Electromagnetic response of a highly granular hadronic calorimeter

C. Adloff; J. Blaha; J. -J. Blaising; C. Drancourt; A. Espargilière; R. Gaglione; N. Geffroy; Y. Karyotakis; J. Prast; G. Vouters; K. Francis; J. Repond; J. Smith; L. Xia; E. Baldolemar; J. Li; S. T. Park; M. Sosebee; A. P. White; J. Yu; Y. Mikami; N. K. Watson T. Goto; G. Mavromanolakis; M. A. Thomson; D. R. Ward W. Yan; M. Benyamna; C. Cârloganu; F. Fehr; P. Gay; S. Manen; L. Royer; G. C. Blazey; A. Dyshkant; J. G. R. Lima; V. Zutshi; J.Y. Hostachy; L. Morin; U. Cornett; D. David; R. Fabbri; G. Falley; K. Gadow; E. Garutti; P. Göttlicher; C. Günter; S. Karstensen; F. Krivan; A. -I. Lucaci-Timoce; S. Lu; B. Lutz; I. Marchesini; N. Meyer; S. Morozov; V. Morgunov; M. Reinecke; F. Sefkow; P. Smirnov; M. Terwort; A. Vargas-Trevino; N. Wattimena; O. Wendt; N. Feege; J. Haller; S. Richter; J. Samson P. Eckert; A. Kaplan; H. -Ch. Schultz-Coulon; W. Shen; R. Stamen; A. Tadday; B. Bilki; E. Norbeck; Y. Onel; G. W. Wilson; K. Kawagoe; S. Uozumi; J. A. Ballin; P. D. Dauncey; A. -M. Magnan; H. S. Yilmaz; O. Zorba; V. Bartsch; M. Postranecky; M. Warren; M. Wing; F. Salvatore; E. Calvo Alamillo; M. -C. Fouz; J. Puerta-Pelayo; V. Balagura; B. Bobchenko; M. Chadeeva; M. Danilov; A. Epifantsev; O. Markin; R. Mizuk; E. Novikov; V. Rusinov; E. Tarkovsky; Y. Soloviev; V. Kozlov; P. Buzhan; B. Dolgoshein; A. Ilyin; V. Kantserov; V. Kaplin; A. Karakash; E. Popova; S. Smirnov; A. Frey; C. Kiesling; K. Seidel; F. Simon; C. Soldner; L. Weuste; J. Bonis; B. Bouquet; S. Callier; P. Cornebise; Ph. Doublet; F. Dulucq; M. Faucci Giannelli; J. Fleury; G. Guilhem; H. Li; G. Martin-Chassard; F. Richard; Ch. de La Taille; R. Pöschl; L. Raux; N. Seguin-Moreau; F. Wicek; M. Anduze; V. Boudry; J-C. Brient; D. Jeans; P. Mora de Freitas; G. Musat; M. Reinhard; M. Ruan; H. Videau; B. Bulanek; J. Zacek; J. Cvach; P. Gallus; M. Havranek; M. 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; K. Kotera; M. Nishiyama; T. Takeshita; S. Tozuka

HAL : in2p3-00566341, version 1

arXiv : 1012.4343

DOI : 10.1088/1748-0221/6/04/P04003

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Journal of Instrumentation 6 (2011) P04003

