GravitoMagneto-Hydrodynamics and Spacetime Turbulence in Early Universe

TL;DR

This paper introduces a gravitoelectromagnetic framework for modeling early universe phenomena, proposing a new analogy to magnetohydrodynamics that could reveal novel spacetime-matter turbulence detectable via gravitational waves.

Contribution

It develops a gravitoelectromagnetic analogy to magnetohydrodynamics, offering a new perspective on early universe physics and potential turbulence in spacetime-matter systems.

Findings

Proposes a gravitoelectromagnetic model analogous to MHD.

Suggests a new form of spacetime-matter turbulence.

Potentially testable through gravitational wave observations.

Abstract

Based on the gravitoelectromagnetic formalism and inspired by the rich analogies between electrodynamics and general relativity, we try one step further along this line and suggest a new counterpart in the gravitoelectromagnetic world analogue to the electromagnetic physics. A counterpart model of the MagnetoHydroDynamics that could help us to understand the possible new physics in tightly bounded spacetime-matter systems such as the case of extremely relativistic fluids in the early Universe. This new viewpoint also suggests a possible new form of spacetime-matter turbulence which may be tested through gravitational wave observations.