http://arxiv.org/abs/1704.06274
We attempt to constrain the kinematics of the thin and thick discs using the Besancon population synthesis model together with RAVE DR4 and Gaia first data release (TGAS). The RAVE fields were simulated applying a detailed target selection function and the kinematics was computed using velocity ellipsoids depending on age in order to study the secular evolution. We accounted for the asymmetric drift computed from fitting a St\”ackel potential to orbits. Model parameters such as velocity dispersions, mean motions, velocity gradients, were adjusted using an ABC-MCMC method. We made use of the metallicity to enhanced the separation between thin and thick discs. We show that this model is able to reproduce the kinematics of the local discs in great detail. The disc follows the expected secular evolution, in very good agreement with previous studies of the thin disc. The new asymmetric drift formula, fitted to the St\”ackel potential described in Bienaym\’e et al (2015), fairly well reproduces the velocity distribution in a wide solar neighbourhood. The U and W components of the Solar motion determined with this method agree well with previous studies. However we find a smaller V component than previously thought, essentially due to the inclusion of the variation of the asymmetric drift with distance to the plane. The thick disc is represented by a long period of formation (at least 2 Gyr) during which it is shown that the mean velocity increases with time, while the scale height and scale length decrease, very consistently with a collapse phase with conservation of angular momentum. This new Galactic dynamical model is able to reproduce the observed velocities in a wide solar neighborhood at the level of quality of the TGAS-RAVE sample, allowing to constrain the thin and thick disc dynamical evolution, as well as determining the Solar motion.
A. Robin, O. Bienayme, J. Fernandez-Trincado, et. al.
Mon, 24 Apr 17
43/54
Comments: Accepted for publication in Astronomy and Astrophysics, 18 pages, 10 figures, 1 appendix