The molecular clouds in a section of the third Galactic quadrant: observational properties and chemical abundance ratio between CO and its isotopologues

Abstract

We compare the observational properties between 12CO, 13CO, and C18O and summarize the observational parameters based on 7069 clouds sample from the Milky Way Imaging Scroll Painting (MWISP) CO survey in a section of the third Galactic quadrant. We find that the 13CO angular area (A 13CO) generally increases with that of 12CO (A 12CO), and the ratio of A 13CO to A 12CO is 0.38 by linear fitting. We find that the 12CO and 13CO flux are tightly correlated as F 13CO~=~0.17~ F 12CO with both fluxes calculated within the 13CO-bright region. This indicates that the abundance X 13CO is a constant to be 6.5+0.1-0.5 × 10-7 for all samples under assumption of local thermodynamic equilibrium (LTE). Additionally, we observed that the X-factor is approximately constant in large sample molecular clouds. Similarly, we find F C18O~=~0.11~F 13CO with both fluxes calculated within C18O-bright region, which indicates that the abundance ratios X 13CO/X C18O stays the same value 9.7+0.6-0.8 across the molecular clouds under LTE assumption. The linear relationships of F 12CO vs. F 13CO and F 13CO vs. F C18O hold not only for the 13CO-bright region or C18O-bright region, but also for the entire molecular cloud scale with lower flux ratio. The abundance ratio X 13CO/X C18O inside clouds shows a strong correlation with column density and temperature. This indicates that the X 13CO/X C18O is dominated by a combination of chemical fractionation, selectively dissociation, and self-shielding effect inside clouds.