Constraints on dark radiation from cosmological probes

Abstract

We present joint constraints on the number of effective neutrino species Neff and the sum of neutrino masses Mnu, based on a technique which exploits the full information contained in the one-dimensional Lyman-Alpha forest flux power spectrum, complemented by additional cosmological probes. In particular, we obtain Neff=2.91(+0.21)(-0.22) (95% CL) and Mnu<0.15 eV (95% CL) when we combine BOSS Lyman-Alpha forest data with CMB (Planck+ACT+SPT+WMAP polarization) measurements, and Neff=2.88(+0.20)(-0.20) (95% CL) and Mnu<0.14 eV (95% CL) when we further add baryon acoustic oscillations. Our results provide evidence for the Cosmic Neutrino Background from Neff~3 (Neff=0 is rejected at more than 14 sigma), and rule out the possibility of a sterile neutrino thermalized with active neutrinos (i.e., Neff=4) - or more generally any decoupled relativistic relic with Delta Neff ~ 1 - at a significance of over 5 sigma, the strongest bound to date, implying that there is no need for exotic neutrino physics in the concordance LCDM model.