On globally static and stationary cosmologies with or without a cosmological constant and the Dark Energy problem

TL;DR

This paper explores the possibility of static and stationary cosmological models within inhomogeneous averaging in General Relativity, suggesting classical backreaction effects could explain Dark Energy without a cosmological constant.

Contribution

It introduces exact solutions for globally static and stationary averaged cosmologies, highlighting their potential to explain Dark Energy through backreaction effects without a cosmological constant.

Findings

A globally static dust model without a cosmological constant is possible.

Stationary cosmologies maintain high kinematical fluctuations over time.

Backreaction effects could provide a classical explanation for Dark Energy.

Abstract

In the framework of spatially averaged inhomogeneous cosmologies in classical General Relativity, effective Einstein equations govern the regional and the global dynamics of averaged scalar variables of cosmological models. A particular solution may be characterized by a cosmic equation of state. In this paper it is pointed out that a globally static averaged dust model is conceivable without employing a compensating cosmological constant. Much in the spirit of Einstein's original model we discuss consequences for the global, but also for the regional properties of this cosmology. We then consider the wider class of globally stationary cosmologies that are conceivable in the presented framework. All these models are based on exact solutions of the averaged Einstein equations and provide examples of cosmologies in an out-of-equilibrium state, which we characterize by an information-theoretical measure. It is shown that such cosmologies preserve high-magnitude kinematical fluctuations and so tend to maintain their global properties. The same is true for a $\Lambda-$driven cosmos in such a state despite of exponential expansion. We outline relations to inflationary scenarios, and put the Dark Energy problem into perspective. Here, it is argued, on the grounds of the discussed cosmologies, that a classical explanation of Dark Energy through backreaction effects is theoretically conceivable, if the matter-dominated Universe emerged from a non-perturbative state in the vicinity of the stationary solution. We also discuss a number of caveats that furnish strong counter arguments in the framework of structure formation in a perturbed Friedmannian model.