Cosmological Constraints on Non-flat Exponential f(R) Gravity
Abstract
We explore the viable f(R) gravity models in FLRW backgrounds with a free spatial curvature parameter K. In our numerical calculation, we concentrate on the exponential f(R) model of f(R) = R - λ Rch(1-(-R/Rch)), where Rch is the characteristic curvature scale, which is independent of K, and λ corresponds to the model parameter, while Rchλ=2 with the cosmological constant. In particular, we study the evolutions of the dark energy density and equation of state for exponential f(R) gravity in open, flat and closed universe, and compare with those for . From the current observational data, we find that λ-1=0.42927+0.39921-0.32927 at 68\% C.L and K=-0.00050+0.00420-0.00414 at 95\% C.L. in the exponential f(R) model. By using Akaike information criterion (AIC), Bayesian information criterion (BIC) and Deviance Information Criterion (DIC), we conclude that there is no strong preference between the exponential f(R) gravity and models in the non-flat universe.
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