Add to ORKG© 2020 American Physical Society. Background: Several collective low-lying states are observed in Zr96 whose properties, which include excitation energies and E2, E0, and M1 transition probabilities, indicate that some of them belong to the spherical state and the other to deformed states. A consideration of these data in the full framework of the geometrical collective Model with both intrinsic shape variables, β and γ, and rotational degrees of freedom is necessary for Zr96. Purpose: We investigate the properties of the low-lying collective states of Zr96 based on the five-dimensional geometrical collective model including triaxiality as an active degree of freedom. Method: The quadrupole-collective Bohr Hamiltonian, depending on both β a...
We build microscopically a collective quadrupole Bohr hamiltonian in Hatree-Fock approximation. We s...
International audienceWe analyze the quadrupole-octupole collective states based on the microscopic ...
Microscopic energy density functionals have become a standard tool for nuclear structure calculation...
© 2019 American Physical Society. Experimental data on Zr96 indicate coexisting spherical and deform...
The observed properties of the low-lying collective states of $^{96}$Zr are investigated within the ...
We report on a seven-dimensional generator coordinate calculation in the two deformation parameters ...
The quadrupole collective Hamiltonian, based on relativistic energy density functionals, is extended...
In recent years, a number of both theoretical and experimental investigations have been performed fo...
Low-lying quadrupole shape dynamics is a typical manifestation of large amplitude collective motion ...
The rapid structural change in low-lying collective excitation states of neutron-rich Sr and Zr isot...
The generalized Bohr Hamiltonian is applied to a description of low-lying collective excitations in ...
In a new application of the algebraic interacting vector boson model (IVBM), we exploit the reductio...
In recent years, a number of both theoretical and experimental investigations have been performed fo...
We analyze the quadrupole-octupole collective states based on the microscopic energy density functio...
The microscopic dynamics of oblate-prolate shape coexistence/mixing phenomena in 68Se and 72Kr are s...
We build microscopically a collective quadrupole Bohr hamiltonian in Hatree-Fock approximation. We s...
International audienceWe analyze the quadrupole-octupole collective states based on the microscopic ...
Microscopic energy density functionals have become a standard tool for nuclear structure calculation...
© 2019 American Physical Society. Experimental data on Zr96 indicate coexisting spherical and deform...
The observed properties of the low-lying collective states of $^{96}$Zr are investigated within the ...
We report on a seven-dimensional generator coordinate calculation in the two deformation parameters ...
The quadrupole collective Hamiltonian, based on relativistic energy density functionals, is extended...
In recent years, a number of both theoretical and experimental investigations have been performed fo...
Low-lying quadrupole shape dynamics is a typical manifestation of large amplitude collective motion ...
The rapid structural change in low-lying collective excitation states of neutron-rich Sr and Zr isot...
The generalized Bohr Hamiltonian is applied to a description of low-lying collective excitations in ...
In a new application of the algebraic interacting vector boson model (IVBM), we exploit the reductio...
In recent years, a number of both theoretical and experimental investigations have been performed fo...
We analyze the quadrupole-octupole collective states based on the microscopic energy density functio...
The microscopic dynamics of oblate-prolate shape coexistence/mixing phenomena in 68Se and 72Kr are s...
We build microscopically a collective quadrupole Bohr hamiltonian in Hatree-Fock approximation. We s...
International audienceWe analyze the quadrupole-octupole collective states based on the microscopic ...
Microscopic energy density functionals have become a standard tool for nuclear structure calculation...