The Canada France Redshift Survey VIII: Evolution of the clustering of galaxies from z~1

Abstract

We have used the projected two-point correlation function, w(rp), to investigate the spatial distribution of the 591 galaxies with secure redshifts between 0 ≤ z ≤ 1.3 in the five CFRS fields. The slope of the two-point correlation function for the sample as a whole is γ=1.640.05, very similar to the local slope, and γ is therefore not strongly evolving with redshift. However, the amplitude of the correlation function decreases strongly with increasing redshift, so that at z≈0.6 it is a factor of 10 lower (for q0=0.5) than for a similarly-selected local galaxy population, on scales 0.1<r<2h-1 Mpc (q0=0.5). As a whole, the CFRS data is adequately represented by r0(z=0.53)=1.33 0.09 h-1Mpc for q0=0.5, and r0(z=0.53)=1.57 0.09 h-1Mpc for q0=0. Unless the galaxy population at high redshift is quite different from any population seen locally, an unlikely possibility, then this implies growth of clustering as described by the evolutionary parameter ε to be between 0 < ε < +2. No difference in the clustering of red and blue galaxies is seen at z ≥ 0.5, although at lower redshifts, 0.2 ≤ z ≤ 0.5, blue galaxies are somewhat less strongly correlated than the redder galaxies, as seen in local samples. This effect could be the equivalent for field galaxies to the Butcher-Oemler effect seen in clusters of galaxies. The cross-correlation functions between red and blue samples have comparable amplitudes to the auto-correlation functions of each. The distribution and power spectrum of pair separations does not indicate

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