The impact of a new median statistics H0 prior on the evidence for dark radiation

Abstract

Recent analyses that include cosmic microwave background (CMB) anisotropy measurements from the Atacama Cosmology Telescope and the South Pole Telescope have hinted at the presence of a dark radiation component at more than two standard deviations. However, this result depends sensitively on the assumption of an HST prior on the Hubble constant, where H0=73.82.4 km/s/Mpc at 68% c.l.. From a median statistics (MS) analysis of 537 non-CMB H0 measurements from Huchra's compilation we derive H0=68 2.8 km/s/Mpc at 68% c.l., in good agreement with the results of a recent analysis of the full Huchra list of H0 measurements. This result is also fully consistent with the value of H0=69.72.5 km/s/Mpc at 68% c.l. obtained from CMB measurements under assumption of the standard model. We show that with the MS H0 prior the evidence for dark radiation is weakened to 1.2 standard deviations. Parametrizing the dark radiation component through the effective number of relativistic degrees of freedom Neff, we find Neff=3.980.37 at 68% c.l. with the HST prior and Neff=3.520.39 at 68% c.l. with the MS prior. We also discuss the implications for current limits on neutrino masses and on primordial Helium abundances.