The Subaru HSC Galaxy Clustering with Photometric Redshift I: Dark Halo Masses Versus Baryonic Properties of Galaxies at 0.3<z<1.4

Abstract

We present the clustering properties of low-z (z≤1.4) galaxies selected by the Hyper Suprime-Cam Subaru Strategic Program Wide layer over 145 deg2. The wide-field and multi-wavelength observation yields 5,064,770 galaxies at 0.3≤ z≤1.4 with photometric redshifts and physical properties. This enables the accurate measurement of angular correlation functions and subsequent halo occupation distribution (HOD) analysis allows the connection between baryonic properties and dark halo properties. The fraction of less-massive satellite galaxies at z1 is found to be almost constant at 20\%, but it gradually decreases beyond M 1010.4h-2M. However, the abundance of satellite galaxies at z>1 is quite small even for less-massive galaxies due to the rarity of massive centrals at high-z. This decreasing trend is connected to the small satellite fraction of Lyman break galaxies at z>3. The stellar-to-halo mass ratios at 0.3≤ z≤1.4 are almost consistent with the predictions obtained using the latest empirical model; however, we identify small excesses from the theoretical model at the massive end. The pivot halo mass is found to be unchanged at 1011.9-12.1h-1M at 0.3≤ z≤1.4, and we systematically show that 1012h-1M is a universal pivot halo mass up to z5 that is derived using only the clustering/HOD analyses. Nevertheless, halo masses with peaked instantaneous baryon conversion efficiencies are much smaller than the pivot halo mass regardless of a redshift, and the most efficient stellar-mass assembly is thought to be in progress in 1011.0-11.5h-1M dark haloes.