The Spitzer South Pole Telescope Deep Field Survey: Linking galaxies and halos at z=1.5

Abstract

We present an analysis of the clustering of high-redshift galaxies in the recently completed 94 deg2 Spitzer-SPT Deep Field survey. Applying flux and color cuts to the mid-infrared photometry efficiently selects galaxies at z1.5 in the stellar mass range 1010-1011M, making this sample the largest used so far to study such a distant population. We measure the angular correlation function in different flux-limited samples at scales >6 (corresponding to physical distances >0.05 Mpc) and thereby map the one- and two-halo contributions to the clustering. We fit halo occupation distributions and determine how the central galaxy's stellar mass and satellite occupation depend on the halo mass. We measure a prominent peak in the stellar-to-halo mass ratio at a halo mass of (M halo / M) = 12.440.08, 4.5 times higher than the z=0 value. This supports the idea of an evolving mass threshold above which star formation is quenched. We estimate the large-scale bias in the range bg=2-4 and the satellite fraction to be fsat0.2, showing a clear evolution compared to z=0. We also find that, above a given stellar mass limit, the fraction of galaxies that are in similar mass pairs is higher at z=1.5 than at z=0. In addition, we measure that this fraction mildly increases with the stellar mass limit at z=1.5, which is the opposite of the behavior seen at low-redshift.