Scalar bosons under the influence of noninertial effects in the cosmic string spacetime

TL;DR

This paper investigates how noninertial effects influence scalar bosons in cosmic string spacetime, revealing restrictions on particle placement, energy level shifts, and the formation of bound states with Coulomb-like potentials.

Contribution

It presents new solutions to the Klein-Gordon equation considering noninertial effects and scalar potentials in cosmic string spacetime, highlighting their impact on particle behavior.

Findings

Noninertial effects restrict the physical region for particles.

Energy levels are shifted due to noninertial effects.

Bound states form with Coulomb-like scalar potentials.

Abstract

In this paper we present two different classes of solutions for the Klein-Gordon equation in the presence of a scalar potential under the influence of noninertial effects in the cosmic string spacetime. We show that noninertial effects restrict the physical region of the spacetime where the particle can be placed, and furthermore that the energy levels are shifted by these effects. In addition, we show that the presence of a Coulomb-like scalar potential allows the formation bound states when the Klein-Gordon equation is considered in this kind of spacetime.