New determination of proton spectroscopic factors and reduced widths for 8Be states in the 16.5-18.0 MeV excitation energy region via the study of the 7Li(3He,d)8Be transfer reaction at Elab =\ 20 MeV

Abstract

The angular distributions of 8Be states in the excitation energy region, Ex \ (16.5-18.2) MeV, produced in the 7Li(3% He,d)8Be proton transfer reaction have been measured at the Orsay 14.8-MV tandem accelerator for 3He2+ ion bombarding energy, Elab =20 MeV, and forward anglular range, θlab=5-50. A high energy resolution detection system composed of a split-pole magnetic spectrometer and a E-E,\ position-sensitive drift chamber was used to record the energy spectra of outgoing deuterons. The measured cross section data for the direct reaction component have been separated from the compound nucleus one, then analyzed in the framework of the non local, FR-DWBA theory. New values of the C2S and (Sp1/2, Sp3/2) proton absolute and partial spectroscopic factors and related γp2(a)\ proton reduced widths versus the p + 7Li channel radius have been extracted for the 2+(16.626) and 2+(16.922),T=0+1 isospin-mixed loosely bound states of astrophysical interest and the 1+(17.640), T=1 unbound state of 8Be. They are compared to sparse earlier experimental values and to shell-model predicted ones from the literature, and are discussed. In particular, the status of the spectroscopic information on the 2+ isospin-mixed doublet is reviewed and up-dated. The application in nuclear astrophysics of the DWBA derived results is emphasised.