Complementary Relativity

TL;DR

This paper extends special relativity to noninertial frames, introducing a cosmological field that complements gravity and could explain dark matter and high-energy phenomena in the universe.

Contribution

It proposes a new momentum-energy metric as a dynamical quantity in noninertial frames, linking it to a cosmological field that accounts for dark matter and energetic astrophysical objects.

Findings

The cosmological field varies inversely with gravity.

It could explain the existence of dark matter.

It accounts for high luminous energies in active galactic nuclei.

Abstract

Special theory of relativity has been formulated in a vacuum momentum-energy representation which is equivalent to Einstein special relativity and predicts just the same results as it. Although in this sense such a formulation would be at least classically useless, its consistent extension to noninertial frames produces a momentum-energy metric which behaves as a new dynamical quantity that is here interpreted in terms of a cosmological field. This new field would be complementary to gravity in that its strength varies inversely to as that of gravity does. Using a strong-field approximation, we suggest that the existence of this cosmological field would induce a shift of luminous energy which could justify the existence of all the assumed invisible matter in the universe, so as the high luminousities found in active galactic nuclei and quasars.