Decoupling of Field Equations in Einstein and Modified Gravity

TL;DR

This paper proves a general decoupling property of Einstein and $f(R,T)$ gravity field equations, enabling the construction of exact solutions with off-diagonal metrics and analyzing their properties.

Contribution

It introduces a method for decoupling gravitational field equations in Einstein and modified gravity, facilitating exact solution generation with off-diagonal metrics.

Findings

Decoupling property allows exact solution construction.

Solutions include black hole deformations and solitonic configurations.

Analysis of initial data and spacetime evolution criteria.

Abstract

This paper is concerned with giving the proof that there is a general decoupling property of vacuum and nonvacuum gravitational field equations in Einstein gravity and $f(R,T)$-modifications. The constructions are possible in terms of geometric and physical objects adapted to certain nonholonomic 2+2 splitting with local fibred structure. This allows us to generate exact and/or parametric depending solutions with generic off-diagonal metrics and generalized, or Levi-Civita, connections. Different classes of modified spacetimes are determined by corresponding generating and integration functions depending, in general, on all space and time coordinates and may possess, or not, Killing symmetries. The initial data sets for the Cauchy problem and their global properties are analyzed. There are formulated the criteria of evolution with spacetime splitting and decoupling of fundamental field equations. Examples of exact solutions defining ellipsoid deformations of black hole metrics and solitonic configurations are provided.