We have considered the improved Tietz potential for diatomic molecules. We have
analytically solved the Schrödinger equation for this potential model and derived the …

We have analytically solved the Klein-Gordon (KG) equation for two different potentials. We
have used the modified Tietz (MT) and the Badawi-Bessis-Bessis (BBB) diatomic molecular …

An approximate solution of the Dirac equation for a spin-1/2 particle under the influence of q-
deformed hyperbolic Pöschl–Teller potential combined with trigonometric Scarf II non …

We propose a generalized improved non-central potential (GINCP) and reconstruct few ring-
shaped and double-ring-shaped potentials earlier solved by different researchers. We …

Exact solutions of the Klein–Gordon equation for a charged particle in the presence of three
spatially varying electromagnetic fields, namely,(i) E→= α β 0 e− α x 2 x^ 2, B→= α β 1 e− α x …

The bound state solutions of the Klein-Gordon (KG) equation are only possible for some
potentials of physical interest [1-5]. These solutions could be exact or approximate and they …

In this paper, solution of the linear version of Klein-Gordon equation is considered via the
application of natural transform combined with decomposition method. Hereafter, referred to …

In this article, the solution of the time-fractional linear Klein-Gordon Equation (TFLKGE) is
considered. This is in combination with Laplace Decomposition Method (LDM) and …

In this paper, the solution of Klein Gordon Equation is sought. Frobenius method was used
to solve the Klein Gordon (KG) equation with equal scalar and vector harmonic oscillator …