The response of the fine-grained CHARM target calorimeter built to detect ν interactions has been studied in π− and e− beams of 15–140 GeV. The development of hadronic and electromagnetic showers was studied and the precision of energy measurements determined. Methods used to measure the direction of particle showers and to distinguish electromagnetic from hadronic showers have been developed and the results are given.

The response and resolution of a fine-grain marble calorimeter for hadronic and electromagnetic showers / M., Jonker; J., Panman; F., Udo; J. V., Allaby; U., Amaldi; G., Barbiellini; A., Baroncelli; V., Blobel; W., Flegel; W., Kozanecki; K. H., Mess; M., Metcalf; J., Meyer; R. S., Orr; F., Schneider; A. M., Wetherell; K., Winter; J., Aspiazu; F. W., Busser; P. D., Gall; H., Grote; B., Kroger; E., Metz; F., Niebergall; K. H., Ranitzsch; P., Stahelin; P., Gorbunov; E., Grigoriev; V., Kaftanov; V., Khovansky; A., Rozanov; Borgia, Bruno; C., Bosio; Capone, Antonio; Ferroni, Fernando; Longo, Egidio; P., Monacelli; F., De Notaristefani; P., Pistilli; C., Santoni; V., Valente. - In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH. - ISSN 0167-5087. - STAMPA. - 200:2-3(1982), pp. 183-193. [10.1016/0167-5087(82)90430-6]

The response and resolution of a fine-grain marble calorimeter for hadronic and electromagnetic showers

BORGIA, BRUNO;CAPONE, Antonio;FERRONI, Fernando;LONGO, Egidio;
1982

Abstract

The response of the fine-grained CHARM target calorimeter built to detect ν interactions has been studied in π− and e− beams of 15–140 GeV. The development of hadronic and electromagnetic showers was studied and the precision of energy measurements determined. Methods used to measure the direction of particle showers and to distinguish electromagnetic from hadronic showers have been developed and the results are given.
1982
01 Pubblicazione su rivista::01a Articolo in rivista
The response and resolution of a fine-grain marble calorimeter for hadronic and electromagnetic showers / M., Jonker; J., Panman; F., Udo; J. V., Allaby; U., Amaldi; G., Barbiellini; A., Baroncelli; V., Blobel; W., Flegel; W., Kozanecki; K. H., Mess; M., Metcalf; J., Meyer; R. S., Orr; F., Schneider; A. M., Wetherell; K., Winter; J., Aspiazu; F. W., Busser; P. D., Gall; H., Grote; B., Kroger; E., Metz; F., Niebergall; K. H., Ranitzsch; P., Stahelin; P., Gorbunov; E., Grigoriev; V., Kaftanov; V., Khovansky; A., Rozanov; Borgia, Bruno; C., Bosio; Capone, Antonio; Ferroni, Fernando; Longo, Egidio; P., Monacelli; F., De Notaristefani; P., Pistilli; C., Santoni; V., Valente. - In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH. - ISSN 0167-5087. - STAMPA. - 200:2-3(1982), pp. 183-193. [10.1016/0167-5087(82)90430-6]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/245329
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