Single-particle calculations in an axially deformed Woods-Saxon potential with Cassinian ovals parametrization of the shape deformation

Published: 1 January 1995| Version 1 | DOI: 10.17632/vy8xz7t4s3.1
Contributors:
E. Garrote,
R. Capote,
R. Pedrosa

Description

Abstract Single-particle energies and wave functions of an axially deformed Woods-Saxon potential are computed. The nuclear shape may be defined in terms of an expansion into spherical harmonics or in terms of Cassinian oval parameterization. The standard liquid drop model constants, effective barriers for the unbound states, single-particle quadrupole moments and g-factors are also calculated. The applied shape parameterization of the potential well allows to generate the single particle orbitals als... Title of program: CASSINI Catalogue Id: ADCL_v1_0 Nature of problem Single-particle energies and wave functions of an axially deformed Woods-Saxon potential are computed. The Hamiltonian used includes the spin-orbit interaction and the Coulomb potential for protons. The nuclear shape may be defined in terms of an expansion into spherical harmonics or in terms of Cassinian oval parameterization. The standard liquid drop model constants, effective barriers for the unbound states, single-particle quadrupole moments and g-factors are also calculated. The applied sha ... Versions of this program held in the CPC repository in Mendeley Data ADCL_v1_0; CASSINI; 10.1016/0010-4655(95)00117-2 This program has been imported from the CPC Program Library held at Queen's University Belfast (1969-2019)

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Nuclear Physics, Computational Physics

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