Spatially resolved kinematics in the central 1 kpc of a compact star-forming galaxy at z=2.3 from ALMA CO observations

Abstract

We present high spatial resolution (FWHM0.14'') observations of the CO(8-7) line in GDS-14876, a compact star-forming galaxy at z=2.3 with total stellar mass of (M/M)=10.9. The spatially resolved velocity map of the inner r1~kpc reveals a continous velocity gradient consistent with the kinematics of a rotating disk with v rot(r=1 kpc)=1635 km s-1 and v rot/σ2.5. The gas-to-stellar ratios estimated from CO(8-7) and the dust continuum emission span a broad range, f CO gas=M gas/M=13-45\% and f cont gas=50-67\%, but are nonetheless consistent given the uncertainties in the conversion factors. The dynamical modeling yields a dynamical mass of(M dyn/M)=10.58+0.5-0.2 which is lower, but still consistent with the baryonic mass, (M bar= M + M CO gas/M)=11.0, if the smallest CO-based gas fraction is assumed. Despite a low, overall gas fraction, the small physical extent of the dense, star-forming gas probed by CO(8-7), 3× smaller than the stellar size, implies a strong concentration that increases the gas fraction up to f CO, 1 kpc gas 85\% in the central 1 kpc. Such a gas-rich center, coupled with a high star-formation rate, SFR 500 M yr-1, suggests that GDS-14876 is quickly assembling a dense stellar component (bulge) in a strong nuclear starburst. Assuming its gas reservoir is depleted without replenishment, GDS-14876 will quickly (t depl27 Myr) become a compact quiescent galaxy that could retain some fraction of the observed rotational support.