Giant molecular cloud G18.1-0.3+51 associated with HII regions and supernova remnant in the 3-kpc expanding ring

Abstract

Analyzing the high-resolution CO-line survey of the Galactic plane with the Nobeyama 45-m telescope (FUGIN), we show that the star-forming complex G18.15-0.30+51 (G18) at radial velocity of 51 is a tight triple association of a giant molecular cloud (GMC), HII regions, and a supernova remnant (SNR). The kinematical distance of G18 is determined to be d=3.9 0.2 kpc for near solution for circular rotation, 12 0.2 kpc for far solution, or d=6.1 0.1, if it is in the 3-kpc expanding ring. The HI-line absorption of radio continuum from the HII regions constrains the distance to 5.6 d SNR 7.6 kpc. The -D (radio brightness-diameter) relation yields the distance to the SNR of d SNR=10.1+11.5-4.7 kpc, allowing for a minimum distance of 5.4 kpc. From these we uniquely determined the distance of G18 to be 6.07 0.13 kpc in the 3-kpc expanding ring with the SNR being physically associated. The molecular mass of the GMC is estimated to be M mol 3× 105 M. The ratio of Virial to luminous molecular masses is greater than unity in the central region and decreases outward to 0.2 at the cloud edge, indicating that the central region is dynamic, while the entire cloud is stable. We discuss the origin of the G18 triple system and propose a sustainable GMC model with continuous star formation.