Galactic Rotation from Cepheids with Gaia DR2 and Effects of Non-Axisymmetry

Abstract

We apply a simple axisymmetric disc model to 218 Galactic Cepheids whose accurate measurements of the distance and velocities are obtained by cross-matching an existing Cepheids catalogue with the Gaia DR2 data. Our model fit determines the "local centrifugal speed", Vc - defined as the rotation speed required to balance the local radial gravitational force - at the Sun's location to be Vc(R0)=236 3 km s-1 and the Sun's azimuthal and radial peculiar motions to be V=12.40.7 km s-1 and U=7.70.9 km s-1, respectively. These results are obtained with strong priors on the solar radius, R0=8.20.1 kpc, and Sun's angular rotation velocity, =30.240.12 km s-1 kpc-1. We also applied the axisymmetric model to mock data from an N-body/hydrodynamic simulation of a Milky Way-like galaxy with a bar and spiral arms. We find that our axisymmetric model fit to the young stars recovers the local centrifugal speed reasonably well, even in the face of significant non-axisymmetry. However, the local centrifugal speed determined from our Cepheid sample could suffer from systematic uncertainty as large as 6 km s-1.