Attraction and repulsion in spacetime of an electrically charged   mass-point

Angelo Loinger; Tiziana Marsico

arXiv:0907.2895·physics.gen-ph·July 17, 2009·2 cites

Attraction and repulsion in spacetime of an electrically charged mass-point

Angelo Loinger, Tiziana Marsico

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TL;DR

This paper discusses how the Hilbert repulsive effect in the Reissner-Weyl-Nordstroem metric creates an insurmountable barrier for neutral particles and light rays approaching the singular surface.

Contribution

It highlights the role of the Hilbert repulsive effect in the spacetime structure of charged black holes, emphasizing the barrier at the singular surface.

Findings

01

Neutral particles cannot cross the singular surface due to the repulsive effect.

02

Light rays are also repelled, unable to reach the singular surface.

03

The singular surface acts as an insuperable barrier in the spacetime of charged black holes.

Abstract

By virtue of Hilbert repulsive effect, the most external singular surface of Reissner-Weyl-Nordstroem metric represents an insuperable barrier for the arriving neutral particles and light rays.

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Taxonomy

TopicsRelativity and Gravitational Theory · Noncommutative and Quantum Gravity Theories · Advanced Mathematical Theories and Applications