f(Q, T) gravity, its covariant formulation, energy conservation and phase-space analysis

Abstract: In the present article we analyze the matter-geometry coupled f(Q, T) theory of gravity. We offer the fully covariant formulation of the theory, with which we construct the correct energy balance equation and employ it to conduct a dynamical system analysis in a spatially flat Friedmann–Lemaître–Robertson–Walker spacetime. We consider three different functional forms of the f(Q, T) function, specifically, $$f(Q,T)=\alpha Q+ \beta T$$ f ( … Show more

“…This likely includes a study of how this modified gravity theory behaves over time, especially in comparison to standard General Relativity. The reference [40] appears to focus on explaining the parameters of a linear case model within the context of f (Q, T ) gravity. This kind of study helps establish the relationships between the theory's parameters and its predictions.…”

Compatibility between the scalar field models of tachyon, k-essence and quintessence in f(R, T) gravity

“…This likely includes a study of how this modified gravity theory behaves over time, especially in comparison to standard General Relativity. The reference [40] appears to focus on explaining the parameters of a linear case model within the context of f (Q, T ) gravity. This kind of study helps establish the relationships between the theory's parameters and its predictions.…”

Compatibility between the scalar field models of tachyon, k-essence and quintessence in f(R, T) gravity

Existence of wormhole solutions in f(Q,T) gravity under non-commutative geometries

Evolution of gravitational waves in non-minimal coupling between geometry and matter theories of gravity