Monday, January 14, 2013

1301.2570 (Dagoberto Escobar et al.)

Phase space analysis of quintessence fields trapped in a Randall-Sundrum
Braneworld: anisotropic Bianchi I brane with a negative dark radiation term
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Dagoberto Escobar, Carlos R. Fadragas, Genly Leon, Yoelsy Leyva
In this work we present a phase space analysis of a quintessence field and a perfect fluid trapped in a Randall-Sundrum's Braneworld of type 2. We consider a homogeneous but anisotropic Bianchi I (BI) brane geometry. Moreover, we consider the effect of the projection of the five-dimensional Weyl tensor onto the three-brane in the form of a negative Dark Radiation term. For the treatment of the potential we use the "Method of $f$-devisers" that allow investigating arbitrary potentials in a phase space. We present general conditions on the potential in order to obtain the stability of standard 4D and non-standard 5D de Sitter solutions, and we provide the stability conditions for both scalar field-matter scaling solutions, scalar field-dark radiation solutions and scalar field-dominated solutions. We find that the shear-dominated solutions are unstable (particularly, contracting shear-dominated solutions are of saddle type). As a main difference with our previous work, the traditionally ever-expanding models could potentially re-collapse due to the negativity of the dark radiation. Additionally, our system admits a large class of static solutions that are of saddle type. This kind of solutions are important at intermediate stages in the evolution of the universe, since they allow to the transition from contracting to expanding models and vice versa. New features of our scenario are the existence of a bounce and a turnaround, which leads to cyclic behavior, that are not allowed in Bianchi I branes with positive dark radiation term. Finally, as specific examples we consider the potentials $V\propto\sinh^{-\alpha}(\beta\phi)$ and $V\propto[\cosh(\xi \phi)-1]$ which have simple $f$-devisers.
View original: http://arxiv.org/abs/1301.2570

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