Constraints on the host galaxy and AGN properties of three z > 6 JWST AGN from NOEMA observations
Abstract
We targeted with deep NOEMA observations the [CII]158μm emission of three JWST-discovered AGN at z>6. Two of them have the typical features of Little Red Dots (LRDs), while the third one is a blue, extended, Type I AGN. We do not significantly detect [CII] emission or dust continuum in any of the targets, even after stacking. The resulting [CII] luminosity upper limits, (L[CII]/L)<7.77-8.1, lie 2σ below the values expected from the [CII]-SFR relation, and we explore different scenarios to explain the lack of [CII]. We obtained upper limits on the gas masses of (Mgas/M)<9.26-9.59 corresponding to ( Mdust/M)<5.68-6.55 assuming a metallicity dependent dust to gas ratio. Using the continuum non-detections (rms 16-25 ~μ Jy) together with JWST/MIRI constraints, we performed a revised SED-fitting decomposition, resulting in stellar masses up to 2 dex lower than previously reported, and implying 0.03 MBH/M*0.7. For the two LRDs, the SED is well reproduced by stellar emission in the rest-frame UV, while the rising rest-frame optical slope, flattening toward the near-infrared, is consistent with emission from a Type I AGN partially obscured along the polar direction with E(B-V) polar 1, in agreement with attenuation derived from the broad lines Balmer decrement. This decomposition demonstrates that a relatively standard AGN configuration can reproduce the SEDs of the two LRDs, without invoking more exotic scenarios. Finally, we investigate the positions of the three sources in the IRX-βUV plane, finding that they lie in a parameter space where galaxies are typically characterized by patchy dust distributions. Our analysis highlights the importance of millimeter constraints to characterize the different physical properties of high-z AGN.
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