Electromagnetic Fields of Charged and Magnetized Cylindrical Conductors in NUT Space

TL;DR

This paper derives analytic solutions for electromagnetic fields around charged, magnetized cylindrical conductors in NUT space, revealing unique general relativistic magnetic fields absent in Newtonian physics.

Contribution

It provides the first analytic solutions for Maxwell equations in NUT spacetime with cylindrical conductors, highlighting novel relativistic magnetic field effects.

Findings

Magnetic fields are modified by NUT spacetime effects.

A purely relativistic magnetic field is generated without Newtonian counterparts.

Analytic solutions demonstrate the influence of gravitomagnetic monopoles on electromagnetic fields.

Abstract

We present analytic solutions of Maxwell equations for infinitely long cylindrical conductors with nonvanishing electric charge and currents in the external background spacetime of a line gravitomagnetic monopole. It has been shown that vertical magnetic field arising around cylindrical conducting shell carrying azimuthal current will be modified by the gravitational field of NUT source. We obtain that the purely general relativistic magnetic field which has no any Newtonian analog will be produced around charged gravitomagnetic monopole.