BOSS full-shape analysis from the EFTofLSS with exact time dependence

Abstract

We re-analyze the full shape of BOSS galaxy two-point function from the Effective-Field Theory of Large-Scale Structure at the one loop within with massive neutrinos using a big bang nucleosynthesis (BBN) prior, removing the Einstein-de Sitter (EdS) approximation in the time dependence of the loop, and, properly accounting for the redshift selection over the BOSS samples instead of assuming an effective redshift. We constrain, at 68\%-confidence level (CL), the present-day matter fraction to m=0.322 0.018, the Hubble constant to H0=69.1 0.14 (km/s)/Mpc, the -amplitude of the primordial spectrum to (1010 As) = 2.97 0.25, the spectral tilt to ns = 0.938 0.082, and bound the total neutrino mass to <1.1 at 95\%-CL. We find no significant shift in the posteriors of the cosmological parameters due to the EdS approximation, but a marginal difference in (1010 As) due to the effective redshift approximation of about 0.4σ, where σ is the 68\%-confidence interval. Regarding the EdS approximation, we check that the same conclusion holds on simulations of volume like DESI in and wCDM, with a BBN prior. In contrast, for an approximate, effective redshift, to be assumed, we advocate systematic assessments on redshift selection for ongoing and future large-volume surveys.