The relationship between CO emission and visual extinction traced by dust emission in the Magellanic Clouds
Author
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Lee, Cheoljong
Author
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Leroy, Adam K.
Author
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Schnee, Scott
Author
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Wong, Tony
Author
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Bolatto, Alberto D.
Author
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Indebetouw, Remy
Author
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Rubio López, Mónica
Admission date
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2015-09-10T19:43:53Z
Available date
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2015-09-10T19:43:53Z
Publication date
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2015
Cita de ítem
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MNRAS 450, 2708–2726 (2015)
en_US
Identifier
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DOI: 10.1093/mnras/stv863
Identifier
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https://repositorio.uchile.cl/handle/2250/133584
General note
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Artículo de publicación ISI
en_US
Abstract
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To test the theoretical understanding that finding bright CO emission depends primarily on dust shielding, we investigate the relationship between CO emission (I-CO) and the amount of dust (estimated from infrared emission and expressed as 'A(V)') across the Large Magellanic Cloud (LMC), the Small Magellanic Cloud, and the MilkyWay. We show that at our common resolution of 10 pc scales, I-CO given a fixed line of sight AV is similar across all three systems despite the difference in metallicity. We find some evidence for a secondary dependence of I-CO on radiation field; in the LMC, I-CO at a given AV is smaller in regions of high T-dust, perhaps because of an increased photodissociating radiation field. We suggest a simple but useful picture in which the CO-to-H-2 conversion factor (X-CO) depends on two separable factors: (1) the distribution of gas column densities, which maps to an extinction distribution via a dust-to-gas ratio; and (2) the dependence of I-CO on AV. Assuming that the probability distribution function (PDF) of local MilkyWay clouds is universal, this approach predicts a dependence of X-CO on Z between Z(-1) and Z(-2) above about a third solar metallicity. Below this metallicity, CO emerges from only the high column density parts of the cloud and so depends very sensitively on the adopted PDF and the H-2/H-I prescription. The PDF of low-metallicity clouds is thus of considerable interest and the uncertainty associated with even an ideal prescription for X-CO at very low metallicity will be large.
en_US
Patrocinador
dc.description.sponsorship
CONICYT(CHILE) through FONDECYT
1140839
project BASAL
PFB-06
NSF-AST 0955836
1412419