Noninertial effects on the quantum dynamics of scalar bosons

TL;DR

This paper investigates how rotating frames and cosmic string backgrounds influence the quantum behavior, energy spectrum, and localization of scalar bosons described by the DKP formalism, revealing combined noninertial and topological effects.

Contribution

It introduces a detailed analysis of scalar bosons in rotating cosmic string backgrounds using the DKP formalism, highlighting the combined effects on quantum dynamics and localization.

Findings

Rotating frames modify the energy spectrum of scalar bosons.

Cosmic strings induce topological effects on quantum states.

Rotation affects the localization properties of scalar bosons.

Abstract

The noninertial effect of rotating frames on the quantum dynamics of scalar bosons embedded in the background of a cosmic string is considered. In this work, scalar bosons are described by the Duffin--Kemmer--Petiau (DKP) formalism. Considering the DKP oscillator in this background the combined effects of a rotating frames and cosmic string on the equation of motion, energy spectrum and DKP spinor are analyzed and discussed in detail. Additionally, the effect of rotating frames on the scalar bosons localization is studied.