Rotational and vibrational diatomic molecule in the Klein-Gordon equation with hyperbolic scalar and vector potentials

Details Rotational and vibrational diatomic molecule in the Klein-Gordon equation with hyperbolic scalar and vector potentials Rotational and vibrational diatomic molecule in the Klein-Gordon equation with hyperbolic scalar and vector potentials

2009-05-18

arxiv.org/abs/0905.2867v1

Int. J. Mod. Phys. C 20 (10) (2009)

Physics

Quantum Physics

25 pages, 2 Figures

Scientific paper

We present an approximate analytic solution of the Klein-Gordon equation in the presence of equal scalar and vector generalized deformed hyperbolic potential functions by means of parameteric generalization of the Nikiforov-Uvarov method. We obtain the approximate bound state rotational-vibrational (ro-vibrational) energy levels and the corresponding normalized wave functions expressed in terms of the Jacobi polynomial for a spin-zero particle in a closed form. Special cases are studied including the non-relativistic solutions obtained by appropriate choice of parameters and also the s-wave solutions.

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