Self-gravitational red shift effect and micro-black holes production in dipolar electromagnetic sources

TL;DR

This paper predicts a self-gravitational red-shift effect in high-energy electromagnetic sources, proposing that above a certain energy threshold, sources collapse into micro-black holes that could contribute to dark matter.

Contribution

It introduces a novel prediction of a self-gravitational red-shift effect and the formation of micro-black holes from high-energy electromagnetic interactions using Bridge Theory.

Findings

Predicted an upper limit in the electromagnetic spectrum due to self-gravitational effects.

Proposed that sources exceeding a specific energy threshold collapse into micro-black holes.

Suggested micro-black holes as potential dark matter candidates.

Abstract

Using Bridge Theory to describe the electromagnetic interactions occurring between high energy pairs of particles, we predict an anomalous self-gravitational red-shift in the frequency of the EM source produced during the interaction. The extreme consequence is the introduction of an upper limit in the electromagnetic spectrum. Hypothesizing a scattering energy greater than 5.55 10^22 Mev,the source collapses under his events horizon, becoming a neutral spin less micro-black hole: perfect candidates to contribute to the dark matter of the Universe.