Observational Constraints on Growth Index with Cosmography

Abstract

In the literature, it was proposed that the growth index γ is useful to distinguish the scenarios of dark energy and modified gravity. In the present work, we consider the constraints on the growth index γ by using the latest observational data. To be model-independent, we use cosmography to describe the cosmic expansion history, and also expand the general γ(z) as a Taylor series with respect to redshift z or y-shift, y=z/(1+z). We find that the present value γ0=γ(z=0) 0.42 (for most of viable f(R) theories) is inconsistent with the latest observational data at high confidence level (C.L.). On the other hand, γ0 0.55 (for dark energy models in GR) can be consistent with the latest observational data at 1σ C.L. in 5 of the 9 cases under consideration, but is inconsistent beyond 2σ C.L. in the other 4 cases (while it is still consistent within the 3σ region). Thus, we can say nothing firmly about γ0 0.55. We also find that a varying γ(z) is favored.