Date: 8/22/2023
Ionised gas kinematics and dynamical masses of z\gtrsim6 galaxies from JADES/NIRSpec high-resolution spectroscopy
Paper abstract: We explore the kinematic gas properties of six 5.51 thus far. The cold gas masses implied by the observed star formation rates are ~ 10\times larger than the stellar masses. We find that their ionised gas is spatially resolved by JWST, with evidence for broadened lines and spatial velocity gradients. Using a simple thin-disc model, we fit these data with a novel forward modelling software that accounts for the complex geometry, point spread function, and pixellation of the NIRSpec instrument. We find the sample to include both rotation- and dispersion-dominated structures, as we detect velocity gradients of v(r_{\rm e})~100-150\,{\rm km\,s^{-1}}, and find velocity dispersions of \sigma_0~ 30-70\,{\rm km\,s^{-1}} that are comparable to those at cosmic noon. The dynamical masses implied by these models (M_{\rm dyn}~10^{9-10}\,{\rm M_\odot}) are larger than the stellar masses by up to a factor 40, and larger than the total baryonic mass (gas + stars) by a factor of ~ 3. Qualitatively, this result is robust even if the observed velocity gradients reflect ongoing mergers rather than rotating discs. Unless the observed emission line kinematics is dominated by outflows, this implies that the centres of these galaxies are dark-matter dominated or that star formation is 3\times less efficient, leading to higher inferred gas masses.
