The Prevention of Singularities Inside Black Holes

TL;DR

This paper argues that quantum effects prevent the formation of singularities inside black holes by showing that particles form bound states rather than collapsing into a point, challenging the classical view of singularities.

Contribution

It introduces a quantum mechanical model demonstrating that matter inside black holes does not form singularities but remains in bound states, a novel perspective on gravitational collapse.

Findings

Particles form bound states inside black holes.

Quantum effects prevent matter from collapsing into a singularity.

Black hole interiors may avoid singularities due to quantum mechanics.

Abstract

In this paper the currently held view that the endpoint of gravitational collapse is a singularity is refuted. A quantum mechanical calculation is done showing that spin 0 and spin 1/2 particles inside a black hole's schwarzschild radius aren't confined to an infinitesimal point but form bound state orbits. As with the case of electric collapse, if an electron cannot spiral into a nucleus, then neither does this happen in plasma consisting of many electrons and nuclei. Showing that after undergoing gravitational collapse, like plasma, matter will not contract to an infinitesimal point. That quantum effects prevent singularity formation.