Neutrino Anisotropies after Planck

Abstract

We present new constraints on the rest-frame sound speed, ceff2, and the viscosity parameter, cvis2, of the Cosmic Neutrino Background from the recent measurements of the Cosmic Microwave Background anisotropies provided by the Planck satellite. While broadly consistent with the expectations of ceff2=cvis2=1/3 in the standard scenario, the Planck dataset hints at a higher value of the viscosity parameter, with cvis2=0.60+/-0.18 at 68% c.l., and a lower value of the sound speed, with ceff2=0.304+/-0.013 at 68% c.l.. We find a correlation between the neutrino parameters and the lensing amplitude of the temperature power spectrum AL. When the latter parameter is allowed to vary, we find a better consistency with the standard model with cvis2=0.51+/-0.22, ceff2=0.311+/-0.019 and AL=1.08+/-0.18 at 68% c.l.. This result indicates that the anomalous large value of AL measured by Planck could be connected to non-standard neutrino properties. Including additional datasets from Baryon Acoustic Oscillation surveys and the Hubble Space Telescope constraint on the Hubble constant, we obtain cvis2=0.40+/-0.19, ceff2=0.319+/-0.019, and AL=1.15+/-0.17 at 68% c.l.; including the lensing power spectrum, we obtain cvis2=0.50+/-0.19, ceff2=0.314+/-0.015, and AL=1.025+/-0.076 at 68% c.l.. Finally, we investigate further degeneracies between the clustering parameters and other cosmological parameters.