Metric-Field Approach to Gravitation and the Problem of the Universe Acceleration

TL;DR

This paper introduces a metric-field approach to gravitation that explains universe acceleration without singularities, supported by tests on binary pulsars and implications for supermassive objects.

Contribution

It proposes a bimetric gravitational theory dependent on measurement instruments, providing solutions without event horizons and explaining universe acceleration.

Findings

Binary pulsar PSR1913+16 tested the equations.

Spherically symmetric solutions lack event horizons.

Finite proper energy for point particles.

Abstract

A metric-field approach to gravitation is presented. It is based on an idea of dependency of space-time properties on measuring instruments. Some bimetric equations that realize this idea are considered. They were tested by the binary pulsar PSR1913+16. The spherically - symmetric solution of the equations has no event horizon and no physical singularity in the center. The proper energy of a point particle is finite. There can exist supermassive compact configurations of degenerated Fermi-gas which can be identified with observed objects in galactic centers. The problem of the Universe acceleration has a natural explanation.