Trigonometric parallax and proper motion of Sagittarius A* measured by VERA using the new broad-band back-end system OCTAVE-DAS

Abstract

We successfully measured the trigonometric parallax of Sagittarius A* (Sgr A*) to be 11717 micro-arcseconds (μas) using the VLBI Exploration of Radio Astrometry (VERA) with the newly developed broad-band signal-processing system named OCTAVE-DAS. The measured parallax corresponds to a Galactocentric distance at the Sun of R0 = 8.5+1.5-1.1 kpc. By combining the astrometric results with VERA and the Very Long Baseline Array (VLBA) over a monitoring period of 25 years, the proper motion of Sgr A* is obtained to be (μα, μδ) = (-3.1330.003, -5.5750.005) mas yr-1 in equatorial coordinates, corresponding to (μl, μb) = (-6.3910.005, -0.2300.004) mas yr-1 in Galactic coordinates. This gives an angular orbital velocity of the Sun of = 30.30 0.02 km s-1 kpc-1. We find upper limits to the core wander, θ < 0.20 mas (1.6 AU), peculiar motion, μ < 0.10 mas yr-1 (3.7 km s-1), and acceleration, a < 2.6 μas yr-2 (0.10 km s-1 yr-1) for Sgr A*. Thus, we obtained upper mass limits of ≈ 3 × 104M and ≈ 3 × 103M for the supposed intermediate-mass black holes at 0.1 and 0.01 pc from the Galactic center, respectively.