Galaxy clustering measurements out to redshift z8 from Hubble Legacy Fields

Abstract

We present a novel approach for measuring the two-point correlation function of galaxies in narrow pencil beam surveys with varying depths. Our methodology is utilized to expand high-redshift galaxy clustering investigations up to z 8 by analyzing a comprehensive sample consisting of Ng = 160 Lyman break galaxy candidates obtained through optical and near-infrared photometric data within the CANDELS GOODS datasets from the Hubble Space Telescope Legacy Fields. For bright sources with MUV < -19.8, we determine a galaxy bias of b = 9.334.90 at z = 7.7 and a correlation length of r0 = 10.747.06 h-1Mpc. We obtain similar results for the XDF, with a galaxy bias measurement of b = 8.263.41 at the same redshift for a slightly fainter sample with a median luminosity of MUV = -18.4. By comparing with dark-matter halo bias and employing abundance matching, we deduce a characteristic halo mass of Mh 1011.5 M and a duty cycle close to unity. To validate our approach for variable-depth datasets, we replicate the analysis in a region with near-uniform depth using a standard two-point correlation function estimator, yielding consistent outcomes. Our study not only provides a valuable tool for future utilization in JWST datasets but also suggests that the clustering of early galaxies continues to increase with redshift beyond z 8, potentially contributing to the existence of protocluster structures observed in early JWST imaging and spectroscopic surveys at z 8.

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