The Fraction of Stars That Form in Clusters in Different Galaxies

Abstract

We estimate the fraction of stars that form in compact clusters (bound and unbound), GammaF, in a diverse sample of eight star-forming galaxies, including two irregulars, two dwarf starbursts, two spirals, and two mergers. The average value for our sample is GammaF ~ 24 +/- 9%. We also calculate the fraction of stars in clusters that survive to ages between t1 and t2, denoted by GammaS(t1,t2), and find GammaS(10,100)=4.6 +/- 2.5% and GammaS(100,400)=2.4 +/- 1.1 %, significantly lower than GammaF for the same galaxies. We do not find any systematic trends in GammaF or GammaS with the star formation rate (SFR), the SFR per unit area (SigmaSFR), or the surface density of molecular gas (SigmaH2) within the host galaxy. Our results are consistent with those found previously from the CMF/SFR statistic (where CMF is the cluster mass function), and with the quasi-universal model in which clusters in different galaxies form and disrupt in similar ways. Our results, however, contradict many previous claims that the fraction of stars in bound clusters increases strongly with SigmaSFR and SigmaH2. We find that the previously reported trends are largely driven by comparisons that mixed GammaF ~ GammaS(0,10) and GammaS(10,100), where GammaS(0,10) was systematically used for galaxies with higher SigmaSFR and SigmaH2, and GammaS(10,100) for galaxies with lower SigmaSFR and SigmaH2.