Results of the SEST Key Programme: CO in the Magellanic Clouds VIII. The giant molecular complex No. 37 of the LMC
Author
dc.contributor.author
Garay Brignardello, Guido
Author
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Johansson, L. E. B.
es_CL
Author
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Nyman, L. A.
es_CL
Author
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Booth, Roy S.
es_CL
Author
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Israel, F. P.
es_CL
Author
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Kutner, M. L.
es_CL
Author
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Lequeux, J.
es_CL
Author
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Rubio López, Mónica
es_CL
Admission date
dc.date.accessioned
2014-01-06T14:51:41Z
Available date
dc.date.available
2014-01-06T14:51:41Z
Publication date
dc.date.issued
2002
Cita de ítem
dc.identifier.citation
A&A 389, 977-992 (2002)
en_US
Identifier
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DOI: 10.1051/0004-6361:20020397 c
Identifier
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https://repositorio.uchile.cl/handle/2250/125953
Abstract
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We report observations of the CO(1!0), CO(2!1) and 13CO(1!0) line emission from the giant molecular
complex No. 37 of the Large Magellanic Cloud, made with linear resolutions between 6 and 12 pc. The observations
were undertaken with the Swedish-ESO Submillimetre Telescope (SEST) as part of the Key Programme:
CO in the Magellanic Clouds. We nd that the CO(1!0) emission arises from six large, distinct, molecular clouds,
with CO luminosities in the range 1 104 to 5 104 K km s−1 pc2 and sizes between 22 and 38 pc, and seven
smaller clumps, with CO luminosities in the range between 7 102 and 2 103 K km s
−1 pc2. The opacities in
the CO(1!0) line at the peak position of the large clouds are remarkably smaller than those derived for Galactic
molecular clouds. Relationships between line width, size and CO luminosities are discussed. The total CO luminosity
of the complex determined from the SEST observations, of 1:8 105 K km s
−1 pc2, is in excellent agreement
with that determined from the low spatial resolution ( 140 pc) observations of Cohen et al. On the other hand,
the total mass of molecular gas in the complex derived from the SEST observations, assuming that the individual
clouds are virialized, is 2:4 106 M , which is a factor of 6 lower than that estimated by Cohen et al. under
the same assumption. We conclude that the value of the velocity integrated CO emission to H2 column density
conversion factor in the LMC determined from low angular resolution observations has been overestimated by a
factor of 3. We derive a conversion factor for clouds in Complex-37 of 6 1020cm
−2 K
−1 km
−1 s, which is
similar to that for clouds in the outer Galaxy.