The kinematics of massive high-redshift dusty star-forming galaxies

Abstract

We present a new method for modelling the kinematics of galaxies from interferometric observations by performing the optimization of the kinematic model parameters directly in visibility-space instead of the conventional approach of fitting velocity fields produced with the CLEAN algorithm in real-space. We demonstrate our method on ALMA observations of 12CO (2-1), (3-2) or (4-3) emission lines from an initial sample of 30 massive 850μm-selected dusty star-forming galaxies with far-infrared luminosities \,1012\,L in the redshift range z \,1.2-4.7. Using the results from our modelling analysis for the 12 sources with the highest signal-to-noise emission lines and disk-like kinematics, we conclude the following: (i) Our sample prefers a CO-to-H2 conversion factor, of α CO = 0.92 0.36; (ii) These far-infrared luminous galaxies follow a similar Tully-Fisher relation between the circularized velocity, V circ, and baryonic mass, M b, as more typical star-forming samples at high redshift, but extend this relation to much higher masses - showing that these are some of the most massive disk-like galaxies in the Universe; (iii) Finally, we demonstrate support for an evolutionary link between massive high-redshift dusty star-forming galaxies and the formation of local early-type galaxies using the both the distributions of the baryonic and kinematic masses of these two populations on the M b\,-\,σ plane and their relative space densities.

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