Performance of the first prototype of the CALICE scintillator strip electromagnetic calorimeter

K Francis,J Repond, J L Schlereth,J G Smith,L Xia,E Baldolemar, J Li,S T Park, M Sosebee,A White, Juanyi Yu,G Eigen,Y Mikami,N K Watson,Mark Thomson, D R Ward,D Benchekroun,A Hoummada,Y Khoulaki,John Apostolakis,A Dotti,G Folger,V Ivantchenko,A Ribon,V Uzhinskiy,C Cârloganu, P Gay,S Manen,Laurent Royer,Michael Tytgat, N Zaganidis,G Blazey,A Dyshkant,J G R Lima, V Zutshi,Jeanyves Hostachy,L Morin,U Cornett,Donald David,A Ebrahimi,G Falley,Klaus Von Gadow,P Gottlicher,Carl A Gunter,O Hartbrich, B Hermberg,S Karstensen,F Krivan,K Kruger,Benjamin Lutz,S V Morozov,V L Morgunov,C Neubuser, Mark A Reinecke,F Sefkow,P Smirnov,M Terwort,Erika Garutti,S Laurien,Shilong Lu,Ivan Marchesini,M Matysek, M Ramilli, K Briggl,P Eckert, T Harion,H Ch Schultzcoulon,W Shen, R Stamen,Burak Bilki,E Norbeck, D Northacker, Y Onel,G W Wilson, K Kawagoe,Y Sudo, Takao Yoshioka, P D Dauncey,M Wing, F Salvatore,E Cortina Gil, Sameh Mannai,G Baulieu,P Calabria, L Caponetto,C Combaret,R Della Negra,G Grenier,Ruifa Han,J C Ianigro,R Kieffer,I Laktineh,N Lumb,H Mathez, L Mirabito,A A Petrukhin,A Steen,W Tromeur,M Vander Donckt,Y Zoccarato,E Calvo Alamillo, M C Fouz,J Puertapelayo,F Corriveau, B Bobchenko,M Chadeeva,M Danilov,A Epifantsev,O Markin,R Mizuk,E Novikov,Vladimir V Popov,V Rusinov,E Tarkovsky,D Besson,P Buzhan,A Ilyin, V A Kantserov,V Kaplin,A Karakash,E N Popova, V O Tikhomirov,C Kiesling, Kerstin Seidel,F Simon,Christian Soldner,L Weuste,M S Amjad,J Bonis,S Callier,S Conforti Di Lorenzo,P Cornebise,Ph Doublet,F Dulucq,J Fleury, T Frisson,N Van Der Kolk, H Li,G Martinchassard,F Richard,Ch De La Taille,R Poschl,L Raux, J Rouene,N Seguinmoreau,M Anduze,V Balagura,V Boudry,J C Brient,R Cornat, M Frotin,F Gastaldi,E Guliyev,Yvonne Yazbeck Haddad,F Magniette,G Musat,Manqi Ruan,T H Tran,H Videau,B Bulanek,J Zacek,J Cvach, P Gallus, M Havranek,Miroslav Janata,J Kvasnicka,D Lednicky, M Marcisovsky,I Polak,J Popule,L Tomasek,M Tomasek,P Ruzicka, P Sicho,J Smolik, V Vrba,J Zalesak,B Belhorma,H Ghazlane,Katsushige Kotera, H Ono, Tatsuya Takeshita,S Uozumi,D Jeans,S Chang,A Khan, D H Kim, D J Kong,Y D Oh,M Gotze, J M Sauer, Steffen Georg Weber, C Zeitnitz

Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment（2014）

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摘要

A first prototype of a scintillator strip-based electromagnetic calorimeter was built, consisting of 26 layers of tungsten absorber plates interleaved with planes of 45×10×3mm3 plastic scintillator strips. Data were collected using a positron test beam at DESY with momenta between 1 and 6GeV/c. The prototype׳s performance is presented in terms of the linearity and resolution of the energy measurement. These results represent an important milestone in the development of highly granular calorimeters using scintillator strip technology. A number of possible design improvements were identified, which should be implemented in a future detector of this type. This technology is being developed for a future linear collider experiment, aiming at the precise measurement of jet energies using particle flow techniques.

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关键词

Particle Flow,Electromagnetic calorimeter,Scintillator,MPPC

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