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Evolution in the bias of faint radio sources to z ~ 2.2

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arxiv 1403.0882 v1 pith:URIJZFIM submitted 2014-03-04 astro-ph.CO

Evolution in the bias of faint radio sources to z ~ 2.2

classification astro-ph.CO
keywords radiobiassourcesgalaxiesfunctionhighercross-correlationfind
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Quantifying how the baryonic matter traces the underlying dark matter distribution is key to both understanding galaxy formation and our ability to constrain the cosmological model. Using the cross-correlation function of radio and near-infrared galaxies, we present a large-scale clustering analysis of radio galaxies to z ~ 2.2. We measure the angular auto-correlation function of Ks < 23.5 galaxies in the VIDEO-XMM3 field with photometric redshifts out to z = 4 using VIDEO and CFHTLS photometry in the near-infrared and optical. We then use the cross-correlation function of these sources with 766 radio sources at S_1.4 > 90 {\mu}Jy to infer linear bias of radio galaxies in four redshift bins. We find that the bias evolves from b = 0.57 +/- 0.06 at z ~ 0.3 to 8.55 +/- 3.11 at z ~ 2.2. Furthermore, we separate the radio sources into subsamples to determine how the bias is dependent on the radio luminosity, and find a bias which is significantly higher than predicted by the simulations of Wilman et al., and consistent with the lower luminosity but more abundant FR-I population having a similar bias to the highly luminous but rare FR-IIs. Our results are suggestive of a higher mass, particularly for FR-I sources than assumed in simulations, especially towards higher redshift.

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Cited by 1 Pith paper

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  1. Tracing Large-scale Structure with the MeerKLASS On-the-Fly Survey: Angular Clustering of Radio Sources at 816 MHz

    astro-ph.CO 2026-06 unverdicted novelty 4.0

    First measurement of angular clustering w(theta) for radio sources at 816 MHz over 800 deg2 yields positive signal and effective bias 1.53-2.0 depending on N(z) prior.