Constraints on the neutrino mass and mass hierarchy from cosmological observations

Abstract

Considering the mass splitting between three active neutrinos, we represent the new constraints on the sum of neutrino mass ∑ mν by updating the anisotropic analysis of the Baryon Acoustic Oscillation (BAO) scale in the CMASS and LOWZ galaxy samples from Data Release 12 of the SDSS-III Baryon Oscillation Spectroscopic Survey (BOSS DR12). Combining the BAO data of 6dFGS, MGS, LOWZ and CMASS with Planck 2015 data of temperature anisotropy and polarizations of the Cosmic Microwave Background (CMB), we find that the 95 % C.L. upper bounds on ∑ mν refer to ∑ mν,NH< 0.18 eV for the normal hierarchy (NH), ∑ mν,IH< 0.20 eV for the inverted hierarchy (IH) and ∑ mν,DH< 0.15 eV for the degenerate hierarchy (DH), respectively, and the normal hierarchy is slightly preferred over the inverted one (Δχ2≡χNH2-χIH2≃-3.4). In addition, the additional relativistic degrees of freedom and massive sterile neutrinos are neither favored at present.