Structure and dynamics in low density regions: galaxy-galaxy correlations inside cosmic voids

Abstract

We compute the galaxy-galaxy correlation function of low-luminosity SDSS-DR7 galaxies (-20 < M r - 510(h) < -18) inside cosmic voids identified in a volume limited sample of galaxies at z=0.085. To identify voids, we use bright galaxies with M r - 510(h) < -20.0. We find that structure in voids as traced by faint galaxies is mildly non-linear as compared with the general population of galaxies with similar luminosities. This implies a redshift-space correlation function with a similar shape than the real-space correlation albeit a normalization factor. The redshift space distortions of void galaxies allow to calculate pairwise velocity distributions which are consistent with an exponential model with a pairwise velocity dispersion of w 50-70 km/s, significantly lower than the global value of w 500 km/s. We also find that the internal structure of voids as traced by faint galaxies is independent of void environment, namely the correlation functions of galaxies residing in void-in-void or void-in-shell regions are identical within uncertainties. We have tested all our results with the semi-analytic catalogue MDPL2-Sag finding a suitable agreement with the observations in all topics studied.