The hybrid metric-Palatini f(R) gravity is a recently devised approach to modified gravity in which it is added to the metric Ricci scalar R, in the Einstein–Hilbert Lagrangian, a function f(R) of Palatini curvature scalar R, which is constructed from an independent connection. These hybrid metric-Palatini gravity theories provide an alternative way to explain the current accelerating expansion without a dark energy matter component. If gravitation is to be described by a hybrid metric-Palatini f(R) gravity theory there are a number of issues that ought to be examined in its context, including the question as to whether its equations allow homogeneous Gödel-type solutions, which necessarily leads to violation of causality. Here, to look further into the potentialities and difficulties of f(R) theories, we examine whether they admit Gödel-type solutions for physically well-motivated matter source. We first show that under certain conditions on the matter sources the problem of finding out space-time homogeneous (ST-homogeneous) solutions in f(R) theories reduces to the problem of determining solutions of Einstein’s field equations with a cosmological constant. Employing this far-reaching result, we determine a general ST-homogeneous Gödel-type solution whose matter source is a combination of a scalar with an electromagnetic fields plus a perfect fluid. This general Gödel-type solution contains special solutions in which the essential parameter m2 can be m2> 0 hyperbolic family, m= 0 linear class, and m2< 0 trigonometric family, covering thus all classes of homogeneous Gödel-type spacetimes. This general solution also contains all previously known solutions as special cases. The bare existence of these Gödel-type solutions makes apparent that hybrid metric-Palatini f(R) gravity does not remedy causal anomaly in the form of closed timelike curves that are permitted in general relativity.
CITATION STYLE
Santos, J., Rebouças, M. J., & Teixeira, A. F. F. (2018). Homogeneous Gödel-type solutions in hybrid metric-Palatini gravity. European Physical Journal C, 78(7). https://doi.org/10.1140/epjc/s10052-018-6025-4
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