Inelastic electron scattering form factors involving the second excited2+levels in the nucleiTi48andCr50

Abstract

A microscopic description of the recent data on the Coulomb form factors for the $0_{\mathrm{g}.\mathrm{s}.\mathrm{}{}^{+}\to 2_2^{+}}$ transitions in the nuclei ${}_{}{}^{48}{}_{}{}^{}\mathrm{Ti}$ and ${}_{}{}^{50}{}_{}{}^{}\mathrm{Cr}$ is attempted in terms of the prolate and oblate intrinsic states resulting from realistic effective interactions operating in the 2p-1f shell. The results for the higher momentum-transfer region show significant improvements compared to the form factor estimates obtained in some recent shell model calculations involving the $f_{7/2}^n$+$f_{7/2}^{n\mathrm{-}1}$ $p_{3/2}$ configurations.