Towards a deeper understanding of the physics driving galaxy quenching – inferring trends in the gas content via extinction
ABSTRACT In order to investigate the importance of different proposed quenching mechanisms, we use an indirect method to estimate gas masses for ∼62 000 SDSS DR7 galaxies. We infer gas surface densities from dust column densities as traced by extinction within the fibre, applying a metallicity corre...
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| Veröffentlicht in: | Monthly notices of the Royal Astronomical Society. Letters Jg. 492; H. 1; S. L6 - L11 |
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11.02.2020
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| Abstract | ABSTRACT
In order to investigate the importance of different proposed quenching mechanisms, we use an indirect method to estimate gas masses for ∼62 000 SDSS DR7 galaxies. We infer gas surface densities from dust column densities as traced by extinction within the fibre, applying a metallicity correction to account for varying dust-to-gas ratios. We find that both gas fraction and star formation efficiency (SFE) decrease moving away from the star-forming main sequence (MS) towards quiescence for all galaxy masses. We further show that both quantities correlate similarly strongly with the departure from the MS, implying the need for any physical model of quenching to invoke a change in both gas fraction and SFE. Our results call for a better understanding of the physical processes driving the decrease in SFE, which has received relatively little attention in the theory of quenching until now. |
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| AbstractList | ABSTRACT
In order to investigate the importance of different proposed quenching mechanisms, we use an indirect method to estimate gas masses for ∼62 000 SDSS DR7 galaxies. We infer gas surface densities from dust column densities as traced by extinction within the fibre, applying a metallicity correction to account for varying dust-to-gas ratios. We find that both gas fraction and star formation efficiency (SFE) decrease moving away from the star-forming main sequence (MS) towards quiescence for all galaxy masses. We further show that both quantities correlate similarly strongly with the departure from the MS, implying the need for any physical model of quenching to invoke a change in both gas fraction and SFE. Our results call for a better understanding of the physical processes driving the decrease in SFE, which has received relatively little attention in the theory of quenching until now. In order to investigate the importance of different proposed quenching mechanisms, we use an indirect method to estimate gas masses for ∼62 000 SDSS DR7 galaxies. We infer gas surface densities from dust column densities as traced by extinction within the fibre, applying a metallicity correction to account for varying dust-to-gas ratios. We find that both gas fraction and star formation efficiency (SFE) decrease moving away from the star-forming main sequence (MS) towards quiescence for all galaxy masses. We further show that both quantities correlate similarly strongly with the departure from the MS, implying the need for any physical model of quenching to invoke a change in both gas fraction and SFE. Our results call for a better understanding of the physical processes driving the decrease in SFE, which has received relatively little attention in the theory of quenching until now. |
| Author | Bluck, Asa F L Piotrowska, Joanna M Peng, Yingjie Maiolino, Roberto Concas, Alice |
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| Keywords | galaxies: evolution galaxies: ISM galaxies: general |
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In order to investigate the importance of different proposed quenching mechanisms, we use an indirect method to estimate gas masses for ∼62 000 SDSS... In order to investigate the importance of different proposed quenching mechanisms, we use an indirect method to estimate gas masses for ∼62 000 SDSS DR7... |
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| Title | Towards a deeper understanding of the physics driving galaxy quenching – inferring trends in the gas content via extinction |
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