Jo Bovy, Hans-Walter Rix, David W. Hogg, Timothy C. Beers, Young Sun Lee, Lan Zhang
We present the vertical kinematics of stars in the Milky Way's stellar disk
inferred from SDSS/SEGUE G-dwarf data, deriving the vertical velocity
dispersion, \sigma_z, as a function of vertical height |z| and Galactocentric
radius R for a set of 'mono-abundance' sub-populations of stars with very
similar elemental abundances [\alpha/Fe] and [Fe/H]. We find that all
components exhibit nearly isothermal kinematics in |z|, and a slow outward
decrease of the vertical velocity dispersion: $\sigma_z
(z,R\,|[\alpha/Fe],[Fe/H]) ~ \sigma_z ([\alpha/Fe],[Fe/H]) x \exp (-(R-R_0)/7
kpc})$. The characteristic velocity dispersions of these components vary from ~
15 km/s for chemically young, metal-rich stars, to >~ 50 km/s for metal poor
stars. The mean \sigma_z gradient away from the mid plane is only 0.3 +/- 0.2
km/s/kpc. We find a continuum of vertical kinetic temperatures (~\sigma^2_z) as
function of ([\alpha/Fe],[Fe/H]), which contribute to the stellar surface mass
density as \Sigma_{R_0}(\sigma^2_z) ~ \exp(-\sigma^2_z). The existence of
isothermal mono-abundance populations with intermediate dispersions reject the
notion of a thin-thick disk dichotomy. This continuum of disks argues against
models where the thicker disk portions arise from massive satellite infall or
heating; scenarios where either the oldest disk portion was born hot, or where
internal evolution plays a major role, seem the most viable. The wide range of
\sigma_z ([\alpha/Fe],[Fe/H]) combined with a constant \sigma_z(z) for each
abundance bin provides an independent check on the precision of the SEGUE
abundances: \delta_[\alpha/Fe] ~ 0.07 dex and \delta_[Fe/H] ~ 0.15 dex. The
radial decline of the vertical dispersion presumably reflects the decrease in
disk surface-mass density. This measurement constitutes a first step toward a
purely dynamical estimate of the mass profile the disk in our Galaxy.
[abridged]
View original:
http://arxiv.org/abs/1202.2819
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