Add to ORKGThe generalized Bohr Hamiltonian is applied to a description of low-lying collective excitations in even-even isotopes of Te, Xe, Ba, Ce, Nd and Sm. The collective potential and inertial functions are determined by means of the Strutinsky method and the cranking model, respectively. A shell-dependent parametrization of the Nilsson potential is used. An approximate particle-number projection is performed in treatment of pairing correlations. The effect of coupling with the pairing vibrations is taken into account approximately when determining the inertial functions. The calculation does not contain any free parameter
The quadrupole collective Hamiltonian, based on relativistic energy density functionals, is extended...
We explore the Generalised Bohr Hamiltonian (GBH) approach in describing various nuclear observables...
A systematic study of low energy nuclear structure at normal deformation is carried out using the Ha...
We present an attempt to describe low lying quadrupole collective excitations within the frame of th...
Collective low-lying levels of light and medium xenon isotopes are deduced from the Generalized Bohr...
Quadrupole excitations of even-even Ru and Pd isotopes are described within microscopic approach bas...
The collective states of 126Xe, 128Xe, 130Xe, and 130Be, 52<z, N≤116 are studied using Bohr's Collec...
We present results of a calculation of the low-lying collective quadrupole states in even-even nucle...
We present an attempt to describe collective quadrupole excitations in medium heavy transitional nuc...
PTHWe present a study of the collective quadrupole excitations in some medium heavy transitional nuc...
It is shown that an efficient yet very simple way of adjusting the intensity of a zero-range (δ) pai...
Isotope shifts of the mean square radii (MSR) and electric quadrupole moments of even-even nuclei wi...
We present a microscopic analysis of the collective behaviour of the lead isotopes in the vicinity o...
Microscopic energy density functionals have become a standard tool for nuclear structure calculation...
We build microscopically a collective quadrupole Bohr hamiltonian in Hatree-Fock approximation. We s...
The quadrupole collective Hamiltonian, based on relativistic energy density functionals, is extended...
We explore the Generalised Bohr Hamiltonian (GBH) approach in describing various nuclear observables...
A systematic study of low energy nuclear structure at normal deformation is carried out using the Ha...
We present an attempt to describe low lying quadrupole collective excitations within the frame of th...
Collective low-lying levels of light and medium xenon isotopes are deduced from the Generalized Bohr...
Quadrupole excitations of even-even Ru and Pd isotopes are described within microscopic approach bas...
The collective states of 126Xe, 128Xe, 130Xe, and 130Be, 52<z, N≤116 are studied using Bohr's Collec...
We present results of a calculation of the low-lying collective quadrupole states in even-even nucle...
We present an attempt to describe collective quadrupole excitations in medium heavy transitional nuc...
PTHWe present a study of the collective quadrupole excitations in some medium heavy transitional nuc...
It is shown that an efficient yet very simple way of adjusting the intensity of a zero-range (δ) pai...
Isotope shifts of the mean square radii (MSR) and electric quadrupole moments of even-even nuclei wi...
We present a microscopic analysis of the collective behaviour of the lead isotopes in the vicinity o...
Microscopic energy density functionals have become a standard tool for nuclear structure calculation...
We build microscopically a collective quadrupole Bohr hamiltonian in Hatree-Fock approximation. We s...
The quadrupole collective Hamiltonian, based on relativistic energy density functionals, is extended...
We explore the Generalised Bohr Hamiltonian (GBH) approach in describing various nuclear observables...
A systematic study of low energy nuclear structure at normal deformation is carried out using the Ha...