CO-to-H2 Conversion and Spectral Column Density in Molecular Clouds: The Vriability of X CO Factor

Abstract

Analyzing the Galactic plane CO survey with the Nobeyama 45-m telescope, we compared the spectral column density (SCD) of H2 calculated for 12CO line using the current conversion factor X CO to that for 13CO line under LTE in M16 and W43 regions. Here, SCD is defined by dN H2/dv with N H2 and v being the column density and radial velocity, respectively. It is found that the X CO method significantly under-estimates the H2 density in a cloud or region, where SCD exceeds a critical value ( 3× 1021\ [ H2 \ cm-2 \ (km \ s-1)-1]), but over-estimates in lower SCD regions. We point out that the actual CO-to-H2 conversion factor varies with the H2 column density or with the CO-line intensity: It increases in the inner and opaque parts of molecular clouds, whereas it decreases in the low-density envelopes. However, in so far as the current X CO is used combined with the integrated 12CO intensity averaged over an entire cloud, it yields a consistent value with that calculated using the 13CO intensity by LTE. Based on the analysis, we propose a new CO-to- conversion relation, N H2* = ∫ X CO*(T B) T B dv, where X CO*=(T B/T B*)β X CO is the modified spectral conversion factor as a function of the brightness temperature, T B, of the 12CO (J=1-0) line, and β 1-2 and T B*=12-16 K are empirical constants obtained by fitting to the observed data. The formula corrects for the over/under estimation of the column density at low/high-CO line intensities, and is applicable to molecular clouds with T B 1 K (rms noise in the data) from envelope to cores at sub-parsec scales (resolution). (Full resolution copy available at http://www.ioa.s.u-tokyo.ac.jp/~sofue/news/2020mnXco12co13fugin.pdf)