Mapped spdf interacting boson model for quadrupole-octupole collective states in nuclei

Abstract

Dipole bosons are introduced in the interacting boson model (IBM) by means of the self-consistent mean-field method. The constrained mean-field calculations employing a given nuclear energy density functional yield the potential energy surfaces in terms of the axially-symmetric quadrupole-octupole, dipole-quadrupole, and dipole-octupole deformations. By mapping these energy surfaces onto the expectation values of the IBM Hamiltonian in the coherent state of the interacting s, p, d, and f bosons, strength parameters of the spdf-IBM Hamiltonian are determined. In an illustrative application to octupole-deformed actinides 218-230Ra and 220-232Th, it is shown that effects of including p bosons in the IBM mapping are to lower significantly negative-parity yrast levels, and to improve descriptions of observed energy-level systematic in nearly spherical and transitional nuclei, and of the behaviors of the reduced electric dipole transitions and intrinsic dipole moments with neutron number.