We successfully obtained the complete exact solution of the Duffin–Kemmer–Petiau
oscillator (DKPO) for spin-1 bosons in (1+ 2)-dimensional space time using a 10× 10 …

We study the relativistic quantum dynamics of a DKP oscillator field subject to a linear
interaction in cosmic string space-time in order to better understand the effects of …

In this paper, we have studied the Dirac equation in 3+ 1 dimensions with non-minimal
coupling to isotropic radial linear potential in the presence of static electromagnetic …

The scattering state of the Duffin-Kemmer-Petiau equation with the Varshni potential was
studied. The asymptotic wave function, the scattering phase shift and normalization constant …

The Schrödinger equation under the Manning-Rosen potential is solved in arbitrary
dimension via the quantum mechanical idea of supersymmetry. The Pekeris approximation …

The eigensolutions of massive spin-0 and spin-1 particles of a Dirac oscillator in an external
magnetic field, both in the commutative and noncommutative space, are found by using the …

Exact analytical solutions of the Dirac equation are reported for the Pöschl—Teller double-
ring-shaped Coulomb potential. The radial, polar, and azimuthal parts of the Dirac equation …

Abstract We revisit the (2+ 1)-dimensional DKP oscillator in an external magnetic field by
means of 4× 4 and 6× 6 representations of the DKP field, thus obtaining several cases …

In this paper, we present the solutions of the Dirac equation for the Möbius square potential
with arbitrary spin orbit coupling number κ under quasi-spin and quasi-pseudospin …

This paper explores the topic of relativistic particles with zero spins from a unique
perspective. Our approach is derived from the Dunkl derivative, which we used to investigate …