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Gas-to-dust mass ratios in local galaxies over a 2 dex metallicity range

A. Rémy-RuyerS. C. MaddenLaboratoire AIM, CEA/IRFU/Service d'Astrophysique, Universit Paris Diderot, Bat. 709, 91191 Gif-sur-Yvette, FranceF. GallianoLaboratoire AIM, CEA/IRFU/Service d'Astrophysique, Universit Paris Diderot, Bat. 709, 91191 Gif-sur-Yvette, FranceM. GalametzInstitute of Astronomy, University of Cambridge, Madingley Road, Cambridge CB3 0HA, UKT. T. TakeuchiDivision of Particle and Astrophysical Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602, JapanR. S. AsanoDivision of Particle and Astrophysical Science, Nagoya University, Furo-cho, Chikusa-ku, Nagoya 464-8602, JapanS. ZhukovskaMax-Planck-Institut fr Astronomie, Knigstuhl 17, 69117 Heidelberg, GermanyV. LebouteillerLaboratoire AIM, CEA/IRFU/Service d'Astrophysique, Universit Paris Diderot, Bat. 709, 91191 Gif-sur-Yvette, FranceD. CormierZentrum fr Astronomie der Universitt Heidelberg, Institut fr Theoretische Astrophysik, Albert-Ueberle-Str. 2, 69120 Heidelberg, GermanyA. JonesInstitut d'Astrophysique Spatiale, CNRS, UMR8617, 91405 Orsay, FranceM. BocchioInstitut d'Astrophysique Spatiale, CNRS, UMR8617, 91405 Orsay, FranceM. BaesSterrenkundig Observatorium, Universiteit Gent, Krijgslaan 281 S9, 9000 Gent, BelgiumG. J. BendoUK ALMA Regional Centre Node, Jodrell Bank Centre for Astrophysics, School of Physics & Astronomy, University of Manchester, Oxford Road, Manchester M13 9PL, UKM. BoquienLaboratoire d'Astrophysique de Marseille -LAM, Universit d'Aix-Marseille & CNRS, UMR7326, 38 rue F. Joliot-Curie, 13388 Marseille Cedex 13, FranceA. BoselliLaboratoire d'Astrophysique de Marseille -LAM, Universit d'Aix-Marseille & CNRS, UMR7326, 38 rue F. Joliot-Curie, 13388 Marseille Cedex 13, FranceI. DeLoozeSterrenkundig Observatorium, Universiteit Gent, Krijgslaan 281 S9, 9000 Gent, BelgiumV. Doublier-PritchardMax Planck fr Extraterrestrische Physik, Giessenbachstr. 1, 85748 Garching, GermanyT. HughesSterrenkundig Observatorium, Universiteit Gent, Krijgslaan 281 S9, 9000 Gent, BelgiumO. Ł. KarczewskiDepartment of Physics and Astronomy, University of Sussex, Brighton, BN1 9QH, UKL. SpinoglioInstituto di Astrofisica e Planetologia Spaziali, INAF-IAPS, via Fosso del Cavaliere 100, 00133 Roma, Italy
2014en
ABI

Аннотация

Aims. The goal of this paper is to analyse the behaviour of the gas-to-dust mass ratio (G/D) of local Universe galaxies over a wide metallicity range. We especially focus on the low-metallicity part of the G/D vs metallicity relation and investigate several explanations for the observed relation and scatter. Methods. We assembled a total of 126 galaxies, covering a 2 dex metallicity range and with 30% of the sample with 12 + log(O/H) 8.0. We homogeneously determined the dust masses with a semi-empirical dust model including submm constraints. The atomic and molecular gas masses have been compiled from the literature. We used two X CO scenarios to estimate the molecular gas mass: the Galactic conversion factor, X CO,MW , and a X CO that depends on the metallicity X CO,Z (Z -2 ). We modelled the observed trend of the G/D with metallicity using two simple power laws (slope of -1 and free) and a broken power law. Correlations with morphological type, stellar masses, star formation rates, and specific star formation rates are also discussed. We then compared the observed evolution of the G/D with predictions from several chemical evolution models and explored different physical explanations for the observed scatter in the G/D values. Results. We find that out of the five tested galactic parameters, metallicity is the main physical property of the galaxy driving the observed G/D. The G/D versus metallicity relation cannot be represented by a single 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 values for a given metallicity: in metallicity bins of 0.1 dex, the dispersion around the mean value is 0.37 dex. On average, the broken power law reproduces the observed G/D best compared to the two power laws (slope of -1 or free) and provides estimates of the G/D that are accurate to a factor of 1.6. The good agreement of observed values of the G/D and its scatter with respect to metallicity with the predicted values of the three tested chemical evolution models allows us to infer that the scatter in the relation is intrinsic to galactic properties, reflecting the different star formation histories, dust destruction efficiencies, dust grain size distributions, and chemical compositions across the sample. Conclusions. Our results show that the chemical evolution of low-metallicity galaxies, traced by their G/D, strongly depends on their local internal conditions and individual histories. The large scatter in the observed G/D at a given metallicity reflects the impact of various processes occurring during the evolution of a galaxy. Despite the numerous degeneracies affecting them, disentangling these various processes is now the next step.

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