Astronomy and Astrophysics – Astrophysics
Scientific paper
2003-08-20
Astron.Astrophys.411:397-404,2003
Astronomy and Astrophysics
Astrophysics
9 pages, 8 postscript figures - change of the address #3; - Sect. 2.2. paragraph 2: second sentence removed, third sentence ch
Scientific paper
10.1051/0004-6361:20031387
Here we model a star forming factory in which the continuous creation of stars results in a highly concentrated, massive (globular cluster-like) stellar system. We show that under very general conditions a large-scale gravitational instability in the ISM, which triggers the collapse of a massive cloud, leads with the aid of a spontaneous first generation of massive stars, to a standing, small-radius, cold and dense shell. Eventually, as more of the collapsing matter is processed and incorporated, the shell becomes gravitationally unstable and begins to fragment, allowing the formation of new stars, while keeping its location. This is due to a detailed balance established between the ram pressure from the collapsing cloud which, together with the gravitational force exerted on the shell by the forming cluster, acts against the mechanical energy deposited by the collection of new stars. We analyze the mass spectrum of fragments that result from the continuous fragmentation of the standing shell and show that its shape is well approximated at the high mass end by a power law with slope -2.25, very close to the value that fits the universal IMF. The self-contamination resultant from the continuous generation of stars is shown to lead to a large metal spread in massive ($\sim$ 10$^6$ M$_\odot$) clusters, while clusters with a mass similar to 10$^5$ M$_\odot$ or smaller, simply reflect the initial metalicity of the collapsing cloud. This is in good agreement with the data available for globular clusters in the Galaxy.
Medina-Tanco Gustavo A.
Munoz-Tunon Casiana
Palous Jan
Silich Sergiy
Tenorio-Tagle Guillermo
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