M. Francaviglia scite author profile

Alternative gravitational theories described by Lagrangians depending on general functions of the Ricci scalar have been proven to give coherent theoretical models to describe the experimental evidence of the acceleration of universe at present time. In this paper we proceed further in this analysis of cosmological applications of alternative gravitational theories depending on (other) curvature invariants. We introduce Ricci squared Lagrangians in minimal interaction with matter (perfect fluid); we find modified Einstein equations and consequently modified Friedmann equations in the Palatini formalism. It is striking that both Ricci scalar and Ricci squared theories are described in the same mathematical framework and both the generalized Einstein equations and generalized Friedmann equations have the same structure. In the framework of the cosmological principle, without the introduction of exotic forms of dark energy, we thus obtain modified equations providing values of w ef f < −1 in accordance with the experimental data. The spacetime bi-metric structure plays a fundamental role in the physical interpretation of results and gives them a clear and very rich geometrical interpretation.

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Nonlinear gravitational Lagrangians

Magnano

1987

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Dark energy dominance and cosmic acceleration in first-order formalism

Allemandi¹,

Borowiec²,

et al. 2005

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The current accelerated universe could be produced by modified gravitational dynamics as it can be seen in particular in its Palatini formulation. We analyze here a specific non-linear gravity-scalar system in the first order Palatini formalism which leads to a FRW cosmology different from the purely metric one. It is shown that the emerging FRW cosmology may lead either to an effective quintessence phase (cosmic speed-up) or to an effective phantom phase. Moreover, the already known gravity assisted dark energy dominance occurs also in the first order formalism. Finally, it is shown that a dynamical theory able to resolve the cosmological constant problem exists also in this formalism, in close parallel with the standard metric formulation. * Electronic address: allemandi@dm.unito.it † Electronic address: borow@ift.uni.wroc.pl ‡ Electronic address: francaviglia@dm.unito.it § Electronic address: odintsov@ieec.uab.es also at TSPU, Tomsk

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Variational formulation of general relativity from 1915 to 1925 ?Palatini's method? discovered by Einstein in 1925

1982

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M. Francaviglia

Extended theories of gravity and their cosmological and astrophysical applications

Accelerated cosmological models in Ricci squared gravity

Nonlinear gravitational Lagrangians

Dark energy dominance and cosmic acceleration in first-order formalism

Variational formulation of general relativity from 1915 to 1925 ?Palatini's method? discovered by Einstein in 1925

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