Study of Nuclear Structure of 18F Isotope by using PW and CWH Interactions

Abstract: In this study, the energy levels of the 18F and electrical transitions B(E2) were calculated by applying the shell model where the calculations were carried out in the SD model space and using the OXBASH code. The theoretical results were compared with the experimental.

“…This Hamiltonian model space can be described in two ways: the first method is "veritable", which is created for a given shell-model space from known data on the free nucleonnucleon force, the second method is "experimental", which is dependent on parameters whose values are determined by stipulating the agreement between measured level energies and shell-model eigenvalues (Abed, 2019). In this model protons and neutrons move all active single particle orbits with three constraints, Isospin, Angular momentum and Parity, (Mohammadi & Sirjani, 2015;Hasan & Zayed, 2019).…”

Study of Nuclear Structure for 36Si Isotope by Using Shell Model with Several Interactions

“…This Hamiltonian model space can be described in two ways: the first method is "veritable", which is created for a given shell-model space from known data on the free nucleonnucleon force, the second method is "experimental", which is dependent on parameters whose values are determined by stipulating the agreement between measured level energies and shell-model eigenvalues (Abed, 2019). In this model protons and neutrons move all active single particle orbits with three constraints, Isospin, Angular momentum and Parity, (Mohammadi & Sirjani, 2015;Hasan & Zayed, 2019).…”

Study of Nuclear Structure for 36Si Isotope by Using Shell Model with Several Interactions