Constraints on neutrino masses from Lyman-alpha forest power spectrum with BOSS and XQ-100

Abstract

We present constraints on masses of active and sterile neutrinos. We use the one-dimensional Lyα-forest power spectrum from the Baryon Oscillation Spectroscopic Survey (BOSS) of the Sloan Digital Sky Survey (SDSS-III) and from the VLT/XSHOOTER legacy survey (XQ-100). In this paper, we present our own measurement of the power spectrum with the publicly released XQ-100 quasar spectra. Fitting Lyα data alone leads to cosmological parameters in excellent agreement with the values derived independently from Planck 2015 Cosmic Microwave Background (CMB) data. Combining BOSS and XQ-100 Lyα power spectra, we constrain the sum of neutrino masses to Σ m < 0.8 eV (95\% C.L). With the addition of CMB data, this bound is tightened to Σ m < 0.14 eV (95\% C.L.). With their sensitivity to small scales, Lyα data are ideal to constrain models. Using XQ-100 alone, we issue lower bounds on pure dark matter particles: mX 2.08 \: keV (95\% C.L.) for early decoupled thermal relics, and ms 10.2 \: keV (95\% C.L.) for non-resonantly produced right-handed neutrinos. Combining the 1D Lyα forest power spectrum measured by BOSS and XQ-100, we improve the two bounds to mX 4.17 \: keV and ms 25.0 \: keV (95\% C.L.). The 3~σ bound shows a more significant improvement, increasing from mX 2.74 \: keV for BOSS alone to mX 3.10 \: keV for the combined BOSS+XQ-100 data set. Finally, we include in our analysis the first two redshift bins (z=4.2 and z=4.6) of the power spectrum measured with the high-resolution HIRES/MIKE spectrographs. The addition of HIRES/MIKE power spectrum allows us to further improve the two limits to mX 4.65 \: keV and ms 28.8 \: keV (95\% C.L.).