Open cluster kinematics with Gaia DR2

TL;DR

This study utilizes Gaia DR2 data to analyze the 6D phase space distribution of 861 open clusters, revealing their kinematic properties, spatial distribution, and potential cluster groupings in the Milky Way.

Contribution

It provides the first comprehensive Gaia DR2-based 6D phase space analysis of a large open cluster sample, including velocity measurements and identification of possible cluster pairs and groups.

Findings

Open clusters follow the velocity distribution of field stars.

Young clusters have a very flat vertical distribution with low velocity dispersion.

Older clusters reach up to 1 kpc from the Galactic plane with higher velocity dispersion.

Abstract

Context. Open clusters are very good tracers of the evolution of the Galactic disc. Thanks to Gaia, their kinematics can be investigated with an unprecedented precision and accuracy. Aims. The distribution of open clusters in the 6D phase space is revisited with Gaia DR2. Methods. The weighted mean radial velocity of open clusters was determined, using the most probable members available from a previous astrometric investigation that also provided mean parallaxes and proper motions. Those parameters, all derived from Gaia DR2 only, were combined to provide the 6D phase space information of 861 clusters. The velocity distribution of nearby clusters was investigated, as well as the spatial and velocity distributions of the whole sample as a function of age. A high quality subsample was used to investigate some possible pairs and groups of clusters sharing the same Galactic position and velocity. Results. For the high quality sample that has 406 clusters, the median uncertainty of the weighted mean radial velocity is 0.5 km/s. The accuracy, assessed by comparison to ground-based high resolution spectroscopy, is better than 1 km/s. Open clusters nicely follow the velocity distribution of field stars in the close Solar neighbourhood previously revealed by Gaia DR2. As expected, the vertical distribution of young clusters is very flat but the novelty is the high precision to which this can be seen. The dispersion of vertical velocities of young clusters is at the level of 5 km/s. Clusters older than 1 Gyr span distances to the Galactic plane up to 1 kpc with a vertical velocity dispersion of 14 km/s, typical of the thin disc. Five pairs of clusters and one group with five members are possibly physically related. Other binary candidates previously identified turn out to be chance alignment.