Yu. N. Efremov scite author profile

A B S T R A C TThe average age difference between pairs of star clusters in the Large Magellanic Cloud (LMC) increases with their separation as the ϳ0:35 power. This suggests that star formation is hierarchical in space and in time. Small regions form stars quickly and large regions, which often contain the small regions, form stars over a longer period. A similar result found previously for Cepheid variables is statistically less certain than the cluster result.

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Hierarchical star formation in M 51: star/cluster complexes

Bastian¹,

Gieles²,

Efremov³

et al. 2005

A&A

144

172

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We report on a study of young star cluster complexes in the spiral galaxy M 51. Recent studies have confirmed that star clusters do not form in isolation, but instead tend to form in larger groupings or complexes. We use HST broad and narrow band images (from both WFPC2 and ACS), along with BIMA-CO observations to study the properties and investigate the origin of these complexes. We find that the complexes are all young (<10 Myr), have sizes between ∼85 and ∼240 pc, and have masses between 3-30 × 10 4 M . Unlike that found for isolated young star clusters, we find a strong correlation between the complex mass and radius, namely M ∝ R 2.33±0.19 . This is similar to that found for giant molecular clouds (GMCs). By comparing the mass-radius relation of GMCs in M 51 to that of the complexes we can estimate the star formation efficiency within the complexes, although this value is heavily dependent on the assumed CO-to-H 2 conversion factor. The complexes studied here have the same surface density distribution as individual young star clusters and GMCs. If star formation within the complexes is proportional to the gas density at that point, then the shared mass-radius relation of GMCs and complexes is a natural consequence of their shared density profiles. We briefly discuss possibilities for the lack of a mass-radius relation for young star clusters. We note that many of the complexes show evidence of merging of star clusters in their centres, suggesting that larger star clusters can be produced through the build up of smaller clusters.

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Star Complexes and Associations: Fundamental and Elementary Cells of Star Formation

Efremov¹

1995

149

141

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An Extension of Hierarchical Star Formation to Galactic Scales

Elmegreen¹,

Efremov²

1996

ApJ

133

128

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Yu. N. Efremov

A Universal Formation Mechanism for Open and Globular Clusters in Turbulent Gas

Hierarchical star formation from the time--space distribution of star clusters in the Large Magellanic Cloud

Hierarchical star formation in M 51: star/cluster complexes

Star Complexes and Associations: Fundamental and Elementary Cells of Star Formation

An Extension of Hierarchical Star Formation to Galactic Scales

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