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Gauss-Bonnet dark energy

Shin’ichi NojiriDepartment of Applied Physics, National Defence Academy, Hashirimizu Yokosuka 239-8686, JapanSergei D. OdintsovDepartment of Applied Physics, National Defence Academy, Hashirimizu Yokosuka 239-8686, JapanMisao SasakiDepartment of Applied Physics, National Defence Academy, Hashirimizu Yokosuka 239-8686, Japan
2005en
ABI

Abstract

We propose the Gauss-Bonnet dark energy model inspired by string/M-theory where standard gravity with scalar contains additional scalar-dependent coupling with a Gauss-Bonnet invariant. It is demonstrated that the effective phantom (or quintessence) phase of the late universe may occur in the presence of such a term when the scalar is phantom or for nonzero potential (for canonical scalar). However, with the increase of the curvature, the Gauss-Bonnet term may become dominant so that the phantom phase is transient and the $w=\ensuremath{-}1$ barrier may be passed. Hence, the current acceleration of the universe may be caused by a mixture of scalar phantom and/or potential or stringy effects. It is remarkable that scalar-Gauss-Bonnet coupling acts against the big rip occurrence also in phantom cosmology.

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Cited by 30 references