5 years ago

Ionized and molecular gas kinematics in a z=1.4 star-forming galaxy.

Hannah D. N. Übler, Ric Davies, Sedona H. Price, Ken-ichi Tadaki, Philipp M. Plewa, Sirio Belli, Alessandra Contursi, T. Taro Shimizu, Philipp Lang, Linda J. Tacconi, Dieter Lutz, Karl Schuster, Rodrigo Herrera-Camus, Roberto Neri, Natascha M. Förster Schreiber, Reinhard Genzel, Amiel Sternberg, Stijn Wuyts, Emily Wisnioski, Erica J. Nelson

We present deep observations of a $z=1.4$ massive, star-forming galaxy in molecular and ionized gas at comparable spatial resolution (CO 3-2, NOEMA; H$\alpha$, LBT). The kinematic tracers agree well, indicating that both gas phases are subject to the same gravitational potential and physical processes affecting the gas dynamics. We combine the one-dimensional velocity and velocity dispersion profiles in CO and H$\alpha$ to forward-model the galaxy in a Bayesian framework, combining a thick exponential disk, a bulge, and a dark matter halo. We determine the dynamical support due to baryons and dark matter, and find a dark matter fraction within one effective radius of $f_{\rm DM}(\leq$R_{e})=0.18^{+0.06}_{-0.04}$. Our result strengthens the evidence for strong baryon-dominance on galactic scales of massive $z\sim1-3$ star-forming galaxies recently found based on ionized gas kinematics alone.

Publisher URL: http://arxiv.org/abs/1802.02135

DOI: arXiv:1802.02135v1

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