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Gas Content and Kinematics in Clumpy, Turbulent Star-forming Disks

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posted on 2024-07-26, 14:28 authored by Heidi A. White, Deanne FisherDeanne Fisher, Norman Murray, Karl GlazebrookKarl Glazebrook, Roberto G. Abraham, Alberto D. Bolatto, Andrew W. Green, Erin Mentuch Cooper, Danail Obreschkow
We present molecular gas-mass estimates for a sample of 13 local galaxies whose kinematic and star-forming properties closely resemble those observed in z ≈ 1.5 main-sequence galaxies. Plateau de Bure observations of the CO[1-0] emission line and Herschel Space Observatory observations of the dust emission both suggest molecular gas-mass fractions of ∼20%. Moreover, dust emission modeling finds T dust < 30 K, suggesting a cold dust distribution compared to their high infrared luminosity. The gas-mass estimates argue that z ∼ 0.1 DYNAMO galaxies not only share similar kinematic properties with high-z disks, but they are also similarly rich in molecular material. Pairing the gas-mass fractions with existing kinematics reveals a linear relationship between f gas and σ/v c, consistent with predictions from stability theory of a self-gravitating disk. It thus follows that high gas-velocity dispersions are a natural consequence of large gas fractions. We also find that the systems with the lowest t dep (∼0.5 Gyr) have the highest ratios of σ/v c and more pronounced clumps, even at the same high molecular gas fraction.

Funding

Investigating Rosetta Stones of galaxy formation

Australian Research Council

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ISSN

1538-4357

Journal title

Astrophysical Journal

Volume

846

Issue

1

Article number

35

Pagination

1 p

Publisher

American Astronomical Society

Copyright statement

Copyright © 2017 The American Astronomical Society. All rights reserved. The published version is reproduced in accordance with the copyright policy of the publisher.

Language

eng

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