Updated constraints on f(R) gravity from cosmography

Abstract

We address the issue of constraining the class of f(R) able to reproduce the observed cosmological acceleration, by using the so called cosmography of the universe. We consider a model independent procedure to build up a f(z)-series in terms of the measurable cosmographic coefficients; we therefore derive cosmological late time bounds on f(z) and its derivatives up to the fourth order, by fitting the luminosity distance directly in terms of such coefficients. We perform a Monte Carlo analysis, by using three different statistical sets of cosmographic coefficients, in which the only assumptions are the validity of the cosmological principle and that the class of f(R) reduces to when z1. We use the updated union 2.1 for supernovae Ia, the constrain on the H0 value imposed by the measurements of the Hubble space telescope and the Hubble dataset, with measures of H at different z. We find a statistical good agreement of the f(R) class under exam, with the cosmological data; we thus propose a candidate of f(R), which is able to pass our cosmological test, reproducing the late time acceleration in agreement with observations.