# citations = 178
citations vs. year [year,citations]
[2011,9][2012,41][2013,46][2014,40][2015,35][2016,7]
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We estimate the conversion factor relating CO emission to H2 mass, ЮБCO, in five Local Group galaxies that span approximately an order of magnitude in metallicityт??M 31, M 33, the Large Magellanic Cloud (LMC), NGC 6822, and the Small Magellanic Cloud (SMC). We model the dust mass along the line of sight from infrared (IR) emission and then solve for the ЮБCO that best allows a single gas-to-dust ratio (ЮДGDR) to describe each system. This approach remains sensitive to CO-dark envelopes H2 surrounding molecular clouds. In M 31, M 33, and the LMC we find ЮБCO т?? 3-9 M sun pc-2 (K km s-1)-1, consistent with the Milky Way value within the uncertainties. The two lowest metallicity galaxies in our sample, NGC 6822 and the SMC (12 + log (O/H) т?? 8.2 and 8.0), exhibit a much higher ЮБCO. Our best estimates are ЮБNGC6822 CO т?? 30 M sun pc-2 (K km s-1)-1 and ЮБSMC CO т?? 70 M sun pc-2 (K km s-1)-1. These results are consistent with the conversion factor becoming a strong function of metallicity around 12 + log (O/H) ~ 8.4-8.2. We favor an interpretation where decreased dust shielding leads to the dominance of CO-free envelopes around molecular clouds below this metallicity.
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# citations = 178
citations vs. year [year,citations]
[2011,9][2012,41][2013,46][2014,40][2015,35][2016,7]
Copyright © 2012 Karl D. Gordon All Rights Reserved