Description of some nuclear properties of ruthenium-94 isotope using Gloeckner model space

Abstract

In the current research, several nuclear structure features of ⁹⁴Ru isotope were computed by using Nu Shell X@MSU code. These properties were:[levels energy, spin and parity, transition possibilities for electric quadrupole and magnetic dipole, nuclear moments for electric quadrupole and magnetic dipole as well as the distributions of nuclear charge and nuclear mass density]. An active valance nucleon of ⁹⁴Ru nucleus is occupied Gloeckner (Gl) model space that has the orbits:(2p_1/2, 1g_9/2) with (2d_5/2,3s_1/2) for protons and neutrons above the subshell ending of   nucleus respectively. The calculations were achieved by utilizing Gloeckner interaction and bare g-matrix (Glb); appropriate effective nucleon charge and g-effective factor with Skyrme (sly4) potential were chosen for extracting the radial wave functions for the single-particle matrix elements for the isotope mentioned above. The results demonstrated that there have been properly compatible energy levels with the experimental   data on the studied nuclear properties; the spins and parity have confirmed some experimental levels. On the other hand, for some experimental energies have assigned the total angular momentum and the parity. Another good agreement was notcied for dipole-magnetic moments of ⁹⁴Ru isotope with the experimental    values. These results have expected new values for the above mentioned properties that were not Experimentally specified before.