Unified description of odd-mass In nuclei. III. Application toIn119,121

Abstract

We describe the odd-mass indium nuclei $A=119, 121$ within the framework of the unified-model taking into account the coupling of single-hole and one-particle-two-hole proton configurations with quadrupole and octupole vibrations of the underlying core. Besides the energy spectra, spectroscopic factors for pickup and electromagnetic transition properties [branching ratios, $T_{\frac{1}{2}}\left(\frac{1}{2_1^{+}}\right)$; $\delta (\frac{3}{2_1^{-}}\to \frac{1}{2_1^{-}})$] are calculated and compared with experimental data, mainly for ${}_{}{}^{119}{}_{}{}^{}\mathrm{In}$: The yrast structure of the vibrational multiplet states has also been studied in lowest order perturbation theory and in the unified-model description. These calculations are also approached from a deformed zero-order description giving the total potential energy surfaces of all odd-mass In nuclei. Extensive band-mixing calculations produce energy spectra for the $\frac{1}{2^{+}}$ rotational-like band and are used to calculate static moments and transition rates. The equivalence with the former, spherical description is pointed out.