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W2981880687 endingPage "177" @default.
W2981880687 startingPage "177" @default.
W2981880687 abstract "We apply novel survival analysis techniques to investigate the relationship between a number of the properties of galaxies and their atomic (MH i) and molecular () gas mass, with the aim of devising efficient, effective empirical estimators of the cold gas content in galaxies that can be applied to large optical galaxy surveys. We find that dust attenuation, AV, of both the continuum and nebular emission, shows significant partial correlations with , after controlling for the effect of star formation rate (SFR). The partial correlation between AV and MH i, however, is weak. This is expected because in poorly dust-shielded regions molecular hydrogen is dissociated by far-ultraviolet photons. We also find that the stellar half-light radius, R50, shows significant partial correlations with both and MH i. This hints at the importance of environment (e.g., galactocentric distance) on the gas content of galaxies and the interplay between gas and SFR. We fit multiple regression to summarize the median, mean, and the 0.15/0.85 quantile multivariate relationships among , AV, metallicity, and/or R50. A linear combination of AV and metallicity (inferred from stellar mass) or AV and R50, can estimate molecular gas masses within ∼2.5–3 times the observed masses. If SFR is used in addition, can be predicted to within a factor ≲2. In this case, AV and R50 are the two best secondary parameters that improve the primary relation between and SFR. Likewise, MH i can be predicted to within a factor ≲3 using R50 and SFR." @default.
W2981880687 created "2019-11-01" @default.
W2981880687 creator A5041844526 @default.
W2981880687 creator A5054184482 @default.
W2981880687 date "2019-10-23" @default.
W2981880687 modified "2023-10-09" @default.
W2981880687 title "Dirt-cheap Gas Scaling Relations: Using Dust Absorption, Metallicity, and Galaxy Size to Predict Gas Masses for Large Samples of Galaxies" @default.
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