Towards a de Sitter quintom-like cosmology from a reduction of a 7-dimensional BF theory

Abstract

In this article, we analyze a 7-dimensional BF theory that, upon dimensional reduction, transforms into an effective 4-dimensional action in which a generic metric is involved. A constraint is imposed in such a way that this is the Friedmann-Lema\itre-Robertson-Walker metric characterized by a scale factor a(t)=exp(H0 t) with a Hubble constant H0=67.70 \, [km\, s-1\,Mpc-1]. We also compute the barotropic parameter ω p/ from our solutions. Three different scenarios are explored, in which the model transitions from quintessence to phantom regimes, crossing the theoretical phantom divide line. Consequently, the effective action represents a quintom-like scenario. Moreover, we derive some analytic solutions for the scale factor by treating it as a dynamical variable in the effective action. In this case, different outcomes are obtained, where the model can transit from a cosmological constant to a quintessence regime; however, it cannot cross the theoretical phantom divide line. However, this simplistic model successfully captures distinct phases of cosmic expansion.

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