SCYON Abstract

Received on January 21 2008

What determines the mass of the most massive star cluster in a galaxy: statistics, physics or disruption?

Authors	M. Gieles
Affiliation	ESO/Santiago
To appear in	To appear in the proceedings of the conference "Young massive clusters - Initial conditions and Environments", held in Granada (Spain), eds. E. Perez, R. de Grijs, R. M. Gonzalez Delgado
Contact	mgieles@eso.org
URL	http://arxiv.org/abs/0801.2676
Links

Abstract

In many different galactic environments the cluster initial mass function (CIMF) is well described by a power-law with index -2. This implies a linear relation between the mass of the most massive cluster (M_max) and the number of clusters. Assuming a constant cluster formation rate and no disruption of the most massive clusters it also means that M_max increases linearly with age when determining M_max in logarithmic age bins. We observe this increase in five out of the seven galaxies in our sample, suggesting that M_max is determined by the size of the sample. It also means that massive clusters are very stable against disruption, in disagreement with the mass independent disruption (MID) model presented at this conference. For the clusters in M51 and the Antennae galaxies the size-of-sample prediction breaks down around 10⁶ M(sun), suggesting that this is a physical upper limit to the masses of star clusters in these galaxies. In this method there is a degeneracy between MID and a CIMF truncation. We show how the cluster luminosity function can serve as a tool to distinguish between the two.