Kinematics of Hot Subdwarfs from the Gaia DR2 Catalogue

Abstract

We have studied the kinematic properties of the candidates for hot subdwarfs (HSDs) selected by Geier et al. from the Gaia DR2 catalogue. We have used a total of 12 515 stars with relative trigonometric parallax errors less than 30\%. The HSDs are shown to have different kinematics, depending on their positions on the celestial sphere. For example, the sample of low-latitude (|b|<20) HSDs rotates around the Galactic center with a linear velocity V0=2215 km s-1. This suggests that they belong to the Galactic thin disk. At the same time, they lag behind the local standard of rest by V16 km s-1 due to the asymmetric drift. The high-latitude (|b|≥20) HSDs rotate with a considerably lower velocity, V0=1686 km s-1. Their lagging behind the local standard of rest is already V40 km s-1. Based on the entire sample of 12 515 HSDs, we have found a positive rotation around the x axis significantly differing from zero with an angular velocity ω1=1.360.24 km s-1 kpc-1. We have studied the samples of HSDs that are complete within r<1.5 kpc. Based on them, we have traced the evolution of the parameters of the residual velocity ellipsoid as a function of both latitude |b| and coordinate |z|. The following vertical disk scale heights have been found: h=1806 and 29010 pc from the low- and high-latitude HSDs, respectively. A new estimate of the local stellar density out=534~M/kpc2 kpc-2 has been obtained for zout=0.56 kpc from the high-latitude HSDs.