Kiloparsec-scale ALMA Imaging of [CII] and Dust continuum Emission of 27 Quasar Host Galaxies at z~6

Bram Venemans, Fabian Walter, Marcel Neeleman, Mladen Novak, Justin Otter, Roberto Decarli, Eduardo Bañados, Alyssa Drake, Emanuele Farina, Melanie Kaasinen, Chiara Mazzucchelli, Chris Carilli, Xiaohui Fan, Hans-Walter Rix, Ran Wang

Published 2020-10-28Version 1

We present a study of the [CII] 158micron line and underlying far-infrared (FIR) continuum emission of 27 quasar host galaxies at z~6, traced by ALMA at a spatial resolution of ~1 physical kpc. The [CII] emission in the bright, central regions of the quasars have sizes of 1.0-4.8kpc. The dust continuum emission is typically more compact than [CII]. We find that 13/27 quasars (approximately half) have companion galaxies in the field, at projected separations of 3-90kpc. The position of dust emission and the Gaia-corrected positions of the central accreting black holes are co-spatial (typical offsets <0.1"). This suggests that the central black holes are located at the bottom of the gravitational wells of the dark matter halos in which the z>6 quasar hosts reside. Some outliers with offsets ~500pc can be linked to disturbed morphologies, most likely due to ongoing/recent mergers. We find no correlation between the central brightness of the FIR emission and the bolometric luminosity of the accreting black hole. The FIR-derived star-formation rate densities (SFRDs) in the host galaxies peak at the galaxies' centers, at typical values between 100 and 1000 M_sun/yr/kpc^2. These values are below the Eddington limit for star formation, but similar to those found in local ULIRGs. The SFRDs drop towards larger radii by an order of magnitude. Likewise, the [CII]/FIR luminosity ratios of the quasar hosts are lowest in their centers (few x10^-4) and increasing by a factor of a few towards the galaxies' outskirts, consistent with resolved studies of lower redshift sources.