The FAZIA apparatus is a new detector designed for the Fermi energy domain for charged particles based on three stages telescopes: Silicon detector (300 μm thick), Silicon detector (500 μm thick) and CsI(Tl) (10 cm). Using the ΔE-E technique and the Pulse Shape Analysis (PSA) it permits the charge and mass discrimination up to more than Z=20. In the following, some details about the FAZIA detectors and electronics, their performance and the frst experimental campaigns already performed will be discussed.

FAZIA: A new performing detector for charged particles / Barlini S.; Bini M.; Buccola A.; Camaiani A.; Casini G.; Ciampi C.; Frosin C.; Ottanelli P.; Pasquali G.; Piantelli S.; Poggi G.; Stefanini A.A.; Valdre S.; Bonnet E.; Borderie B.; Bougault R.; Chibli A.; Cicerchia M.; Cinausero M.; Dueas J.A.; Fabris D.; Frankland J.; Gruyer D.; Henri M.; Kordyasz A.; Kozik T.; Leneindre N.; Lombardo I.; Lopez O.; Mantovani G.; Marchi T.; Quicray J.; Upadhyaya S.; Verde G.; Vient E.; Vigilante M.. - In: JOURNAL OF PHYSICS. CONFERENCE SERIES. - ISSN 1742-6588. - ELETTRONICO. - 1561:(2020), pp. 0-0. (Intervento presentato al convegno Detection Systems and Techniques in Nuclear and Particle Physics (DeSyT2019)) [10.1088/1742-6596/1561/1/012003].

FAZIA: A new performing detector for charged particles

Barlini S.;Bini M.;Buccola A.;Camaiani A.;Casini G.;Ciampi C.;Frosin C.;Ottanelli P.;Pasquali G.;Piantelli S.;Poggi G.;Gruyer D.;Lombardo I.;Marchi T.;
2020

Abstract

The FAZIA apparatus is a new detector designed for the Fermi energy domain for charged particles based on three stages telescopes: Silicon detector (300 μm thick), Silicon detector (500 μm thick) and CsI(Tl) (10 cm). Using the ΔE-E technique and the Pulse Shape Analysis (PSA) it permits the charge and mass discrimination up to more than Z=20. In the following, some details about the FAZIA detectors and electronics, their performance and the frst experimental campaigns already performed will be discussed.
2020
Journal of Physics: Conference Series
Detection Systems and Techniques in Nuclear and Particle Physics (DeSyT2019)
Barlini S.; Bini M.; Buccola A.; Camaiani A.; Casini G.; Ciampi C.; Frosin C.; Ottanelli P.; Pasquali G.; Piantelli S.; Poggi G.; Stefanini A.A.; Vald...espandi
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Utilizza questo identificatore per citare o creare un link a questa risorsa: https://hdl.handle.net/2158/1330121
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