Pedro Frazão scite author profile

It is shown that a non-minimal coupling between the scalar curvature and the matter Lagrangian density may account for the accelerated expansion of the Universe and provide, through mimicking, for a viable unification of dark energy and dark matter. An analytical exploration is first performed, and a numerical study is then used to validate the obtained results. The encountered scenario allows for a better grasp of the proposed mechanism, and sets up the discussion for improvements that can lead to a complete agreement with the observational data.

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Reheating via a generalized nonminimal coupling of curvature to matter

Bertolami

2011

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In this work one shows that a generalized non-minimal coupling between geometry and matter is compatible with Starobinsky inflation and leads to a successful process of preheating, a reheating scenario based on the production of massive particles via parametric resonance. The model naturally extends the usual preheating mechanism, which resorts to an ad-hoc scalar curvature-dependent mass term for a scalar field χ, and also encompasses a previously studied preheating channel based upon a non-standard kinetic term.

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Mimicking dark matter in galaxy clusters through a nonminimal gravitational coupling with matter

Bertolami

Frazão²,

Páramos³

2012

Phys. Rev. D

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In this work, one shows that a specific non-minimal coupling between the scalar curvature and matter can mimic the dark matter component of galaxy clusters. For this purpose, one assesses the Abell cluster A586, a massive nearby relaxed cluster of galaxies in virial equilibrium, where direct mass estimates and strong-lensing determinations are possible. One then extends the dark matter mimicking to a large sample of galaxy clusters whose density profiles are obtained from the Chandra high quality data, also in virial equilibrium. The total density, which generally follows a cusped profile and reveals a very small baryonic component, can be effectively described within this framework.

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Stochastic gravitational waves from a new type of modified Chaplygin gas

Bouhmadi-López¹,

Frazão²,

Henriques³

2010

Phys. Rev. D

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We propose a new scenario for the early universe where there is a smooth transition between an early de Sitter-like phase and a radiation dominated era. In this model, the matter content is modelled by a new type of generalised Chaplygin gas for the early universe, with an underlying scalar field description. We study the gravitational waves generated by the quantum fluctuations. In particular, we calculate the gravitational wave power spectrum, as it would be measured today, following the method of the Bogoliubov coefficients. We show that the high frequencies region of the spectrum depends strongly on one of the parameters of the model. On the other hand, we use the number of e-folds, along with the power spectra and spectral index of the scalar perturbations, to constrain the model observationally.Comment: 8 pages, 6 figures, RevTeX 4. Published in PR

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Cosmological perturbations in theories with non-minimal coupling between curvature and matter

Bertolami

Frazão²,

Páramos³

2013

J. Cosmol. Astropart. Phys.

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In this work, we examine how the presence of a non-minimal coupling between spacetime curvature and matter affects the evolution of cosmological perturbations on a homogeneous and isotropic Universe, and hence the formation of large-scale structure. This framework places constraints on the terms which arise due to the coupling with matter and, in particular, on the modified growth of matter density perturbations. We derive approximate analytical solutions for the evolution of matter overdensities during the matter dominated era and discuss the compatibility of the obtained results with the hypothesis that the late time acceleration of the Universe is driven by a non-minimal coupling.

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Pedro Frazão

Accelerated expansion from a nonminimal gravitational coupling to matter

Reheating via a generalized nonminimal coupling of curvature to matter

Mimicking dark matter in galaxy clusters through a nonminimal gravitational coupling with matter

Stochastic gravitational waves from a new type of modified Chaplygin gas

Cosmological perturbations in theories with non-minimal coupling between curvature and matter

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