The medium-to-heavy mass ytterbium isotopes (70 Yb) in the rare-earth mass region are
known to be well-deformed nuclei, which can be populated to very high spins. Spectroscopic …

The structure of even-even neutron-rich Ru, Mo, Zr, and Sr nuclei in the A≈ 100 mass
region is studied within the interacting boson model (IBM) with microscopic input from the …

A systematic analysis of low-lying quadrupole and octupole collective states is presented
based on the microscopic energy density functional framework. By map** the deformation …

An interacting-boson-model-1 (IBM-1) Hamiltonian, derived from self-consistent mean-field
calculations using a Skyrme energy density functional is employed for the study of energy …

The onset of octupole deformation and its impact on related spectroscopic properties is
studied in even-even neutron-rich lanthanide isotopes Xe, Ba, Ce, and Nd with neutron …

The low-energy nuclear structure and two-neutrino double-β (2 ν β β) decay are studied
within the interacting boson model (IBM) that is based on the nuclear energy density …

The hexadecapole deformation, as well as the quadrupole one, influences the low-lying
states of finite nuclei. The hexadecapole correlations are often overshadowed by the large …

Collective quadrupole and octupole states are described in a series of Sm and Gd isotopes
within the framework of the interacting boson model (IBM), whose Hamiltonian parameters …

An interacting-boson-model Hamiltonian determined from Hartree-Fock-Bogoliubov
calculations with the microscopic Gogny energy density functional D1M is applied to the …

A shape phase transition between stable octupole deformation and octupole vibrations in Th
nuclei is analyzed in a microscopic framework based on nuclear density functional theory …