|Authors||R. de Grijs 1, P. Anders 2, N. Bastian 3, R. Lynds 4, H.J.G.L.M. Lamers 3 and E.J. O'Neil Jr. 4|
1 Institute of Astronomy, University of Cambridge, Madingley Road, Cambridge CB30HA
2 Universitätssternwarte, University of Göttingen, Geismarlandstr. 11, 37083 Göttingen, Germany
3 Astronomical Institute, Utrecht University, Princetonplein 5, 3584 CC Utrecht, The Netherlands
4 Kitt Peak National Observatory, National Optical Astronomy Observatories, Box 26732, Tucson, AZ 85726, US
|Accepted by||Monthly Notices of the Royal Astronomical Society|
The age (and metallicity) distributions of both the clusters in the circumnuclear ring in NGC 3310 and of those outside the ring are statistically indistinguishable, but there is a clear and significant excess of higher-mass clusters in the ring compared to the non-ring cluster sample; it is likely that the physical conditions in the starburst ring may be conducive for the formation of higher-mass star clusters, on average, than in the relatively more quiescent environment of the main galactic disc.
For the NGC 6745 cluster system we derive a median age of ~ 10 Myr. NGC 6745 contains a significant population of high-mass « super star clusters », with masses in the range 6.5 < log( Mcl/Mo ) < 8.0. This detection supports the scenario that such objects form preferentially in the extreme environments of interacting galaxies.
The age of the cluster populations in both NGC 3310 and NGC 6745 is significantly lower than their respective characteristic cluster disruption time-scales, respectively log(t4dis/yr) = 8.05 and 7.75, for 104 Mo clusters. This allows us to obtain an independent estimate of the initial cluster mass function slope, alpha = 2.04 ± 0.23)+0.13-0.43 for NGC 3310, and 1.96 (± 0.15)± 0.19 for NGC 6745, respectively, for masses Mcl > 105 Mo and Mcl > 4 x 105 Mo. These mass function slopes are consistent with those of other young star cluster systems in interacting and starburst galaxies.