Outer rotation curve of the Galaxy with VERA IV: Astrometry of IRAS 01123+6430 and the possibility of cloud-cloud collision

Abstract

As part our investigation into the Galactic rotation curve, we carried out Very Long Baseline Interferometry (VLBI) observations towards the star-forming region IRAS 01123+6430 using VLBI Exploration of Radio Astrometry (VERA) to measure its annual parallax and proper motion. The annual parallax was measured to be 0.151+/-0.042 mas, which corresponds to a distance of D=6.61+2.55-1.44 kpc, and the obtained proper motion components were (μαcosδ, μδ)=(-1.44+/-0.15, -0.27+/-0.16) mas yr-1 in equatorial coordinates. Assuming Galactic constants of (R0, 0)=(8.05+/-0.45 kpc, 238+/-14 km s-1), the Galactocentric distance and rotation velocity were measured to be (R, )=(13.04+/-2.24 kpc, 239+/-22 km s-1), which are consistent with a flat Galactic rotation curve. The newly estimated distance provides a more accurate bolometric luminosity of the central young stellar object, LBol=(3.11+/-2.86)× 103 Lsolar, which corresponds to a spectral type of B1-B2. The analysis of 12CO(J=1-0) survey data obtained with the Five College Radio Astronomical Observatory (FCRAO) 14 m telescope shows that the molecular cloud associated with IRAS 01123+6430 consists of arc-like and linear components, which well matches a structure predicted by numerical simulation of the cloud-cloud collision (CCC) phenomenon. The coexistence of arc-like and linear components implies that the relative velocity of initial two clouds was as slow as 3-5 km s-1, which meets the expected criteria of massive star formation where the core mass is effectively increased in the presence of low relative velocity (~3-5 km s-1), as suggested by Takahira et al.(2014).