Author(s)

K. A. Kharroube

Mathematics Department, Faculty of Science, Lebanese University, Beirut, Lebanon.

The Cranking Nilsson model is applied to calculate the single-particle energy eigenvalues and eigenfunctions of nuclei in a strongly deformed potential. Accordingly, The L. D. Energy, the Strutinsky inertia, the L. D. inertia, the volume conservation factor , the smoothed energy, the BCS energy, the G-value and the electric quadrupole moment of the five uranium isotopes: ²³⁰U, ²³²U, ²³⁴U, ²³⁶U and ²³⁸U are calculated as functions of the deformation parameter. Furthermore, the single-particle Schrodinger fluid is applied to calculate the rigid-body model, the cranking-model and the equilibrium-model moments of inertia of the five uranium isotopes. Moreover, the collective model is applied to calculate the rotational energies of these isotopes. The best potential and deformation parameters are also given.

Deformed Nuclei, Cranked Nilsson Model, Single-Particle Schrödinger Fluid, Collective Model, Quadrupole Moment, Moment of Inertia, Rotational Energy Levels, Uranium Isotopes

Kharroube, K. (2017) Study of Even ^230-238U Isotopes by Using Cranked Nilsson Model, Single Particle Schrodinger Fluid and Collective Model. Open Journal of Microphysics, 7, 36-52. doi: 10.4236/ojm.2017.72003.