A new life for sterile neutrinos: resolving inconsistencies using hot dark matter

Abstract

Within the standard LCDM model of cosmology, the recent Planck measurements have shown discrepancies with other observations, e.g., measurements of the current expansion rate H0, the galaxy shear power spectrum and counts of galaxy clusters. We show that if LCDM is extended by a hot dark matter component, which could be interpreted as a sterile neutrino, the data sets can be combined consistently. A combination of Planck data, WMAP-9 polarisation data, measurements of the BAO scale, the HST measurement of H0, Planck galaxy cluster counts and galaxy shear data from the CFHTLens survey yields Delta Neff = 0.61 pm 0.30 and mseff = (0.41 pm 0.13) eV at 1 sigma. The former is driven mainly by the large H0 of the HST measurement, while the latter is driven by cluster data. CFHTLens galaxy shear data prefer Delta Neff >0 and a non-zero mass. Taken together, we find hints for the presence of a hot dark matter component at 3 sigma. A sterile neutrino motivated by the reactor and gallium anomalies appears rejected at even higher significance and an accelerator anomaly sterile neutrino is found in tension at 2 sigma.