Ionized Carbon in Galaxies: The [C II] 158 μm Line as a Total Molecular Gas Mass Tracer Revisited
Abstract
In this paper we present a statistical study of the [C II] 158 μm line and the CO(1-0) emission for a sample of 200 local and high-z (32 sources with z>1) galaxies with much different physical conditions. We explore the correlation between the luminosities of [C II] and CO(1-0) lines, and obtain a strong linear relationship, confirming that [C II] is able to trace total molecular gas mass, with a small difference between (U)LIRGs and less-luminous galaxies. The tight and linear relation between [C II] and CO(1-0) is likely determined by the average value of the observed visual extinction AV and the range of G0/n in galaxies. Further investigations into the dependence of L[CII]/LCO(1-0) on different physical properties show that L[CII]/LCO(1-0) (1) anti-correlates with IR, and the correlation becomes steeper when IR 1011 L\,kpc-2; (2) correlates positively with the distance from the main sequence (MS) when (MS) 0; and (3) tends to show a systematically smaller value in systems where the [C II] emission is dominated by ionized gas. Our results imply that caution needs to be taken when applying a constant [[C II]-to-MH2 conversion factor to estimate the molecular gas content in extreme cases, such as galaxies having low-level star formation activity or high SFR surface density.
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