The escape speed curve of the Galaxy obtained from Gaia DR2 implies a heavy Milky Way

Abstract

We measure the escape speed curve of the Milky Way based on the analysis of the velocity distribution of 2850 counter-rotating halo stars from the Gaia DR2. The distances were estimated through the StarHorse code, and only stars with distance errors smaller than 10 per cent were used in the study. The escape speed curve is measured at Galactocentric radii ranging from 5 kpc to 10.5 kpc. The local Galactic escape at the Sun's position is estimated to be ve(r)=580 63~km~s-1, and it rises towards the Galactic center. Defined as the minimum speed required to reach three virial radii, our estimate of the escape speed as a function of radius implies, for a Navarro-Frenk-White profile and local circular velocity of 240~km~s-1, a dark matter mass M200=1.28+0.68-0.50 × 1012~M and a high concentration c200=11.09+2.94-1.79. Assuming the mass-concentration relation of , we get M200=1.55-0.51+0.64× 1012~M, c200=7.93-0.27+0.33, for a local circular velocity of 228~km~s-1.