Study of the Galactic Rotation Based on Masers and Radio Stars with VLBI Measurements of Their Parallaxes

Abstract

Based on published data, we have produced a sample of 256 radio sources whose trigonometric parallaxes and proper motions were measured by VLBI. This sample contains Galactic masers associated with massive protostars and stars in active star-forming regions. It also includes young low-mass stars from the Gould Belt region whose radio observations were performed in continuum. Based on this, most complete sample of sources to date, we have estimated the velocities (U,V,W) and the parameters of the angular velocity of Galactic rotation 0, (1)0, ... , (4)0 and obtained a new estimate of the distance fromthe Sun to the Galactic center, R0=8.15+0.04-0.20 kpc. The parameters of the Galactic spiral density wave have been found from the series of radial, VR, and residual tangential, Vcirc, velocities of stars. The amplitudes of the radial and tangential velocity perturbations are fR=7.00.9 km s-1 and fθ=3.81.1 km s-1, the perturbation wavelengths are λR=2.30.2 kpc and λθ=2.00.4 kpc, and the Sun's phases in the spiral density wave are ()R=-1639 and ()θ=-13710 for the adopted four-armed spiral pattern.