Author:
Cinausero M,Dell’Aquila D,Lombardo I,Vigilante M,Barlini S,Bolzonella R,Bruno M,Buccola A,Cartuan S,Casini G,Cicerchia M,D’Andrea M,Degerlier M,Fabris D,Gasques L,Gramegna F,Lepine-Szily A,Mantovani G,Marchi T,Piantelli S,Rigato V,Scomparin L,Valdrè S
Abstract
Abstract
The 32S(3He,d)33Cl one-proton transfer reaction is a powerful tool to investigate the spectroscopy of low-lying states in the proton-rich 33Cl nucleus. However, the extraction of firm differential cross-section data at various angles, against which benchmarking theoretical models to correctly constrain the spectroscopy of 33Cl, is made challenging by the presence of competitive reaction products contaminating the detected energy spectra. We have recently measured the 32S(3He,d)33Cl reaction at 9.8 MeV incident energy by using a new generation hodoscope of silicon detectors, capable to detect and identify emitted deuterons down to energies of the order of 2 MeV. The high angular segmentation of our hodoscope allowed to unambiguously disentangle the contribution of one-proton transfer reactions in the ground state of 33Cl and in its 0.810 MeV, 2.352 MeV, 2.685 MeV, 2.846 MeV excited states from contaminant deuteron-emitting reactions. These data will be crucial to help to constrain Jπ
and spectroscopic factor C
2
Sp
values of low-lying 33Cl states, still ambiguous in the literature. The present status of the analysis is discussed in the paper.
Subject
General Physics and Astronomy