SCYON Abstract

Received on August 2 2010

The Formation of Spheroids in Early-Type Spirals: Clues From Their Globular Clusters

Authors	Aparna Maybhate (¹), Paul Goudfrooij (¹), Rupali Chandar (²), and Thomas H. Puzia (³)
Affiliation	(¹) Space Telescope Science Institute (²) University of Toledo (³) Herzberg Institute of Astrophysics
Accepted by	Astrophysical Journal
Contact	maybhate@stsci.edu
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Abstract

We use deep Hubble Space Telescope images taken with the Advanced Camera for Surveys (ACS) in the F475W and F814W filters to investigate the globular cluster systems in four edge-on Sa spiral galaxies covering a factor of 4 in luminosity. The specific frequencies of the blue globular clusters in the galaxies in our sample fall in the range 0.34 -- 0.84, similar to typical values found for later-type spirals. The number of red globular clusters associated with the bulges generally increases with the bulge luminosity, similar to what is observed for elliptical galaxies, although the specific frequency of bulge clusters is a factor of 2-3 lower for the lowest luminosity bulges than for the higher luminosity bulges. We present a new empirical relation between the fraction of red globular clusters and total bulge luminosity based on the elliptical galaxies studied by ACSVCS (ACS Virgo Cluster Survey), and discuss how this diagram can be used to assess the importance that dissipative processes played in building spiral bulges. Our results suggest a picture where dissipative processes, which are expected during gas-rich major mergers, were more important for building luminous bulges of Sa galaxies, whereas secular evolution may have played a larger role in building lower-luminosity bulges in spirals.