The SICAPO Collaboration project to build a perfectly compensating hadron calorimeter using silicon as the active medium, is described. The insertion of low-Z material (G10 plates) in front or at the rear of the silicon detectors allows fine tuning of the calorimeter response to electromagnetic showers. This is a new approach to obtaining compensation. The tuning can be exploited to obtain e/pi =1 (compensation condition) . The expected performance ranks this calorimeter among the best candidates to face the severe constraints requested by the next generation of colliders.
SILICON SAMPLING HADRONIC CALORIMETRY - A TOOL FOR EXPERIMENTS AT THE NEXT GENERATION OF COLLIDERS / E. Borchi, R. Macii, S. Mazzoni;I. Fedder; G. Linstroem; C. Bertrand; F. Lamarche; C. Leroy; A. Villari; M. Bruzzi; C. Furetta; R. Paludetto; S. Pensotti; P.G. Rancoita; C. Simeone; L. Venturelli; L. Vismara; J.E. Brau; N. Croitoru; A. Seidman; S. C. Berridge; W. M. Bugg; R. Giacomich; A. Penzo; E. Toppano; P. Giubellino; L. Ramello; L. Riccati; M. Pisani; R. Steni. - In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH. SECTION A, ACCELERATORS, SPECTROMETERS, DETECTORS AND ASSOCIATED EQUIPMENT. - ISSN 0168-9002. - STAMPA. - 279:(1989), pp. 57-65. [10.1016/0168-9002(89)91062-0]
SILICON SAMPLING HADRONIC CALORIMETRY - A TOOL FOR EXPERIMENTS AT THE NEXT GENERATION OF COLLIDERS
BORCHI, EMILIO;BRUZZI, MARA;
1989
Abstract
The SICAPO Collaboration project to build a perfectly compensating hadron calorimeter using silicon as the active medium, is described. The insertion of low-Z material (G10 plates) in front or at the rear of the silicon detectors allows fine tuning of the calorimeter response to electromagnetic showers. This is a new approach to obtaining compensation. The tuning can be exploited to obtain e/pi =1 (compensation condition) . The expected performance ranks this calorimeter among the best candidates to face the severe constraints requested by the next generation of colliders.File | Dimensione | Formato | |
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Bruzzi_NIMA_1989.pdf
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