Microscopic description of the fusion excitation function of 32,36S+90,94,96Zr

Abstract: The fusion excitation function for the systems [Formula: see text]S+[Formula: see text]Zr is investigated using a microscopic internuclear potential derived from Skyrme energy density functional. The inputs in this approach are the proton and neutron density distributions of the interacting nuclei, which are derived from Skyrme–Hartree–Fock calculations. The SkM[Formula: see text] interaction is used in the calculation of the nuclear densities as well as the internuclear potential. The coupling to low lying in… Show more

“…Fusion mechanisms of heavy-ion interactions have attracted big attention experimentally and theoretically as they reveal the interaction between the nuclear structure and reaction mechanisms [1][2][3][4]. Fusion processes at energies near the Coulomb barrier can be considered as a multidimensional barrier penetration problem [5][6][7][8]. The multidimensional barrier penetration part can be explained by disentangling the coupled channel (CC) model equations [9][10][11][12][13].…”

Theoretical Inspecting of ²¹¹At Radionuclide via Coupled-Channel Model for Fusion Reaction of Stable Nuclei

“…Fusion mechanisms of heavy-ion interactions have attracted big attention experimentally and theoretically as they reveal the interaction between the nuclear structure and reaction mechanisms [1][2][3][4]. Fusion processes at energies near the Coulomb barrier can be considered as a multidimensional barrier penetration problem [5][6][7][8]. The multidimensional barrier penetration part can be explained by disentangling the coupled channel (CC) model equations [9][10][11][12][13].…”

Theoretical Inspecting of ²¹¹At Radionuclide via Coupled-Channel Model for Fusion Reaction of Stable Nuclei