The VIMOS-VLT Deep Survey: Luminosity dependence of clustering at z~1
Abstract
We investigate the dependence of galaxy clustering on the galaxy intrinsic luminosity at high redshift, using the data from the First Epoch VIMOS-VLT Deep Survey (VVDS). The size (6530 galaxies) and depth (IAB<24) of the survey allows us to measure the projected two-point correlation function of galaxies, wp(rp) for a set of volume-limited samples up to an effective redshift <z>=0.9 and median absolute magnitude -19.6< MB < -21.3. Fitting wp(rp) with a single power-law model for the real-space correlation function xi(r)=(r/r0)-gamma, we measure the relationship of the correlation length r0 and the slope gamma with the sample median luminosity for the first time at such high redshift. Values from our lower-redshift samples (0.1<z<0.5) are fully consistent with the trend observed by larger local surveys. In our high redshift sample (0.5<z<1.2), we find that the clustering strength is suddenly rising around MB*, apparently with a sharper turn than at low redshifts. Galaxies in the faintest sample (<MB>=-19.6) have a correlation length r0=2.7+0.3-0.3 h-1 Mpc, compared to r0=5.0+1.5-1.6 h-1 Mpc at <MB>=-21.3. Correspondingly the slope of the correlation function is observed to steepen significantly from γ=1.6+0.1-0.1 to γ=2.4+0.4-0.2. This is not observed neither by large local surveys nor in our lower-redshift sample and seems to imply a significant change in the way luminous galaxies trace dark-matter halos at z~1 with respect to z~0. At our effective median redshift z~0.9 this corresponds to a strong difference of the relative bias, from b/b* < 0.7 for galaxies with L < L*, to b/b*~1.4 for galaxies with L > L*.
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