The energy levels of deformed nuclei could be determined by Nilsson model. In this model the deformation of a nucleus has an axial symmetry, but we have considered the energy levels of a non-spherical nucleus as an elliptic form, and solved it by a degenerate first order perturbation method. The original Hamiltonian is a mixture of Spherical Shell Model Hamiltonian and a perturbation term. We have solved this Hamiltonian with the quantum numbers corresponding to Nilsson model-parameters and deformed 3-axial model for the values of , then we obtained the corresponding energy levels and plot them.
M. Farhad Rahimi, , Vahid Mirzaei, and Rahim Khabaz, (2019). Study of solid-liquid phase transition using the modified weighted density approximation of inhomogeneous hard sphere systems. Iranian Journal of Physics Research, 7(3), 137-146.
MLA
M. Farhad Rahimi, , , Vahid Mirzaei, , and Rahim Khabaz, . "Study of solid-liquid phase transition using the modified weighted density approximation of inhomogeneous hard sphere systems", Iranian Journal of Physics Research, 7, 3, 2019, 137-146.
HARVARD
M. Farhad Rahimi , Vahid Mirzaei , Rahim Khabaz (2019). 'Study of solid-liquid phase transition using the modified weighted density approximation of inhomogeneous hard sphere systems', Iranian Journal of Physics Research, 7(3), pp. 137-146.
CHICAGO
M. Farhad Rahimi, Vahid Mirzaei and Rahim Khabaz, "Study of solid-liquid phase transition using the modified weighted density approximation of inhomogeneous hard sphere systems," Iranian Journal of Physics Research, 7 3 (2019): 137-146,
VANCOUVER
M. Farhad Rahimi , Vahid Mirzaei , Rahim Khabaz Study of solid-liquid phase transition using the modified weighted density approximation of inhomogeneous hard sphere systems. Dear user; Recently we have changed our software to Sinaweb. If you had already registered with the old site, you may use the same USERNAME but you need to change your password. To do so at the first use, please choose, 2019; 7(3): 137-146.
