Implications of the Environments of Radio-detected AGN in a Complex Proto-structure at z$\sim$3.3.

2021 
Radio Active Galactic Nuclei (RAGN) are found preferentially in dense structures (i.e., clusters/groups) at redshifts of z$<$2 and are commonly used to detect protoclusters at higher redshift. Here, we attempt to study the host and environmental properties of two relatively faint ($\mathrm L_\mathrm{1.4GHz} \sim10^{25}$ W Hz$^{-1}$) RAGN in a known protocluster at z=3.3 in the PCl J0227-0421 field, detected using the latest radio observation obtained as part of the ORELSE Survey. Using new spectroscopic observations obtained from Keck/MOSFIRE as part of the Charting Cluster Construction with VUDS and ORELSE (C3VO) survey and previous spectroscopic data obtained as part of the VIMOS-VLT Deep Survey (VVDS) and VIMOS Ultra-Deep Survey (VUDS), we revise the three-dimensional overdensity field around this protocluster. The protocluster is embedded in a large scale overdensity proto-structure. This proto-structure has an estimated total mass of $\sim2.6\times10^{15}$ M$_\odot$ and contains several overdensity peaks. Both RAGN are hosted by very bright and massive galaxies, while their hosts show extreme differences color, indicating that they have different ages and are in different evolutionary stages. Furthermore, we find that they are not in the most locally dense parts of the proto-structure, but are fairly close to the centers of their parent overdensity peaks. We propose a scenario where merging might already have happened in both cases that have lowered the local density of their surrounding area and boosted their stellar mass. This work is the first time that two RAGN at low-luminosity have been found and studied within a high redshift proto-structure.
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