Scalar-Fluid interacting dark energy: cosmological dynamics beyond the exponential potential
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We extend the dynamical systems analysis of Scalar-Fluid interacting dark energy models performed in C. G. Boehmer et al, Phys. Rev. D 91, 123002 (2015), by considering scalar field potentials beyond the exponential type. The properties and stability of critical points are examined using a combination of linear analysis, computational methods and advanced mathematical techniques, such as centre manifold theory. We show that the interesting results obtained with an exponential potential can generally be recovered also for more complicated scalar field potentials. In particular, employing power-law and hyperbolic potentials as examples, we find late time accelerated attractors, transitions from dark matter to dark energy domination with specific distinguishing features, and accelerated scaling solutions capable of solving the cosmic coincidence problem.
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Power law scalar potential in the Saez-Ballester like theory: Exact solutions in the Bianchi type I case
Power-law scalar potentials in a Saez-Ballester-like theory for Bianchi I models produce the same volume evolution as exponential potentials but keep scalar fields dynamically present.
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