PHANGS CO kinematics: disk orientations and rotation curves at 150 pc resolution
We present kinematic orientations and high-resolution (150 pc) rotation curves for 67 main-sequence star-forming galaxies surveyed in CO (2-1) emission by PHANGS-ALMA. Our measurements are based on the application of a new fitting method tailored to CO velocity fields. Our approach identifies an optimal global orientation as a way to reduce the impact of nonaxisymmetric (bar and spiral) features and the uneven spatial sampling characteristic of CO emission in the inner regions of nearby galaxies. The method performs especially well when applied to the large number of independent lines of sight contained in the PHANGS CO velocity fields mapped at 1 '' resolution. The high-resolution rotation curves fitted to these data are sensitive probes of mass distribution in the inner regions of these galaxies. We use the inner slope as well as the amplitude of our fitted rotation curves to demonstrate that CO is a reliable global dynamical mass tracer. From the consistency between photometric orientations from the literature and kinematic orientations determined with our method, we infer that the shapes of stellar disks in the mass range of log(M-star (M-circle dot)) = 9.0-10.9 probed by our sample are very close to circular and have uniform thickness. ; European Research Council (ERC) 694343 Natural Sciences and Engineering Research Council of Canada RGPIN-201703987 German Research Foundation (DFG) KR4801/1-1 German Research Foundation (DFG) KR4801/2-1 European Research Council (ERC) 714907 German Research Foundation (DFG) SFB 881 138713538 EXC 2181/1-390900948 Programme National "Physique et Chimie du Milieu Interstellaire" (PCMI) of CNRS/INSU INC/INP - CEA Centre National D'etudes Spatiales Programme National Cosmology and Galaxies (PNCG) of CNRS/INSU INP IN2P3 French Atomic Energy Commission European Union's Horizon 2020 research and innovation program 726384