Non-Singular Gravity Without Black Holes

TL;DR

This paper presents a non-singular, static spherically symmetric solution in a nonsymmetric gravitational theory, proposing a stable superdense object that replaces black holes and avoids singularities.

Contribution

It introduces a new class of regular solutions in nonsymmetric gravitational theory that eliminate black holes and singularities, offering an alternative compact object.

Findings

All curvature invariants are finite in the solution.

No null surfaces or black holes are present.

The solution describes a stable, superdense object.

Abstract

A non-singular, static spherically symmetric solution to the nonsymmetric gravitational and electromagnetic theory field equations is derived, which depends on the four parameters m, l^2, Q and s, where m is the mass, Q is the electric charge, l^2 is the NGT charge of a body and s is a dimensionless constant. The electromagnetic field invariants are also singularity-free, so that it is possible to construct regular particle-like solutions in the theory. All the curvature invariants are finite, there are no null surfaces in the spacetime and there are no black holes. A new stable, superdense object (SDO) replaces black holes.