Electromagnetic response of a highly granular hadronic calorimeter

C. Adloff¹, J. Blaha¹, J. -J. Blaising¹, C. Drancourt¹, A. Espargilière¹, R. Gaglione¹, N. Geffroy¹, Y. Karyotakis¹, J. Prast¹, G. Vouters¹, K. Francis, J. Repond, J. Smith, L. Xia, E. Baldolemar, J. Li, S. T. Park, M. Sosebee, A. P. White, J. Yu, Y. Mikami, N. K. Watson T. Goto, G. Mavromanolakis, M. A. Thomson, D. R. Ward W. Yan, M. Benyamna², C. Cârloganu², F. Fehr², P. Gay², S. Manen², L. Royer², G. C. Blazey, A. Dyshkant, J. G. R. Lima, V. Zutshi, J.Y. Hostachy³, L. Morin³, U. Cornett, D. David, R. Fabbri, G. Falley, K. Gadow, E. Garutti, P. Göttlicher, C. Günter, S. Karstensen, F. Krivan, A. -I. Lucaci-Timoce, S. Lu, B. Lutz, I. Marchesini, N. Meyer, S. Morozov, V. Morgunov, M. Reinecke, F. Sefkow, P. Smirnov, M. Terwort, A. Vargas-Trevino, N. Wattimena, O. Wendt, N. Feege, J. Haller, S. Richter, J. Samson P. Eckert, A. Kaplan, H. -Ch. Schultz-Coulon, W. Shen, R. Stamen, A. Tadday, B. Bilki, E. Norbeck, Y. Onel, G. W. Wilson, K. Kawagoe, S. Uozumi, J. A. Ballin, P. D. Dauncey, A. -M. Magnan, H. S. Yilmaz, O. Zorba, V. Bartsch, M. Postranecky, M. Warren, M. Wing, F. Salvatore, E. Calvo Alamillo, M. -C. Fouz, J. Puerta-Pelayo, V. Balagura, B. Bobchenko, M. Chadeeva, M. Danilov, A. Epifantsev, O. Markin, R. Mizuk, E. Novikov, V. Rusinov, E. Tarkovsky, Y. Soloviev, V. Kozlov, P. Buzhan, B. Dolgoshein, A. Ilyin, V. Kantserov, V. Kaplin, A. Karakash, E. Popova, S. Smirnov, A. Frey, C. Kiesling, K. Seidel, F. Simon, C. Soldner, L. Weuste, J. Bonis⁴, B. Bouquet⁴, S. Callier⁴, P. Cornebise⁴, Ph. Doublet⁴, F. Dulucq⁴, M. Faucci Giannelli⁴, J. Fleury⁴, G. Guilhem⁴, H. Li⁴, G. Martin-Chassard⁴, F. Richard⁴, Ch. de La Taille⁴, R. Pöschl⁴, L. Raux⁴, N. Seguin-Moreau⁴, F. Wicek⁴, M. Anduze⁵, V. Boudry⁵, J-C. Brient⁵, D. Jeans⁵, P. Mora de Freitas⁵, G. Musat⁵, M. Reinhard⁵, M. Ruan⁵, H. Videau⁵, B. Bulanek, J. Zacek, J. Cvach, P. Gallus, M. Havranek, M. 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, K. Kotera, M. Nishiyama, T. Takeshita, S. Tozuka

CALICE Collaboration(s)

(2011)

The CALICE collaboration is studying the design of high performance electromagnetic and hadronic calorimeters for future International Linear Collider detectors. For the hadronic calorimeter, one option is a highly granular sampling calorimeter with steel as absorber and scintillator layers as active material. High granularity is obtained by segmenting the scintillator into small tiles individually read out via silicon photo-multipliers (SiPM). A prototype has been built, consisting of thirty-eight sensitive layers, segmented into about eight thousand channels. In 2007 the prototype was exposed to positrons and hadrons using the CERN SPS beam, covering a wide range of beam energies and incidence angles. The challenge of cell equalization and calibration of such a large number of channels is best validated using electromagnetic processes. The response of the prototype steel-scintillator calorimeter, including linearity and uniformity, to electrons is investigated and described.

1 :	LAPP - Laboratoire d'Annecy le Vieux de Physique des Particules

2 :	LPC-CLERMONT - Laboratoire de Physique Corpusculaire de Clermont-Ferrand

3 :	LPSC - Laboratoire de Physique Subatomique et de Cosmologie

4 :	LAL - Laboratoire de l'Accélérateur Linéaire

5 :	LLR - Laboratoire Leprince-Ringuet

Thème(s)

Physique/Physique/Instrumentations et Détecteurs

Lien vers le texte intégral :

http://fr.arXiv.org/abs/1012.4343


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Soumis le : Mercredi 16 Février 2011, 08:44:36
Dernière modification le : Mercredi 6 Avril 2011, 09:35:47