A Systematic Search for Galaxy Proto-Cluster Cores at z 2

Abstract

A proto-cluster core is the most massive dark matter halo (DMH) in a given proto-cluster. To reveal the galaxy formation in core regions, we search for proto-cluster cores at z 2 in 1.5\, deg2 of the COSMOS field. Using pairs of massive galaxies ((M*/M)≥11) as tracers of cores, we find 75 candidate cores, among which 54\% are estimated to be real. A clustering analysis finds that these cores have an average DMH mass of 2.6-0.8+0.9× 1013\, M, or 4.0-1.5+1.8\, × 1013 M after contamination correction. The extended Press-Schechter model shows that their descendant mass at z=0 is consistent with Fornax-like or Virgo-like clusters. Moreover, using the IllustrisTNG simulation, we confirm that pairs of massive galaxies are good tracers of DMHs massive enough to be regarded as proto-cluster cores. We then derive the stellar mass function (SMF) and the quiescent fraction for member galaxies of the 75 candidate cores. We find that the core galaxies have a more top-heavy SMF than field galaxies at the same redshift, showing an excess at (M*/M) 10.5. The quiescent fraction, 0.17-0.04+0.04 in the mass range 9.0≤ (M*/M)≤ 11.0, is about three times higher than that of field counterparts, giving an environmental quenching efficiency of 0.13-0.04+0.04. These results suggest that stellar mass assembly and quenching are accelerated as early as at z 2 in proto-cluster cores.