Cloud-cloud Collision in the Galactic Center 50 km s-1 Molecular Cloud

Abstract

We performed a search of star-forming sites influenced by external factors, such as SNRs, HII regions, and cloud-cloud collisions, to understand the star-forming activity in the Galactic center region using the NRO Galactic Center Survey in SiO v=0, J=2-1, H13CO+ J=1-0, and CS J=1-0 emission lines obtained by the Nobeyama 45-m telescope. We found a half-shell like feature (HSF) with a high integrated line intensity ratio of int T mathrm B(SiO v=0, J=2-1)dv/ int T mathrm B(H13CO+ J=1-0)dv sim6-8 in the 50 km s-1 molecular cloud, which is a most conspicuous molecular cloud in the region and harbors an active star-forming site seen as several compact HII regions. The high ratio in the HSF indicates that the cloud contains huge shocked molecular gas. The HSF is also seen as a half-shell feature in the position-velocity diagram. A hypothesis explaining the chemical and kinetic properties of the HSF is that the feature is originated by a cloud-cloud collision (CCC). We analyzed the CS J=1-0 emission line data obtained by Nobeyama Millimeter Array to reveal the relation between the HSF and the molecular cloud cores in the cloud. We made a cumulative core mass function (CMF) of the molecular cloud cores within the HSF. The CMF in the CCC region is not truncated at least up to sim2500M odot although the CMF of the non-CCC region reaches the upper limit of sim1500M odot. Most massive molecular cores with M mathrmgas>750 M odot are located only around the ridge of the HSF and adjoin the compact HII region. These may be a sign of massive star formation induced by CCC in the Galactic center region.