Globular Clusters in Virgo Ellipticals: Unexpected Results for Giants, Dwarfs, and Nuclei from ACS Imaging

We have analyzed archival HST/ACS images in Sloan g and z of the globular cluster (GC) systems of 53 ellipticals in the Virgo Cluster, spanning massive galaxies to dEs. Among the new results are: (1) In the gEs M87 and NGC 4649, there is a correlation between luminosity and color for individual metal-poor GCs, such that more massive GCs are more metal-rich. A plausible interpretation of this result is self-enrichment, and may suggest that these GCs once possessed dark matter halos. (2) Many dEs have metal-rich GC subpopulations. We also confirm the GC color--galaxy luminosity relations found previously for both metal-poor and metal-rich GC subpopulations. (3) There are large differences in GC specific frequency among dEs. Over -15 < M_B < -18, there is little correlation between specific frequency (S_N)and M_B. But we do find evidence for two separate S_N classes of dEs: those with B-band S_N ~ 2, and others with populous GC systems that have S_N ranging from ~ 5-20 with median S_N ~ 10. Together, these points suggest multiple formation channels for dEs in Virgo. (4) The peak of the GC luminosity function (GCLF) is the same for both gEs and dEs. This is contrary to expectations of dynamical friction on massive GCs, unless the primordial GCLF varies between gEs and dEs. Among gEs the GCLF turnover varies by a surprising small 0.05 mag, an encouraging result for its use as an accurate standard candle. (5) dE,Ns appear bimodal in their nuclear properties: there are small bright red nuclei consistent with formation by dynamical friction of GCs, and larger faint blue nuclei which appear to have formed by a dissipative process with little contribution from GCs. The role of dynamical evolution in shaping the present-day properties of dE GC systems and their nuclei remains ambiguous. (Abridged)