Neutral Carbon Emission in luminous infrared galaxies The \ Lines as Total Molecular Gas Tracers

Abstract

We present a statistical study on the [C I](3 P1 → 3 P0), [C I] (3 P2 → 3 P1) lines (hereafter [C I] (1-0) and [C I] (2-1), respectively) and the CO (1-0) line for a sample of (ultra)luminous infrared galaxies [(U)LIRGs]. We explore the correlations between the luminosities of CO (1-0) and [C I] lines, and find that L'CO(1-0) correlates almost linearly with both L' [CI](1-0) and L'[CI](2-1), suggesting that [C I] lines can trace total molecular gas mass at least for (U)LIRGs. We also investigate the dependence of L'[CI](1-0)/L'CO(1-0), L'[CI](2-1)/L'CO(1-0) and L'[CI](2-1)/L'[CI](1-0) on the far-infrared color of 60-to-100 μm, and find non-correlation, a weak correlation and a modest correlation, respectively. Under the assumption that these two carbon transitions are optically thin, we further calculate the [C I] line excitation temperatures, atomic carbon masses, and the mean [C I] line flux-to-H2 mass conversion factors for our sample. The resulting H2 masses using these [C I]-based conversion factors roughly agree with those derived from L'CO(1-0) and CO-to-H2 conversion factor.