Behnaz Fazlpour scite author profile

In this paper we study a model of modified gravity with non-minimal coupling between a general function of the Gauss-Bonnet invariant, f (G), and matter Lagrangian from the point of view of the energy conditions. Such model has been introduced in Nojiri et al. (Phys. Lett. B 651:224, 2007) for description of early inflation and late-time cosmic acceleration. We present the suitable energy conditions for the above mentioned model and then, we use the estimated values of the Hubble, deceleration and jerk parameters to apply the obtained energy conditions to the specific class of modified Gauss-Bonnet models.

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Tachyonic teleparallel dark energy

Banijamali

Fazlpour

2012

Astrophys Space Sci

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Teleparallel gravity is an equivalent formulation of general relativity in which instead of the Ricci scalar R, one uses the torsion scalar T for the Lagrangian density. Recently teleparallel dark energy has been proposed by Geng et al. in (Geng et al., 2011). They have added quintessence scalar field, allowing also a non-minimal coupling with gravity in the Lagrangian of teleparallel gravity and found that such a non-minimally coupled quintessence theory has a richer structure than the same one in the frame work of general relativity. In the present work we are interested in tachyonic teleparallel dark energy in which scalar field is responsible for dark energy in the frame work of torsion gravity. We find that such a non-minimally coupled tachyon gravity can realize the crossing of the phantom divide line for the effective equation of state. Using the numerical calculations we display such a behavior of the model explicitly.

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Behnaz Fazlpour

Generalized uncertainty principle, modified dispersion relations and the early universe thermodynamics

Some consequences of spacetime fuzziness

Energy conditions in f(G) modified gravity with non-minimal coupling to matter

Tachyonic teleparallel dark energy

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