G\"odel-type solutions within the f(R,Q) gravity

TL;DR

This paper explores G"odel-type solutions within the $f(R,Q)$ gravity framework, revealing new causal solutions and vacuum solutions that differ from general relativity, with implications for causality and cosmology.

Contribution

It demonstrates the existence of new G"odel-type solutions in $f(R,Q)$ gravity, including causal and vacuum solutions not present in GR, and analyzes their physical implications.

Findings

Existence of new causal G"odel-type solutions in $f(R,Q)$ gravity.

Identification of vacuum solutions requiring non-zero cosmological constant.

Construction of solutions for specific $f(R,Q)$ models like $R + eta Q$.

Abstract

In this paper, we deal with the $f(R,Q)$ gravity whose action depends, besides of the scalar curvature $R$, on the higher-derivative invariant $Q=R_{\mu\nu}R^{\mu\nu}$. In order to compare this theory with the usual General Relativity (GR), we verify the consistency of G\"{o}del-type solutions within the $f(R,Q)$ gravity and discuss the related causality issues. Explicitly, we show that in the $f(R,Q)$ gravity there are new G\"{o}del-type completely causal solutions having no analogue in the general relativity. In particular, a remarkable G\"{o}del-type solution corresponding to the conformally flat space and maximally symmetric for physically well-motivated matter sources, with no necessity of cosmological constant, has been considered. We demonstrate that, in contrast to GR framework, $f(R,Q)$ gravity supports new vacuum solutions with the requirement for the cosmological constant to be non-zero. Finally, causal solutions are obtained for a particular choice $f(R,Q)=R+\alpha R^2+ \beta Q$.