nalin A.,Bychkova O.,Callier S.,Calvet D.,Cao X.,Cappati A.,Caraway B.,Caregari S.,Cauchois A.,Ceard L.,Cekmecelioglu Y.C.,Cerci S.,Cerminara G.,Chadeeva M.,Charitonidis N.,Chatterjee R.,Chen Y.M.,Chen Z.,Cheng H.J.,Cheng K.y.,Chernichenko S.,Cheung H.,Chien C.H.,Choudhury S.,Čoko D.,Collura G.,Couderc F.,Danilov M.,Dannheim D.,Daoud W.,Dauncey P.,David A.,Davies G.,Davignon O.,Day E.,De Barbaro P.,De Guio F.,de La Taille C.,De Silva M.,Debbins P.,Defranchis M.M.,Delagnes E.,Deltoro Berrio J.M.,Derylo G.,Dias de Almeida P.G.,Diaz D.,Dinaucourt P.,Dittmann J.,Dragicevic M.,Dugad S.,Dulucq F.,Dumanoglu I.,Dutta V.,Dutta S.,Dünser M.,Eckdahl J.,Edberg T.K.,El Berni M.,Elias F.,Eno S.C.,Ershov Yu.,Everaerts P.,Extier S.,Fahim F.,Fallon C.,Fedi G.,Fontana Santos Alves B.A.,Frahm E.,Franzoni G.,Freeman J.,French T.,Gandhi P.,Ganjour S.,Gao X.,Garcia-Bellido A.,Gastaldi F.,Gecse Z.,Geerebaert Y.,Gerwig H.,Gevin O.,Ghosh S.,Gilbert A.,Gilbert W.,Gill K.,Gingu C.,Gninenko S.,Golunov A.,Golutvin I.,Gonzalez T.,Gorbounov N.,Gouskos L.,Gray A.B.,Gu Y.,Guilloux F.,Guler Y.,Gülmez E.,Guo J.,Gurpinar Guler E.,Hammer M.,Hassanshahi H.M.,Hatakeyama K.,Heering A.,Hegde V.,Heintz U.,Hinton N.,Hirschauer J.,Hoff J.,Hou W.-S.,Hou X.,Hua H.,Incandela J.,Irshad A.,Isik C.,Jain S.,Jheng H.R.,Joshi U.,Kachanov V.,Kalinin A.,Kalipoliti L.,Kaminskiy A.,Kapoor A.,Kara O.,Karneyeu A.,Kaya M.,Kaya O.,Kayis Topaksu A.,Khukhunaishvili A.,Kieseler J.,Kilpatrick M.,Kim S.,Koetz K.,Kolberg T.,Köseyan O.K.,Kristić A.,Krohn M.,Krüger K.,Kulagin N.,Kulis S.,Kunori S.,Kuo C.M.,Kuryatkov V.,Kyre S.,Lai Y.,Lamichhane K.,Landsberg G.,Lange C.,Langford J.,Lee M.Y.,Levin A.,Li A.,Li B.,Li J.H.,Li Y.y.,Liao H.,Lincoln D.,Linssen L.,Lipton R.,Liu Y.,Lobanov A.,Lu R.-S.,Lupi M.,Lysova I.,Magnan A.-M.,Magniette F.,Mahjoub A.,Maier A.A.,Malakhov A.,Mallios S.,Mannelli M.,Mans J.,Marchioro A.,Martelli A.,Martinez G.,Masterson P.,Meng B.,Mengke T.,Mestvirishvili A.,Mirza I.,Moccia S.,Mohanty G.B.,Monti F.,Morrissey I.,Murthy S.,Musić J.,Musienko Y.,Nabili S.,Nagar A.,Nguyen M.,Nikitenko A.,Noonan D.,Noy M.,Nurdan K.,Ochando C.,Odegard B.,Odell N.,Okawa H.,Onel Y.,Ortez W.,Ozegović J.,Ozkorucuklu S.,Paganis E.,Pagenkopf D.,Palladino V.,Pandey S.,Pantaleo F.,Papageorgakis C.,Papakrivopoulos I.,Parshook J.,Pastika N.,Paulini M.,Paulitsch P.,Peltola T.,Pereira Gomes R.,Perkins H.,Petiot P.,Pierre-Emile T.,Pitters F.,Popova E.,Prosper H.,Prvan M.,Puljak I.,Qu H.,Quast T.,Quinn R.,Quinnan M.,Ramos Garcia M.T.,Rao K.K.,Rapacz K.,Raux L.,Reichenbach G.,Reinecke M.,Revering M.,Roberts A.,Romanteau T.,Rose A.,Rovere M.,Roy A.,Rubinov P.,Rusack R.,Rusinov V.,Ryjov V.,Şahin M.Ö.,Salerno R.,Sanchez Rodriguez A.M.,Saradhy R.,Sarkar T.,Şarkışla M.A.,Sauvan J.B.,Schmidt I.,Schmitt M.,Scott E.,Seez C.,Sefkow F.,Sharma S.,Shein I.,Shenai A.,Shukla R.,Sicking E.,Sieberer P.,Silva P.,Simsek A.E.,Sirois Y.,Smirnov V.,Sozbilir U.,Spencer E.,Steen A.,Strait J.,Strobbe N.,Su J.W.,Sukhov E.,Sun L.,Sunar Cerci D.,Syal C.,Tali B.,Tan C.L.,Tao J.,Tastan I.,Tatlı T.,Thaus R.,Tekten S.,Thienpont D.,Tiras E.,Titov M.,Tlisov D.,Tok U.G.,Troska J.,Tsai L.-S.,Tsamalaidze Z.,Tsipolitis G.,Tsirou A.,Tyurin N.,Undleeb S.,Urbanski D.,Ustinov V.,Uzunian A.,Van de Klundert M.,Varela J.,Velasco M.,Viazlo O.,Vicente Barreto Pinto M.,Vichoudis P.,Virdee T.,Vizinho de Oliveira R.,Voelker J.,Voirin E.,Vojinović M.,Wade A.,Wang C.,Wang F.,Wang X.,Wang Z.,Wang Z.,Wayne M.,Webb S.N.,Whitbeck A.,White D.,Wickwire R.,Wilson J.S.,Winter D.,Wu H.Y.,Wu L.,Wulansatiti Nursanto M.,Yeh C.H.,Yohay R.,Yu D.,Yu G.B.,Yu S.S.,Yuan C.,Yumiceva F.,Yusuff I.,Zacharopoulou A.,Zamiatin N.,Zarubin A.,Zenz S.,Zghiche A.,Zhang H.,Zhang J.,Zhang Y.,Zhang Z.,

Abstract

Abstract This paper describes the experience with the calibration, reconstruction and evaluation of the timing capabilities of the CMS HGCAL prototype in the beam tests in 2018. The calibration procedure includes multiple steps and corrections ranging from tens of nanoseconds to a few hundred picoseconds. The timing performance is studied using signals from positron beam particles with energies between 20 GeV and 300 GeV. The performance is studied as a function of particle energy against an external timing reference as well as standalone by comparing the two different halves of the prototype. The timing resolution is found to be 60 ps for single-channel measurements and better than 20 ps for full showers at the highest energies, setting excellent perspectives for the HGCAL calorimeter performance at the HL-LHC.

Publisher

IOP Publishing

Link

https://iopscience.iop.org/article/10.1088/1748-0221/19/04/P04015/pdf

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