The VLT LBG Redshift Survey - VI. Mapping HI in the proximity of z3 LBGs with X-Shooter

Abstract

We present an analysis of the spatial distribution of gas and galaxies using new X-Shooter observations of z3-4 quasars. Adding the X-Shooter data to an existing dataset of high resolution quasar spectroscopy, we use a total sample of 29 quasars alongside 1700 Lyman Break Galaxies in the redshift range 2<z<3.5. Analysing the Lyα forest auto-correlation function using the full quasar sample, we find s0=0.0810.006h-1Mpc. We then investigate the clustering and dynamics of Lyα forest absorbers around z3 LBGs. From the redshift-space cross-correlation, we find s0=0.270.14h-1Mpc, with power-law slope γ=1.10.2. We make a first analysis of the dependence of this clustering length on absorber strength based on cuts in the sightline transmitted flux, finding a clear preference for stronger absorption features to be more strongly clustered around the galaxy population than weaker absorption features. Further, we calculate the projected correlation function, finding r0=0.240.04h-1Mpc (assuming a fixed slope γ=1.1). Taking this as the underlying real-space clustering, we fit the 2D cross-correlation function with a dynamical model incorporating the infall parameter and the peculiar velocity, finding β F=1.020.22 and 24060 km s-1 respectively. This result shows a significant detection of gas infall relative to the galaxy population, whilst the measured velocity dispersion is consistent with the velocity uncertainties on the galaxy redshifts. We evaluate the Cauchy-Schwarz inequality between the galaxy-galaxy, absorber-absorber, and galaxy-absorber correlation functions, finding a result significantly less than unity: ag2/( gg aa)=0.250.14, implying that galaxies and Lyα absorbers do not linearly trace the underlying dark matter distribution in the same way.