Bound states of the D-dimensional Schr\"odinger equation for the generalized Woods-Saxon potential

Abstract

In this paper, the approximate analitical solutions of the hyper-radial Schr\"odinger equation are obtained for the generalized Wood-Saxon potential by implementing the Pekeris approximation to surmount the centrifugal term. The energy eigenvalues and corresponding hyper-radial wave functions are found for any angular momentum case via the Nikiforov-Uvarov (NU) and Supersymmetric quantum mechanics (SUSY QM) methods. Hence, the same expressions are obtained for the energy eigenvalues, and the expression of hyper-radial wave functions transformed each other is shown owing to these methods. Furthermore, a finite number energy spectrum depending on the depths of the potential well V0 and W, the radial nr and l orbital quantum numbers and parameters D,a,R0 are also identified in detail. Finally, the bound state energies and the corresponding normalized hyper-radial wave functions for the neutron system of the a 56 Fe nucleus are calculated in D=2 and D=3, as well as the energy spectrum expressions of other highest dimensions are identified by using the energy spectrum of D=2 and D=3.