TL;DR
This paper explores the properties of electric charges near magnetic poles in visible and dark matter sectors, revealing angular momentum and black hole characteristics in a dark photon context.
Contribution
It introduces a novel analysis of charge interactions near magnetic poles and black holes within dark photon theory, highlighting unique angular momentum and black hole features.
Findings
System exhibits angular momentum despite charges being at rest.
At large distances, the system resembles a stationary axisymmetric magnetically charged black hole.
Abstract
We scrutinize properties of electrical charges bounded to visible and dark matter sectors, in the vicinity of a magnetic poles of both sectors. It turns out that the considered system has an angular momentum despite the charges are at rest. On the other hand, investigation the behavior of electric charges of visible and hidden sectors held at rest outside a magnetically charged black hole, discloses that even if the electric charge are regarded as perturbations on a spherically symmetric magnetic static black hole in dark photon theory, at large distances it looks like a stationary axisymmetric magnetically charged black hole.
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