Subaru Deep Survey VI. A Census of Lyman Break Galaxies at z=4 and 5 in the Subaru Deep Fields: Clustering Properties

Abstract

We investigate the clustering properties of 2,600 Lyman Break Galaxies (LBGs) at z=3.5-5.2 in two large blank fields, the Subaru Deep Field and the Subaru/XMM Deep Field (600arcmin2 each). The angular correlation functions of these LBGs show a clear clustering at both z~4 and 5. The correlation lengths are r0= 4.1+0.2-0.2 and 5.9+1.3-1.7 h100-1 Mpc (r0= 5.1+1.0-1.1 and 5.9+1.3-1.7 h100-1 Mpc) for all the detected LBGs (for L>L* LBGs) at z~4 and 5, respectively. These correlation lengths correspond to galaxy-dark matter biases of bg= 2.9+0.1-0.1 and 4.6+0.9-1.2 (bg=3.5+0.6-0.7 and 4.6+0.9-1.2), for all the detected LBGs (for L>L* LBGs) at z~4 and 5, respectively. These results, combined with estimates for z~3 LBGs in the literature, show that the correlation length of L>L* LBGs is almost constant, ~5 h100-1 Mpc, over z~3-5, while the bias monotonically increases with redshift at z>3. We also find that for LBGs at z~4 the clustering amplitude increases with UV-continuum luminosity and with the amount of dust extinction. We estimate the mass of dark halos hosting various kinds of high-z galaxies including LBGs with the analytic model given by Sheth & Tormen (1999). We find that the typical mass of dark halos hosting L>L* LBGs is about 1x1012 h70-1Msol over z~3-5, which is comparable to that of the Milky Way Galaxy. A single dark halo with ~1012 h70-1 Msol is found to host 0.1-0.3 LBG on average but host about four K-band selected galaxies.

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