Possibility of using 3.3μm PAH luminosity as a molecular gas mass estimator
Abstract
We present CO(1-0) observations of 50 star-forming galaxies at 0.01<z<0.35, for which 3.3\,μm PAH emission flux or its upper limit is available. A scaling relation between 3.3\,μm PAH luminosity and CO(1-0) luminosity is established covering ~2 orders of magnitude in total IR luminosity and CO luminosity, with a scatter of ~0.23 dex: log\,L3.3/L=(1.000.07)×log\,LCO(1-0)/(K\,km\,s-1\,pc2)+(-1.100.70). The slope is near unity, allowing the use of a single value of \,(L3.3/LCO(1-0))=-1.090.36~[L/(K\,km\,s-1\,pc2)] in the conversion between 3.3\,μm PAH and CO luminosities. The variation in the L3.3/LCO ratio is not dependent on the galaxy properties, including total IR luminosity, stellar mass, and SFR excess. The total gas mass, estimated using dust-to-gas ratio and dust mass, is correlated with 3.3\,μm PAH luminosity, in line with the prescription using αCO=0.8-4.5 covering both normal star-forming galaxies and starburst galaxies. AGN-dominated galaxies tend to have a lower L3.3/LCO than non-AGN galaxies, which needs to be investigated further with an increased sample size. The established L3.3-LCO correlation is expected to be applicable to wide-field near-infrared spectrophotometric surveys that allow the detection of 3.3\,μm emission from numerous low-redshift galaxies.
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