The Peculiar Velocity of Messier~87 from Microarcsecond Geodetic VLBI Astrometry

Abstract

Our knowledge of the space velocity of Messier 87, which is the dominant galaxy in the Virgo cluster, has been limited to the radial velocity component. Using a cadence of precision position measurements with the global geodetic very long baseline interferometry (VLBI) system over 28 years, we determined the proper motion vector of the radio-emitting core by a robust statistical method involving 1-norm optimization and bootstrapping. The proper motion vector is directed at a position angle 189.2 3.5 in the equatorial International Celestial Reference Frame, and its magnitude is 10.19 μas yr-1 with an uncertainty of 0.64 μas yr-1. The projected velocity of the AGN in the tangential sky plane is (78750)~km~s-1. The peculiar velocity of Messier 87 with respect to the preferred rest frame of the cosmic microwave background field is approximately 1037 km s-1 (assuming a distance of 16.1 Mpc) with an angle of 65 to the current line of sight, which implies a tangential relative motion of M87 and the Galaxy. The peculiar velocity of M87 is directionally concordant with the reconstructed and -simulated motion of the Virgo filament towards the Great Attractor, but the Milky Way moves slower by 470 ~km~s-1 in that direction.