%0 Generic %1 remyruyer2013gastodust %A Rémy-Ruyer, A. %A Madden, S. C. %A Galliano, F. %A Galametz, M. %A Takeuchi, T. T. %A Asano, R. S. %A Zhukovska, S. %A Lebouteiller, V. %A Cormier, D. %A Jones, A. %A Bocchio, M. %A Baes, M. %A Bendo, G. J. %A Boquien, M. %A Boselli, A. %A DeLooze, I. %A Doublier-Pritchard, V. %A Hughes, T. %A Karczewski, O. Ł. %A Spinoglio, L. %D 2013 %K dust galaxies gas local %T Gas-to-Dust mass ratios in local galaxies over a 2 dex metallicity range %U http://arxiv.org/abs/1312.3442 %X This paper analyses the behaviour of the gas-to-dust mass ratio (G/D) of local Universe galaxies over a large metallicity range. We combine three samples: the Dwarf Galaxy Survey, the KINGFISH survey and a subsample from Galametz et al. (2011) totalling 126 galaxies, covering a 2 dex metallicity range, with 30% of the sample with 12+log(O/H) < 8.0. The dust masses are homogeneously determined with a semi-empirical dust model, including submm constraints. The atomic and molecular gas masses are compiled from the literature. Two XCO are used to estimate molecular gas masses: the Galactic XCO, and a XCO depending on the metallicity (as Z^-2). Correlations with morphological types, stellar masses, star formation rates and specific star formation rates are discussed. The trend between G/D and metallicity is empirically modelled using power-laws (slope of -1 and free) and a broken power-law. We compare the evolution of the G/D with predictions from chemical evolution models. We find that out of the five tested galactic parameters, metallicity is the galactic property driving the observed G/D. The G/D versus metallicity relation cannot be represented by a power-law with a slope of -1 over the whole metallicity range. The observed trend is steeper for metallicities lower than ~ 8.0. A large scatter is observed in the G/D for a given metallicity, with a dispersion of 0.37 dex in metallicity bins of ~0.1 dex. The broken power-law reproduces best the observed G/D and provides estimates of the G/D that are accurate to a factor of 1.6. The good agreement of the G/D and its scatter with the three tested chemical evolution models shows that the scatter is intrinsic to galactic properties, reflecting the different star formation histories, dust destruction efficiencies, dust grain size distributions and chemical compositions across the sample. (abriged)

@misc{remyruyer2013gastodust, abstract = {This paper analyses the behaviour of the gas-to-dust mass ratio (G/D) of local Universe galaxies over a large metallicity range. We combine three samples: the Dwarf Galaxy Survey, the KINGFISH survey and a subsample from Galametz et al. (2011) totalling 126 galaxies, covering a 2 dex metallicity range, with 30% of the sample with 12+log(O/H) < 8.0. The dust masses are homogeneously determined with a semi-empirical dust model, including submm constraints. The atomic and molecular gas masses are compiled from the literature. Two XCO are used to estimate molecular gas masses: the Galactic XCO, and a XCO depending on the metallicity (as Z^{-2}). Correlations with morphological types, stellar masses, star formation rates and specific star formation rates are discussed. The trend between G/D and metallicity is empirically modelled using power-laws (slope of -1 and free) and a broken power-law. We compare the evolution of the G/D with predictions from chemical evolution models. We find that out of the five tested galactic parameters, metallicity is the galactic property driving the observed G/D. The G/D versus metallicity relation cannot be represented by a power-law with a slope of -1 over the whole metallicity range. The observed trend is steeper for metallicities lower than ~ 8.0. A large scatter is observed in the G/D for a given metallicity, with a dispersion of 0.37 dex in metallicity bins of ~0.1 dex. The broken power-law reproduces best the observed G/D and provides estimates of the G/D that are accurate to a factor of 1.6. The good agreement of the G/D and its scatter with the three tested chemical evolution models shows that the scatter is intrinsic to galactic properties, reflecting the different star formation histories, dust destruction efficiencies, dust grain size distributions and chemical compositions across the sample. (abriged)}, added-at = {2013-12-13T07:55:07.000+0100}, author = {Rémy-Ruyer, A. and Madden, S. C. and Galliano, F. and Galametz, M. and Takeuchi, T. T. and Asano, R. S. and Zhukovska, S. and Lebouteiller, V. and Cormier, D. and Jones, A. and Bocchio, M. and Baes, M. and Bendo, G. J. and Boquien, M. and Boselli, A. and DeLooze, I. and Doublier-Pritchard, V. and Hughes, T. and Karczewski, O. Ł. and Spinoglio, L.}, biburl = {https://www.bibsonomy.org/bibtex/27eeeba98a41bddd2921c16e65a90b8b4/miki}, description = {[1312.3442] Gas-to-Dust mass ratios in local galaxies over a 2 dex metallicity range}, interhash = {96917713fa1317a188fe8d56ae37dd47}, intrahash = {7eeeba98a41bddd2921c16e65a90b8b4}, keywords = {dust galaxies gas local}, note = {cite arxiv:1312.3442Comment: 23 pages, 12 figures, accepted in Astronomy & Astrophysics}, timestamp = {2013-12-13T07:55:07.000+0100}, title = {Gas-to-Dust mass ratios in local galaxies over a 2 dex metallicity range}, url = {http://arxiv.org/abs/1312.3442}, year = 2013 }