Constraints from growth-rate data on some coupled dark energy models mimicking a CDM expansion

Abstract

The CDM expansion could be mimicked by a dark energy coupled to matter. Then, the equation of state w and coupling Q of this coupled dark energy could not be constrained by observations of the Hubble function alone. Also, in this paper, we determine the constraints on two such coupled dark energy models considering some current and forecast Euclid-like growth-rate data and assuming the prior on the CDM dark matter density parameter today m0=0.295 0.04. The first model is defined by a constant equation of state. We find that at 2σ, w=-1.02-0.22+0.06 and the coupling function Q0 today is Q0H0-3=0.057-0.148+0.353 with H0 the Hubble constant. The second model is defined by a varying equation of state w= wa- wb(1+z), with z the redshift and ( wa, wb), two constants. We find that at 2σ, wa=-0.99-0.90+0.17, wb=-0.04-1.17+0.31 and Q0H0-3=0.0002-0.18+1.35. These constraints on coupled dark energy agreed with a CDM model but are too poor to discard confidently a coupled dark energy different from vacuum but mimicking a CDM expansion.