Attenuated gravitational radiation

TL;DR

This paper proposes a novel approach to gravitational waves using symmetry transformations, resulting in solutions with exponentially attenuated oscillation amplitudes, potentially advancing gravitational wave modeling.

Contribution

It introduces new field equations and gauge conditions based on symmetry transformations, leading to attenuated gravitational wave solutions within linearized gravity.

Findings

Solutions exhibit exponential attenuation of oscillation amplitudes

New gauge conditions facilitate alternative gravitational wave models

Potential applications in more sophisticated gravitational wave modeling

Abstract

The hypothesis of an alternative way of obtaining gravitational waves is the physical motivation of this article. Using the linear field approximation and a symmetry transformation of the affine connection, new field equations and new gauge conditions have been obtained. Solutions to these field equations have been considered in the empty space and in the wave zone, and in both of them the oscillation amplitudes of their solutions are attenuated exponentially. We expect that these solutions can be useful for building more sophisticated gravitational wave models, and also as an impulse for researching further symmetry transformations of general relativity.