Physical properties of CO-dark molecular gas traced by C+

Abstract

Neither HI nor CO emission can reveal a significant quantity of so-called dark gas in the interstellar medium (ISM). It is considered that CO-dark molecular gas (DMG), the molecular gas with no or weak CO emission, dominates dark gas. We identified 36 DMG clouds with C+ emission (data from Galactic Observations of Terahertz C+ (GOT C+) project) and HINSA features. Based on uncertainty analysis, optical depth of HI τHI of 1 is a reasonable value for most clouds. With the assumption of τHI=1, these clouds were characterized by excitation temperatures in a range of 20 K to 92 K with a median value of 55 K and volume densities in the range of 6.2×101 cm-3 to 1.2× 103 cm-3 with a median value of 2.3× 102 cm-3. The fraction of DMG column density in the cloud (fDMG) decreases with increasing excitation temperature following an empirical relation fDMG=-2.1× 10-3T(ex,τHI=1)+1.0. The relation between fDMG and total hydrogen column density NH is given by fDMG=1.0-3.7× 1020/NH. The values of fDMG in the clouds of low extinction group (AV 2.7 mag) are consistent with the results of the time-dependent, chemical evolutionary model at the age of ~ 10 Myr. Our empirical relation cannot be explained by the chemical evolutionary model for clouds in the high extinction group (AV > 2.7 mag). Compared to clouds in the low extinction group (AV 2.7 mag), clouds in the high extinction group (AV > 2.7 mag) have comparable volume densities but excitation temperatures that are 1.5 times lower. Moreover, CO abundances in clouds of the high extinction group (AV > 2.7 mag) are 6.6× 102 times smaller than the canonical value in the Milky Way. #[Full version of abstract is shown in the text.]#