Astronomy and Astrophysics, volume 529A, 138-138 (2011/5-1)
A parametric study on the formation of extended star clusters and ultra-compact dwarf galaxies.
BRUNS R.C., KROUPA P., FELLHAUER M., METZ M. and ASSMANN P.
Abstract (from CDS):
In the last decade, very extended old stellar clusters with masses in the range from a few 104 to 108M☉ have been found in various types of galaxies in different environments. Objects with masses comparable to normal globular clusters (GCs) are called extended clusters (ECs), while objects with masses in the dwarf galaxy regime are called ultra-compact dwarf galaxies (UCDs). In heavily interacting galaxies star clusters tend to form in larger conglomerations called star cluster complexes (CCs). The individual star clusters in a CC can merge and form a variety of spheroidal stellar objects. The parametric study aims to analyze how the structural parameters of the final merger objects correlate with the underlying CC parameter space. In this work we systematically scan a suitable parameter space for CCs and perform numerical simulations to study their further fate. The varied sizes and masses of the CCs cover a matrix of 5x6 values with CC Plummer radii between 10-160 pc and CC masses between 105.5-108M☉, which are consistent with observed CC parameters. The CCs of the parametric study are on orbits with galactocentric distances between 20kpc and 60kpc. In addition, we studied also the evolution of CCs on a circular orbit at a galactocentric distance of 60kpc to verify that also extremely extended ECs and UCDs can be explained by our formation scenario. All 54 simulations end up with stable merger objects, wherein 26 to 97% of the initial CC mass is bound. The objects show a general trend of increasing effective radii with increasing mass. Despite the large range of input Plummer radii of the CCs (10 to 160pc) the effective radii of the merger objects are constrained to values between 10 and 20pc at the low mass end and to values between 15 and 55pc at the high mass end. The structural parameters of the models are comparable to those of the observed ECs and UCDs. The results of the circular orbits demonstrate that even very extended objects like the M31 ECs found by Huxor in 2005 and the very extended (reff>80pc), high-mass UCDs can be explained by merged cluster complexes in regions with low gravitational fields at large galactocentric radii. We conclude that the observed ECs and UCDs can be well explained as evolved star cluster complexes.
galaxies: star clusters: general - methods: numerical