Pushing ALMA to the limit: 140 pc resolution observations of a z=6.6 quasar-galaxy merger resolve strikingly different morphologies of dust continuum and [CII] 158 um emission

Abstract

We present 0."026 (140\ pc) resolution ALMA observations of [C II] 158\ μm and dust continuum emission of the z=6.6 quasar J0305--3150, resolved over 300-400 independent resolution elements. The dust continuum emission is compact with 80\% recovered within r<0."3 (1.6\ kpc), whereas the [C II] emission profile is composed of a central Gaussian (r<0."4, i.e. <2.2\ kpc) and an extended component (detected up to 10\ kpc at >3σ). We infer a direct contribution of the quasar to the observed 260\ GHz continuum S,QSO / S,QSO+Host 1\%. We report the detection of FIR-detected star-forming clumps with r<200 \ pc and properties similar to that of rest-frame UV-optical clumps reported in the literature. The 200\ pc resolved [C II]/FIR ratio follows the global relation with the FIR surface brightness established in low- and high-redshift galaxies, even at the quasar location. We find that dust continuum is emitted in regions of 0."02-0."04 consistent with the size of photo-dissociation regions (PDR), whereas 50\% of the [C II] originates from larger physical scales (θ 2"). The large-scale [C II] emission presents a velocity gradient aligned with a nearby companion with perturbed kinematics, and misaligned with the kinematics of the small-scale emission. The absence of significant [C II] emission by structures with physical scale 1\ kpc implies that [C II] emission is not produced in dense PDR located at the boundary of Giant Molecular Clouds. We argue instead that [C II] is produced in low-density PDRs in the interstellar medium and diffuse HI gas tidally-stripped during the ongoing merger.

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