Cloud-to-cloud velocity dispersions across a Local arm segment

Abstract

Using a large sample of 9617 molecular clouds (MCs) from the Milky Way Imaging Scroll Painting survey, we mainly measure one-dimensional cloud-to-cloud velocity dispersions across a 450 deg2 segment of the Local arm in the Galactic second quadrant. We define the cloud-to-cloud velocity dispersion using two metrics: the standard deviation (σ bin) and flux-weighted root-mean-squared value (σ bin, w) of the centroid velocities of 12CO-detected MCs within spatial bins. The typical values of σ bin and σ bin, w are 7.50.5 km s-1 and 6.20.5 km s-1, respectively. After categorizing clouds by sizes into three types: Type S (0.15 - 1.2 pc), Type M (1.2 - 4.8 pc), and Type L ( 4.8 pc), we find that the spatial distribution of Type S and M MCs projected onto the Galactic longitude-latitude (l-b) plane is generally uniform. Additionally, the cloud-to-cloud velocity dispersion among Type S clouds ( 7.6 and 7.4 km s-1 for σ bin and σ bin, w, respectively) is systematically greater than that among Type M clouds ( 6.7 and 6.0 km s-1 for σ bin and σ bin, w, respectively), with differences of 0.9 - 1.4 km s-1. From these measurements, we estimate merger timescales between MCs to be approximately 0.3 to 0.9 Myr, which is shorter than their internal crossing timescales ( 1 Myr for Type S, 2 Myr for Type M, and 5 Myr for Type L). This disparity, particularly pronounced for larger Type L clouds, suggests that MCs are dynamically transient structures, with their gas content changing due to frequent interactions with neighboring clouds.