Measuring the scale of cosmic homogeneity with SDSS-IV DR14 quasars

Abstract

The quasar sample of the fourteenth data release of the Sloan Digital Sky Survey (SDSS-IV DR14) is used to determine the cosmic homogeneity scale in the redshift range 0.80<z<2.24. We divide the sample into 4 redshift bins, each one with N q ≥ 19,000 quasars, spanning the whole redshift coverage of the survey and use two correlation function estimators to measure the scaled counts-in-spheres and its logarithmic derivative, i.e., the fractal correlation dimension, D2. Using the cosmology as the fiducial model, we first estimate the redshift evolution of quasar bias and then the homogeneity scale of the underlying matter distribution rhomm. We find that rhomm exhibits a decreasing trend with redshift and that the values obtained are in good agreement with the prediction over the entire redshift interval studied. We, therefore, conclude that the large-scale homogeneity assumption is consistent with the largest spatial distribution of quasars currently available