Distribution functions for evolved stars in the inner galactic Plane

Abstract

We present dynamical distribution functions for evolved stars in the inner galactic plane. We use an axisymmetric, two-component Stackel potential that satisfies recent constraints on the galactic potential, amongst others a slightly declining local rotation curve. We show that this potential is adequate to model stellar-kinematic samples with radial extent ranging from to the first three projected moments provides a very good global representation of the data but fails to reproduce the central dispersion, the central apparent scaleheight and the cylindrical rotation at intermediate longitudes. All these features are fitted well by a three--integral model. We discuss various properties of the 2I- and 3I models and the implications for galactic structure. A somewhat thicker disk component is needed to explain the distribution of older AGB stars in the plane; this component also fits the kinematics at higher latitudes better. We find that the Disk and the Bulge, as traced by AGB stars, are very similar dynamically and could well be one and the same component. There is a dynamically distinct component in the inner 100 pc of the Bulge, however