Based on a developed scheme we show how to deal with the centrifugal term and the
Coulombic behavior part and then to solve the Klein-Gordon (KG) equation for the linear …

In this work, we study an approximate bound state solution of a 2D Schrodinger equation
under the influence of external magnetic and Aharonov–Bohm (AB) fields with Hellmann …

In this research article, the modified approximation to the centrifugal barrier term is applied
to solve an approximate bound state solutions of Dirac equation for spin and pseudospin …

Within the framework of the modified factorization method, we solve the Schrödinger
equation with the modified Yukawa potential. The energy spectrum is obtained using the …

In this work, we applied the Nikiforov-Uvarov (NU) method to calculate the bound state
energies for two diatomic molecules such as Carbon (II) Oxide (CO) and Scandium Flouride …

The relativistic wave equations determine the dynamics of quantum fields in the context of
quantum field theory. One of the conventional tools for dealing with the relativistic bound …

In this study, we apply the parametric Nikiforov-Uvarov method to obtain the bound state
solution of Schrödinger wave equation in the presence of Kratzer plus generalized Morse …

The study presents approximate solutions of Schrodinger equation with the Inversely
quadratic Hellmann-Kratzer (IQHK) potential. The energy eigenvalues and corresponding …

In the research, a quantum dot (QD) under an external magnetic field is theoretically
investigated. The confining potential applied to the charge carriers is chosen as the Frost …

In the paper, the electronic properties of a quantum dot (QD) using the Frost–Musulin
potential model are investigated taking into account both an external magnetic field and …