Global properties of proton-hole strengths in mass 54 to 70 nuclei.

Abstract

A vector-polarized deuteron beam of 52 MeV was used to excite proton hole states via the [sup 66]Zn([ital [rvec d]],[sup 3]He)[sup 65]Cu reaction. From the measured angular distributions of differential cross sections [sigma]([Theta]) and analyzing powers [ital iT][sub 11]([Theta]) we determined spins and parities of a number of individual low-lying levels in [sup 65]Cu and the hole strength distribution for [ital E][sub [ital x]][lt]19 MeV. Relative proton occupancies, single-particle energies, the shape of the Fermi surface, and spreading widths for various orbitals are presented as a result of combined analysis with proton stripping reactions on [sup 66]Zn. A corresponding analysis of previous proton pickup and stripping experiments on [sup 54,56,58]Fe, [sup 58,60,62,64]Ni, [sup 64]Zn, and [sup 70]Ge shows systematic [ital A]-dependent features of these integral properties of the spectra.