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A Multi-Scale Study of Star Formation in Messier 33
For the Local Group Scd galaxy M 33 this paper presents a multi-scale study of the relationship between the monochromatic star formation rate (SFR) estimator based on 12 \(\mu\)m emission and the total SFR estimator based on a combination of far-ultraviolet and 24 \(\mu\)m emission. We show the 12 \...
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| Published in: | arXiv.org 2018-11 |
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| creator | Elson, E C Kam, S Z Chemin, L Carignan, C Jarrett, T H |
| description | For the Local Group Scd galaxy M 33 this paper presents a multi-scale study of the relationship between the monochromatic star formation rate (SFR) estimator based on 12 \(\mu\)m emission and the total SFR estimator based on a combination of far-ultraviolet and 24 \(\mu\)m emission. We show the 12 \(\mu\)m emission to be a linear estimator of total SFR on spatial scales from 782 pc down to 49 pc, over almost four magnitudes in SFR. These results therefore extend to sub-kpc length scales the analogous results from other studies for global length scales. We use high-resolution HI and \(^{12}\mathrm{CO}(J=2-1)\) image sets from the literature to compare the star formation to the neutral gas. For the full range of length scales we find well-defined power-law relationships between 12 \(\mu\)m-derived SFR surface densities and neutral gas surface densities. For the H\(_\mathrm{2}\) gas component almost all correlations are consistent with being linear. No evidence is found for a breakdown in the star formation law at small length scales in M 33 reported by other authors. We show that the average star formation efficiency in M 33 is roughly \(10^{-9}\) yr\(^{-1}\) and that it remains constant down to giant molecular cloud length scales. Toomre and shear-based models of the star formation threshold are shown to inaccurately account for the star formation activity in the inner disc of M 33. Finally, we clearly show that the HI saturation limit of \(\approx 9\) M\(_{\odot}\) pc\(^{-2}\) reported in the literature for other galaxies is not an intrinsic property of M 33 - it is systematically introduced as an artefact of spatially smoothing the data. |
| doi_str_mv | 10.48550/arxiv.1811.04590 |
| format | article |
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We show the 12 \(\mu\)m emission to be a linear estimator of total SFR on spatial scales from 782 pc down to 49 pc, over almost four magnitudes in SFR. These results therefore extend to sub-kpc length scales the analogous results from other studies for global length scales. We use high-resolution HI and \(^{12}\mathrm{CO}(J=2-1)\) image sets from the literature to compare the star formation to the neutral gas. For the full range of length scales we find well-defined power-law relationships between 12 \(\mu\)m-derived SFR surface densities and neutral gas surface densities. For the H\(_\mathrm{2}\) gas component almost all correlations are consistent with being linear. No evidence is found for a breakdown in the star formation law at small length scales in M 33 reported by other authors. We show that the average star formation efficiency in M 33 is roughly \(10^{-9}\) yr\(^{-1}\) and that it remains constant down to giant molecular cloud length scales. Toomre and shear-based models of the star formation threshold are shown to inaccurately account for the star formation activity in the inner disc of M 33. Finally, we clearly show that the HI saturation limit of \(\approx 9\) M\(_{\odot}\) pc\(^{-2}\) reported in the literature for other galaxies is not an intrinsic property of M 33 - it is systematically introduced as an artefact of spatially smoothing the data.</description><identifier>EISSN: 2331-8422</identifier><identifier>DOI: 10.48550/arxiv.1811.04590</identifier><language>eng</language><publisher>Ithaca: Cornell University Library, arXiv.org</publisher><subject>Astronomical models ; Data smoothing ; Emission ; Galaxies ; Local group (astronomy) ; Multiscale analysis ; Neutral gases ; Star & galaxy formation ; Star formation rate</subject><ispartof>arXiv.org, 2018-11</ispartof><rights>2018. This work is published under http://arxiv.org/licenses/nonexclusive-distrib/1.0/ (the “License”). 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Toomre and shear-based models of the star formation threshold are shown to inaccurately account for the star formation activity in the inner disc of M 33. 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Toomre and shear-based models of the star formation threshold are shown to inaccurately account for the star formation activity in the inner disc of M 33. Finally, we clearly show that the HI saturation limit of \(\approx 9\) M\(_{\odot}\) pc\(^{-2}\) reported in the literature for other galaxies is not an intrinsic property of M 33 - it is systematically introduced as an artefact of spatially smoothing the data.</abstract><cop>Ithaca</cop><pub>Cornell University Library, arXiv.org</pub><doi>10.48550/arxiv.1811.04590</doi><oa>free_for_read</oa></addata></record> |
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| subjects | Astronomical models Data smoothing Emission Galaxies Local group (astronomy) Multiscale analysis Neutral gases Star & galaxy formation Star formation rate |
| title | A Multi-Scale Study of Star Formation in Messier 33 |
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