Isotopic identification in CHIMERA detector: recent results and perspectives

Pagano, A; Agodi, C; Alba, R; Amorini, F; Anzalone, A; Arena, N; Auditore, Lucrezia; Bassini, R; Boiano, C; Cali, C; Campagna, V; Cardella, G; Cavallaro, S; Chatterjee, Mb; D’Andrea, M; De Filippo, E; Di Stefano, A; Emanuele, U; Fichera, F; Giustolisi, F; Geraci, Elena Irene; Giudice, N; Grimaldi, A; Guardone, N; Guazzoni, P; La Guidara, E; Lanzano, G; Lanzalone, G; Maiolino, C; Nicotra, D; Papa, M; Pirrone, S; Politi, Giuseppe; Porto, F; Rapicavoli, C; Rizza, G; Rizzo, Francesca; Russo, S; Russotto, P; Sacca, G; Salomone, S; Santonocito, D; Stiro, M; Trimarchi, M; Urso, S; Zetta, L.

doi:10.1109/NSSMIC.2006.356206

Isotopic identification of nuclear products in heavy-ion physics with stable and exotic beams ( RIB) is of crucial importance for understanding the behaviour of nuclear matter far away from normal density. This is true for both nuclear structure and nuclear reaction studies. The recent upgrading of the 4 pi CHIMERA detector by pulse shape methods in silicon detectors in connection with the Time of flight (TOF) and the energy loss ( DE-E) methods allows for light charged particles and light fragments (Z < 10) identiflcation in a broad kinetic energy range from the coulomb barrier up to tens of MeV/nucleons. After a brief discussion of the experimental methodology used in the detector to identify the particles some relevant applications in the fleld of nuclear reaction studies with stable and exotic beams.