Herschel-ATLAS: revealing dust build-up and decline across gas, dust and stellar mass selected samples – I. Scaling relations

Herschel-ATLAS: revealing dust build-up and decline across gas, dust and stellar mass selected samples – I. Scaling relations

We present a study of the dust, stars and atomic gas (H i) in an H i-selected sample of local galaxies (z < 0.035) in the Herschel Astrophysical Terahertz Large Area Survey fields. This H i-selected sample reveals a population of very high gas fraction (>80 per cent), low stellar mass sources...

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Main Authors: De Vis, P., Dunne, L., Maddox, S., Gomez, H.L., Clark, C.J.R., Bauer, A.E., Viaene, S., Schofield, S.P., Baes, M., Baker, A.J., Bourne, N., Driver, S.P., Dye, S., Eales, S.A., Furlanetto, C., Ivison, R.J., Robotham, A.S.G., Rowlands, K., Smith, D.J.B., Smith, M.W.L., Valiante, E., Wright, A.H.
Format: Article
Published: Oxford University Press 2016
Subjects:
dust
extinction – ISM: evolution – galaxies: dwarf – galaxies: evolution – galaxies: fundamental parameters – galaxies: ISM
Online Access:https://eprints.nottingham.ac.uk/42325/
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author De Vis, P.
Dunne, L.
Maddox, S.
Gomez, H.L.
Clark, C.J.R.
Bauer, A.E.
Viaene, S.
Schofield, S.P.
Baes, M.
Baker, A.J.
Bourne, N.
Driver, S.P.
Dye, S.
Eales, S.A.
Furlanetto, C.
Ivison, R.J.
Robotham, A.S.G.
Rowlands, K.
Smith, D.J.B.
Smith, M.W.L.
Valiante, E.
Wright, A.H.
author_facet De Vis, P.
Dunne, L.
Maddox, S.
Gomez, H.L.
Clark, C.J.R.
Bauer, A.E.
Viaene, S.
Schofield, S.P.
Baes, M.
Baker, A.J.
Bourne, N.
Driver, S.P.
Dye, S.
Eales, S.A.
Furlanetto, C.
Ivison, R.J.
Robotham, A.S.G.
Rowlands, K.
Smith, D.J.B.
Smith, M.W.L.
Valiante, E.
Wright, A.H.
author_sort De Vis, P.
building Nottingham Research Data Repository
collection Online Access
description We present a study of the dust, stars and atomic gas (H i) in an H i-selected sample of local galaxies (z < 0.035) in the Herschel Astrophysical Terahertz Large Area Survey fields. This H i-selected sample reveals a population of very high gas fraction (>80 per cent), low stellar mass sources that appear to be in the earliest stages of their evolution. We compare this sample with dust- and stellar-mass-selected samples to study the dust and gas scaling relations over a wide range of gas fractions (proxy for evolutionary state of a galaxy). The most robust scaling relations for gas and dust are those linked to near-ultraviolet − r (specific star formation rate) and gas fraction; these do not depend on sample selection or environment. At the highest gas fractions, our additional sample shows that the dust content is well below expectations from extrapolating scaling relations for more evolved sources, and dust is not a good tracer of the gas content. The specific dust mass for local galaxies peaks at a gas fraction of ∼75 per cent. The atomic gas depletion time is also longer for high gas fraction galaxies, opposite to the trend found for molecular gas depletion time-scale. We link this trend to the changing efficiency of conversion of H i to H2 as galaxies increase in stellar mass surface density during their evolution. Finally, we show that galaxies start out barely obscured and increase in obscuration as they evolve, yet there is no clear and simple link between obscuration and global galaxy properties.
first_indexed 2025-11-14T19:48:22Z
format Article
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institution University of Nottingham Malaysia Campus
institution_category Local University
last_indexed 2025-11-14T19:48:22Z
publishDate 2016
publisher Oxford University Press
recordtype eprints
repository_type Digital Repository
