Internuclear potentials from the Sky3D code

Abstract: This note presents a minor alteration to, and subsequent use of, the Sky3D nuclear time-dependent Hartree–Fock code to calculate ion-ion potentials in the Frozen Hartree–Fock approximation. An example of 16O + 16O is presented.

“…The method and programming details to calculate the nucleus-nucleus potential by using the FHF approximation can be found in Ref. [57]. The fusion barrier is found to be V B =151.89, 158.40, 163.96 MeV for the reactions of 58 Ni with 106 Cd, 112 Sn, and 124 Xe, respectively, which becomes higher with the increase of mass number of target nuclei as expected.…”

Production of proton-rich nuclei in the vicinity of 100Sn via multinucleon transfer reactions

“…The method and programming details to calculate the nucleus-nucleus potential by using the FHF approximation can be found in Ref. [57]. The fusion barrier is found to be V B =151.89, 158.40, 163.96 MeV for the reactions of 58 Ni with 106 Cd, 112 Sn, and 124 Xe, respectively, which becomes higher with the increase of mass number of target nuclei as expected.…”

Production of proton-rich nuclei in the vicinity of 100Sn via multinucleon transfer reactions

“…density-constrained-TDHF [19] in which the dynamic deformation of the nuclei as they are brought close together is included. We use the FHF implementation as described in [20].…”

Mean-field simulations of Es-254 + Ca-48 heavy-ion reactions