Gravito-magnetic monopoles in traversable wormholes from WIMT

TL;DR

This paper investigates gravito-magnetic monopoles in traversable wormholes using WIMT, revealing dualities between electric and magnetic charges and quantizing monopole densities within a 5D extended spacetime.

Contribution

It introduces a novel application of WIMT to analyze gravito-magnetic monopoles in wormholes and explores their quantization and duality with electric sources.

Findings

Detection of gravito-magnetic monopoles inside wormholes

Quantization of monopole densities in Dirac sense

Duality between electric and magnetic charges in extended spacetime

Abstract

Using Weitzenb\"ock Induced Matter Theory (WIMT), we study Schwarzschild wormholes performing different foliations on an extended (non-vaccuum) 5D manifold. We explore the geodesic equations for observers which are in the interior of a traversable wormhole and how these observers can detect gravito-magnetic monopoles which are dual to gravito-electric sources observed in the outer zone of some Schwarzschild Black-Hole (BH). The densities of these monopoles are calculated and quantized in the Dirac sense. This kind of duality on the extended Einstein-Maxwell equations, relates electric and magnetic charges on causally disconnected space regions.