spelling nottingham-423252020-05-04T18:16:22Z https://eprints.nottingham.ac.uk/42325/ Herschel-ATLAS: revealing dust build-up and decline across gas, dust and stellar mass selected samples – I. Scaling relations De Vis, P. Dunne, L. Maddox, S. Gomez, H.L. Clark, C.J.R. Bauer, A.E. Viaene, S. Schofield, S.P. Baes, M. Baker, A.J. Bourne, N. Driver, S.P. Dye, S. Eales, S.A. Furlanetto, C. Ivison, R.J. Robotham, A.S.G. Rowlands, K. Smith, D.J.B. Smith, M.W.L. Valiante, E. Wright, A.H. We present a study of the dust, stars and atomic gas (H i) in an H i-selected sample of local galaxies (z < 0.035) in the Herschel Astrophysical Terahertz Large Area Survey fields. This H i-selected sample reveals a population of very high gas fraction (>80 per cent), low stellar mass sources that appear to be in the earliest stages of their evolution. We compare this sample with dust- and stellar-mass-selected samples to study the dust and gas scaling relations over a wide range of gas fractions (proxy for evolutionary state of a galaxy). The most robust scaling relations for gas and dust are those linked to near-ultraviolet − r (specific star formation rate) and gas fraction; these do not depend on sample selection or environment. At the highest gas fractions, our additional sample shows that the dust content is well below expectations from extrapolating scaling relations for more evolved sources, and dust is not a good tracer of the gas content. The specific dust mass for local galaxies peaks at a gas fraction of ∼75 per cent. The atomic gas depletion time is also longer for high gas fraction galaxies, opposite to the trend found for molecular gas depletion time-scale. We link this trend to the changing efficiency of conversion of H i to H2 as galaxies increase in stellar mass surface density during their evolution. Finally, we show that galaxies start out barely obscured and increase in obscuration as they evolve, yet there is no clear and simple link between obscuration and global galaxy properties. Oxford University Press 2016-10-19 Article PeerReviewed De Vis, P., Dunne, L., Maddox, S., Gomez, H.L., Clark, C.J.R., Bauer, A.E., Viaene, S., Schofield, S.P., Baes, M., Baker, A.J., Bourne, N., Driver, S.P., Dye, S., Eales, S.A., Furlanetto, C., Ivison, R.J., Robotham, A.S.G., Rowlands, K., Smith, D.J.B., Smith, M.W.L., Valiante, E. and Wright, A.H. (2016) Herschel-ATLAS: revealing dust build-up and decline across gas, dust and stellar mass selected samples – I. Scaling relations. Monthly Notices of the Royal Astronomical Society, 464 (4). pp. 4680-4705. ISSN 1365-2966 dust extinction – ISM: evolution – galaxies: dwarf – galaxies: evolution – galaxies: fundamental parameters – galaxies: ISM https://academic.oup.com/mnras/article-lookup/doi/10.1093/mnras/stw2501 doi:10.1093/mnras/stw2501 doi:10.1093/mnras/stw2501
spellingShingle dust
extinction – ISM: evolution – galaxies: dwarf – galaxies: evolution – galaxies: fundamental parameters – galaxies: ISM
De Vis, P.
Dunne, L.
Maddox, S.
Gomez, H.L.
Clark, C.J.R.
Bauer, A.E.
Viaene, S.
Schofield, S.P.
Baes, M.
Baker, A.J.
Bourne, N.
Driver, S.P.
Dye, S.
Eales, S.A.
Furlanetto, C.
Ivison, R.J.
Robotham, A.S.G.
Rowlands, K.
Smith, D.J.B.
Smith, M.W.L.
Valiante, E.
Wright, A.H.
Herschel-ATLAS: revealing dust build-up and decline across gas, dust and stellar mass selected samples – I. Scaling relations
title Herschel-ATLAS: revealing dust build-up and decline across gas, dust and stellar mass selected samples – I. Scaling relations
title_full Herschel-ATLAS: revealing dust build-up and decline across gas, dust and stellar mass selected samples – I. Scaling relations
title_fullStr Herschel-ATLAS: revealing dust build-up and decline across gas, dust and stellar mass selected samples – I. Scaling relations
title_full_unstemmed Herschel-ATLAS: revealing dust build-up and decline across gas, dust and stellar mass selected samples – I. Scaling relations
title_short Herschel-ATLAS: revealing dust build-up and decline across gas, dust and stellar mass selected samples – I. Scaling relations
title_sort herschel-atlas: revealing dust build-up and decline across gas, dust and stellar mass selected samples – i. scaling relations
topic dust
extinction – ISM: evolution – galaxies: dwarf – galaxies: evolution – galaxies: fundamental parameters – galaxies: ISM
url https://eprints.nottingham.ac.uk/42325/
https://eprints.nottingham.ac.uk/42325/
https://eprints.nottingham.ac.uk/42325/

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