Seniority-two valence-shell building blocks of the octupole phonon

Abstract

The relative ordering of J- levels of multiplets resulting from two-body excitations, which include a Jπ=3- state that can contribute to the octupole phonon, are investigated in a simplistic shell-model approach. To calculate the relative level ordering, harmonic oscillator wavefunctions and a residual δ interaction are used. The simplistic approach confirms for the particle-particle channel, the often stated preference of the j=3, l =3 subshell combination over the j=3, l =1 subshell combination through an enhanced energy gain. Furthermore, it is shown that, in the particle-hole channel, the gain is less pronounced for the j=3, l =3 subshell configuration. In combination with the overall structure of an oscillator shell, these results explain the comparatively low excitation energy for 3-1 excitations observed for the octupole-soft proton and neutron numbers predicted by various models.