Approximate bound state solutions of Dirac equation with Hulth\'en potential including Coulomb-like tensor potential

Abstract

We solve the Dirac equation approximately for the attractive scalar S(r) and repulsive vector V(r) Hulth\'en potentials including a Coulomb-like tensor potential with arbitrary spin-orbit coupling quantum number . In the framework of the spin and pseudospin symmetric concept, we obtain the analytic energy spectrum and the corresponding two-component upper- and lower-spinors of the two Dirac particles by means of the Nikiforov-Uvarov method in closed form. The limit of zero tensor coupling and the non-relativistic solution are obtained. The energy spectrum for various levels is presented for several values under the condition of exact spin symmetry in the presence or absence of tensor coupling.