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CLUES TO THE STAR FORMATION IN NGC 346 ACROSS TIME AND SPACE
We have studied the properties of the stellar populations in the field of the NGC 346 cluster in the Small Magellanic Cloud, using the results of a novel self-consistent method that provides a reliable identification of pre-main sequence (PMS) objects actively undergoing mass accretion, regardless o...
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| Published in: | The Astrophysical journal 2011-10, Vol.740 (1) |
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| Language: | English |
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| container_title | The Astrophysical journal |
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| creator | De Marchi, Guido Panagia, Nino Sabbi, Elena |
| description | We have studied the properties of the stellar populations in the field of the NGC 346 cluster in the Small Magellanic Cloud, using the results of a novel self-consistent method that provides a reliable identification of pre-main sequence (PMS) objects actively undergoing mass accretion, regardless of their age. The 680 identified bona fide PMS stars show a bimodal age distribution, with two roughly equally numerous populations peaked, respectively, at {approx}1 Myr and {approx}20 Myr. We use the age and other physical properties of these PMS stars to study how star formation has proceeded across time and space in NGC 346. We find no correlation between the locations of young and old PMS stars, nor do we find a correspondence between the positions of young PMS stars and those of massive OB stars of similar age. Furthermore, the mass distribution of stars with similar age shows large variations throughout the region. We conclude that, while on a global scale it makes sense to talk about an initial mass function, this concept is not meaningful for individual star-forming regions. An interesting implication of the separation between regions where massive stars and low-mass objects appear to form is that high-mass stars might not be 'perfect' indicators of star formation and hence a large number of low-mass stars formed elsewhere might have so far remained unnoticed. For certain low surface density galaxies this way of preferential low-mass star formation may be the predominant mechanism, with the consequence that their total mass as derived from the luminosity may be severely underestimated and that their evolution is not correctly understood. |
| doi_str_mv | 10.1088/0004-637X/740/1/10;COUNTRYOFINPUT:INTERNATIONALATOMICENERGYAGENCY(IAEA) |
| format | article |
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An interesting implication of the separation between regions where massive stars and low-mass objects appear to form is that high-mass stars might not be 'perfect' indicators of star formation and hence a large number of low-mass stars formed elsewhere might have so far remained unnoticed. 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| ispartof | The Astrophysical journal, 2011-10, Vol.740 (1) |
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| source | EZB Electronic Journals Library |
| subjects | ASTROPHYSICS, COSMOLOGY AND ASTRONOMY CORRELATIONS DISTRIBUTION FUNCTIONS GALAXIES LUMINOSITY MAGELLANIC CLOUDS MASS MASS DISTRIBUTION OPTICAL PROPERTIES PHYSICAL PROPERTIES SPATIAL DISTRIBUTION STAR CLUSTERS STARS VARIATIONS |
| title | CLUES TO THE STAR FORMATION IN NGC 346 ACROSS TIME AND SPACE |
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