Abstract
In this work we propose a novel dark energy model in the formalism of quintom scenarios in scalar-tensor theories based on general relativity, taking into account generalized couplings between the scalar fields and Gauss-Bonnet terms. By employing linear stability theory, we reveal the structure of the phase space and analyze the dynamical effects of the Gauss-Bonnet couplings. We show that the present model exhibits various classes of critical points, corresponding to distinct cosmological scenarios that affect the dynamical evolution of the Universe. At the critical points, the cosmological scenarios correspond to either an accelerated expansion or a stiff-fluid case in which the expansion is decelerated, while for some solutions the expansion is neither accelerated nor decelerated. Finally, the present model also exhibits scaling behavior at some of the critical points, in which the dark energy mimics the behavior of matter.
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