Electromagnetic Beams Overpass the Black Hole Horizon

TL;DR

This paper demonstrates that electromagnetic beams aligned with a Kerr black hole can penetrate the horizon, creating holes that allow matter and information to escape, challenging traditional views on black hole information loss.

Contribution

It introduces a novel mechanism where electromagnetic excitations can form light-like beams that overcome the black hole horizon, based on analytically special solutions.

Findings

Electromagnetic beams can form holes in the black hole horizon.

These beams enable matter and information to escape from inside.

The effect relies on the analyticity of algebraically special solutions.

Abstract

We show that the electromagnetic excitations of the Kerr black hole have very strong back reaction on metric. In particular, the electromagnetic excitations aligned with the Kerr congruence form the light-like beams which overcome horizon, forming the holes in it, which allows matter to escape interior. So, there is no information lost inside the black hole. This effect is based exclusively on the analyticity of the algebraically special solutions.