In the last few years the FAZIA [1] collaboration has been investigating the properties of silicon detectors in particular the crystal orientation and resistivity non-uniformity in order to better pin down the detector characteristics that influence their performances for particle identification using ΔE-E and Pulse Shape Analysis (PSA) techniques. In this paper we present the first particle identification results obtained with detectors selected for good resistivity uniformity and using a non-channeled configuration. A new digital electronics was also designed for the R&D phase of FAZIA and was tested under beam for the first time. A quantitative procedure to measure the observed performances is applied in order to quantify the particle identification thresholds. Particle identification thresholds of ∼2.5AMeV for Z∼310 have been reached with the studied reaction.
Progresses in the pulse shape identification with silicon detectors within the FAZIA Collaboration / L. Bardelli, M. Bini, G. Casini, P. Edelbruck, G. Pasquali, G. Poggi, S. Barlini, R. Berjillos, B. Borderie, R. Bougault, M. Bruno, S. Carboni, A. Chbihi, M. D'Agostino, J.A. Dueñas, J.M. Gautier, F. Gramegna, C. Huss, A.J. Kordyasz, T. Kozik, et al.. - In: NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH. SECTION A, ACCELERATORS, SPECTROMETERS, DETECTORS AND ASSOCIATED EQUIPMENT. - ISSN 0168-9002. - STAMPA. - 654:(2011), pp. 272-278. [10.1016/j.nima.2011.06.063]
Progresses in the pulse shape identification with silicon detectors within the FAZIA Collaboration
BARDELLI, LUIGI;BINI, MAURIZIO;CASINI, GIOVANNI;PASQUALI, GABRIELE;POGGI, GIACOMO;BARLINI, SANDRO;CARBONI, STEFANO;
2011
Abstract
In the last few years the FAZIA [1] collaboration has been investigating the properties of silicon detectors in particular the crystal orientation and resistivity non-uniformity in order to better pin down the detector characteristics that influence their performances for particle identification using ΔE-E and Pulse Shape Analysis (PSA) techniques. In this paper we present the first particle identification results obtained with detectors selected for good resistivity uniformity and using a non-channeled configuration. A new digital electronics was also designed for the R&D phase of FAZIA and was tested under beam for the first time. A quantitative procedure to measure the observed performances is applied in order to quantify the particle identification thresholds. Particle identification thresholds of ∼2.5AMeV for Z∼310 have been reached with the studied reaction.
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