Neutrino Mass Bounds in the era of Tension Cosmology

Abstract

The measurements of Cosmic Microwave Background anisotropies made by the Planck satellite provide extremely tight upper bounds on the total neutrino mass scale ( m<0.26 eV at 95\% C.L.). However, as recently discussed in the literature, Planck data show anomalies that could affect this result. Here we provide new constraints on neutrino masses using the recent and complementary CMB measurements from the Atacama Cosmology Telescope DR4 and the South Polar Telescope SPT-3G experiments. We found that both the ACT-DR4 and SPT-3G data, when combined with WMAP, mildly suggest a neutrino mass with m=0.68 0.31 eV and m=0.46-0.36+0.14 eV at 68 \% C.L, respectively. Moreover, when CMB lensing from the Planck experiment is included, the ACT-DR4 data now indicates a neutrino mass above the two standard deviations, with m=0.60-0.50+0.44 eV at 95 \%, while WMAP+SPT-3G provides a weak upper limit of m<0.37 eV at 68 \% C.L.. Interestingly, these results are consistent with the Planck CMB+Lensing constraint of m = 0.41-0.25+0.17 eV at 68 \% C.L. when variation in the A lens parameter are considered. We also show that these indications are still present after the inclusion of BAO or SN-Ia data in extended cosmologies that are usually considered to solve the so-called Hubble tension. A combination of ACT-DR4, WMAP, BAO and constraints on the Hubble constant from the SH0ES collaboration gives m=0.39+0.13-0.25 eV at 68 \% C.L. in extended cosmologies. We conclude that a total neutrino mass above the 0.26 eV limit still provides an excellent fit to several cosmological data and that future data must be considered before safely ruling it out.

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