Effects of Anomalous Magnetic Moment in the Quantum Motion of Neutral Particle in Magnetic and Electric Fields Produced by a Linear Source in a Conical Spacetime

TL;DR

This paper investigates how the anomalous magnetic moment influences the quantum behavior of a neutral particle in magnetic and electric fields generated by linear sources within a conical spacetime, highlighting the interplay between quantum effects and spacetime geometry.

Contribution

It provides a novel analysis of the impact of anomalous magnetic moments on neutral particles in specific field configurations within conical spacetime, extending previous studies to include geometric effects.

Findings

The anomalous magnetic moment significantly affects particle motion.

Quantum effects are modified by the conical spacetime geometry.

Results suggest potential observable consequences in similar physical setups.

Abstract

In this paper we analyse the effect of the anomalous magnetic moment on the non-relativistic quantum motion of a neutral particle in magnetic and electric fields produced by linear sources of constant current and charge density, respectively.