Study of galaxy distributions with SDSS DR14 data and measurement of neutrino masses

Abstract

We study galaxy distributions with Sloan Digital Sky Survey SDSS DR14 data and with simulations searching for variables that can constrain neutrino masses. To be specific, we consider the scenario of three active neutrino eigenstates with approximately the same mass, so Σ m = 3 m. Fitting the predictions of the model to the Sachs-Wolfe effect, σ8, the galaxy power spectrum Pgal(k), fluctuations of galaxy counts in spheres of radii ranging from 16/h to 128/h Mpc, BAO measurements, and h = 0.678 0.009, in various combinations, with free spectral index n, and free galaxy bias and galaxy bias slope, we obtain consistent measurements of Σ m. The results depend on h, so we have presented confidence contours in the (Σ m, h) plane. A global fit with h = 0.678 0.009 obtains Σ m = 0.719 0.312 (stat)+0.055-0.028 (syst) eV, and the amplitude and spectral index of the power spectrum of linear density fluctuations P(k): N2 = (2.09 0.33) × 10-10, and n = 1.021 0.075. The fit also returns the galaxy bias b including its scale dependence.