Scalar bosons in Bonnor-Melvin-$\Lambda$ universe: Exact solution, Landau levels and Coulomb-like potential

TL;DR

This paper derives exact solutions for scalar particles in a Bonnor-Melvin universe with a cosmological constant, analyzing Landau levels and potential effects, with implications for stellar models.

Contribution

It provides an exact analytical solution for Klein-Gordon particles in a combined magnetic and cosmological constant background, including Landau levels and potential effects.

Findings

Explicit Landau level spectrum derived

Effects of scalar and vector potentials analyzed

Observable influences of parameters discussed

Abstract

In this work, we study spin-0 particles in a spacetime whose structure is determined by a homogeneous magnetic field and a cosmological constant. For this purpose, we take into account a framework based on the Bonnor-Melvin solution with the inclusion of the cosmological constant. We write the Klein-Gordon equation, solve it, and determine the Landau levels. The effects of scalar and vector potentials are considered, and we investigate the influence of the parameters of the theory on the results, which present observable effects. The implications of the physics of a stellar model based on this framework are also discussed.