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paper

CMB and BAO constraints for an induced gravity dark energy model with a quartic potential

arXiv:1507.00718 · doi:10.1088/1475-7516/2015/08/017

Abstract

We study the predictions for structure formation in an induced gravity dark energy model with a quartic potential. By developing a dedicated Einstein-Boltzmann code, we study self-consistently the dynamics of homogeneous cosmology and of linear perturbations without using any parametrization. By evolving linear perturbations with initial conditions in the radiation era, we accurately recover the quasi-static analytic approximation in the matter dominated era. We use Planck 2013 data and a compilation of baryonic acoustic oscillation (BAO) data to constrain the coupling $γ$ to the Ricci curvature and the other cosmological parameters. By connecting the gravitational constant in the Einstein equation to the one measured in a Cavendish-like experiment, we find $γ< 0.0012$ at 95% CL with Planck 2013 and BAO data. This is the tightest cosmological constraint on $γ$ and on the corresponding derived post-Newtonian parameters. Because of a degeneracy between $γ$ and the Hubble constant $H_0$, we show how larger values for $γ$ are allowed, but not preferred at a significant statistical level, when local measurements of $H_0$ are combined in the analysis with Planck 2013 data.

13 pages, 7 figures