Author :
Borchi, E. ; Bruzzi, M. ; Furetta, C. ; Giubellino, P. ; Lamarche, F. ; Lemeilleur, F. ; Leroy, C. ; Macii, R. ; Paludetto, R. ; Pensotti, S. ; Penzo, A. ; Ramello, L. ; Rancoita, P.G. ; Riccati, L. ; Seidman, A. ; Vismara, L.
Abstract :
Experimental evidence has been found for a filtering effect on the soft electron component in electromagnetic showers when combinations of low-Z and high-Z materials are used as absorbers. The filtering effect can be fully exploited to reduce the electromagnetic calorimeter response, making it possible to achieve the compensation condition in a Si/Fe+Pb calorimeter with an effective interaction length almost equal to that of Fe. The action of Fe on Pb, by modifying the critical energy during the electromagnetic shower development, leads to a yield of soft electrons (and very few photons) that are stopped in subsequent absorber layers and/or absorbed by the G10 plates. Recent measurements performed with an enlarged Si/Fe+Pb calorimeter support the idea; the authors have shown that an electromagnetic energy smaller than the hadronic energy is possible once particular FePb configurations are used
Keywords :
calorimeters; electron detection and measurement; G10 plates; SiFePb; compensation condition; electromagnetic calorimeter response; electromagnetic showers; filtering effect; hadron calorimeters; soft electron component; Detectors; Electromagnetic radiation; Electrons; Energy resolution; Filtering; Iron; Riccati equations; Sampling methods; Signal resolution; Silicon;
