Abstract
With the advent of the Gaia data, the unprecedented kinematic census of great part of the Milky Way disc will allow us to characterise the local kinematic groups and new groups in different disc neighbourhoods. First, we show here that the models predict a stellar kinematic response to the spiral arms and bar strongly dependent on disc position. For example, we find that the kinematic groups induced by the spiral arm models change significantly if one moves only ~0.6kpc in galactocentric radius, but ~2kpc in azimuth. There are more and stronger groups as one approaches the spiral arms. Depending on the spiral pattern speed, the kinematic imprints are more intense in nearby vicinities or far from the Sun. Secondly, we present a preliminary study of the kinematic groups observed by RAVE. This sample will allow us, for the first time, to study the dependence on Galactic position of the (thin and thick) disc moving groups. In the solar neighbourhood, we find the same kinematics groups as detected in previous surveys, but now with better statistics and over a larger spatial volume around the Sun. This indicates that these structures are indeed large scale kinematic features.
Highlights
Sirius, Coma Berenices, Hyades, Pleiades, and Hercules are clear overdensities in the solar neighbourhood velocity distribution
We find that the kinematic groups induced by the spiral arm models change significantly if one moves only ∼0.6 kpc in galactocentric radius, but ∼2 kpc in azimuth
We currently believe that all these groups may be due to the orbital effects of the non-axisymmetries of the Milky Way (MW) disc, that is, bar spiral [3, 9, 12]
Summary
Coma Berenices, Hyades, Pleiades, and Hercules are clear overdensities in the solar neighbourhood velocity distribution. We currently believe that all these groups may be due to the orbital effects of the non-axisymmetries of the Milky Way (MW) disc, that is, bar spiral [3, 9, 12]. Groups such as the ones that are observed in the solar neighbourhood can be induced by different model parameter combinations. To break the degeneracy and use the kinematic groups to constrain the MW large scale structure, data from velocity distributions at different positions of the MW disc and predictions from the models are needed.
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