Massive clumps in the ngc 6334 star-forming region
Author
dc.contributor.author
Muñoz, Diego J.
Author
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Mardones Pérez, Diego
es_CL
Author
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Garay Brignardello, Guido
es_CL
Author
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Rebolledo, David
es_CL
Author
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Brooks, Kate J.
Author
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Bontemps, Sylvain
Admission date
dc.date.accessioned
2014-01-08T13:49:30Z
Available date
dc.date.available
2014-01-08T13:49:30Z
Publication date
dc.date.issued
2007-10-20
Cita de ítem
dc.identifier.citation
The Astrophysical Journal, 668:906Y917, 2007 October 20
en_US
Identifier
dc.identifier.uri
https://repositorio.uchile.cl/handle/2250/126034
General note
dc.description
Artículo de publicación ISI
en_US
Abstract
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We report observations of dust continuum emission at 1.2 mm toward the star-forming region NGC 6334 made
with the SEST SIMBAbolometer array. The observations cover an area of 2 deg2 with approximately uniform noise.
We detected 181 clumps spanning almost 3 orders of magnitude in mass (3Y6 ; 103 M ) and with sizes in the range
0.1Y1.0 pc.We find that the clump mass function dN/d logM is well fit with a power law of the mass with exponent
0.6 (or equivalently dN/dM / M 1:6). The derived exponent is similar to those obtained from molecular lineemission
surveys and is significantly different from that of the stellar initial mass function.We investigated changes in
the mass spectrum by changing the assumptions on the temperature distribution of the clumps and on the contribution
of free-free emission to the 1.2 mm emission and found little change on the exponent. The cumulative mass distribution
function is also analyzed, giving consistent results in a mass range excluding the high-mass end, where a powerlaw
fit is no longer valid. The masses and sizes of the clumps observed in NGC 6334 indicate that they are not direct
progenitors of stars and that the process of fragmentation determines the distribution of masses later on or occurs at
smaller spatial scales. The spatial distribution of the clumps in NGC 6334 reveals clustering which is strikingly similar
to that exhibited by young stars in other star-forming regions. A power-law fit to the surface density of companions
gives / 0:62.