Abstract
We present an analysis of V-band radial surface brightness {\mu}(r) profiles for S0s in different environments using HST/ACS imaging and data from the Space Telescope A901/2 Galaxy Evolution Survey (STAGES). Using a sample of ~280 field and cluster S0s, we find that in both environments, ~25 per cent have a pure exponential disc (Type I) and ~50 per cent exhibit an up-bending disc break (antitruncation, Type III). However, we find hardly any (< 5 per cent) down-bending disc breaks (truncations, Type II) in our S0s and many cases (~20 per cent) where no exponential component was observed. We also find no evidence for an environmental dependence on the disc scalelength or break strength (outer-to-inner scalelength ratio), implying that the galaxy environment does not affect the stellar distribution in S0 stellar discs. Comparing disc structure between these S0s and the spirals from our previous studies, we find: i) no evidence for the Type I scalelength being dependent on morphology; and ii) some evidence suggesting the Type II/III break strength is smaller (weaker) in S0s compared to spirals. Taken together, these results suggest that the stellar distribution in S0s is not drastically affected by the galaxy environment. However, some process inherent to the morphological transformation of spirals into S0s does affect the stellar disc causing a weakening of {\mu}(r) breaks and may even eliminate truncations from S0s. In further tests, we perform analytical bulge-disc decompositions on our S0s and compare the results to those for spirals from our previous studies. For Type III galaxies, we find that bulge light can account for the excess light at large radii in up to ~50 per cent of S0s but in only ~15 per cent of spirals. We propose that this result is consistent with a fading stellar disc (evolving bulge-to-disc ratio) being an inherent process in the transformation of spirals into S0s.
Highlights
It is well established that correlations exist between the properties of galaxies, e.g. morphology, colour and star formation rate, and their local environment (Dressler 1980; Weinmann et al 2006)
(ii) Bulge light can account for more type III profiles in S0s than spiral galaxies: our results suggest that an extended bulge component can account for type III features in as many as ∼45 per cent of type III S0s, but in only ∼15 per cent of type III spirals (Maltby et al 2012b)
We present an analysis of V-band radial surface brightness profiles μ(r) for S0 galaxies from the field and cluster environment using Hubble Space Telescope (HST)/Advanced Camera for Surveys (ACS) imaging and data from the Space Telescope A901/2 Galaxy Evolution Survey (STAGES) survey
Summary
It is well established that correlations exist between the properties of galaxies, e.g. morphology, colour and star formation rate, and their local environment (Dressler 1980; Weinmann et al 2006). An important aspect in studying how the environment could affect the formation and evolution of disc galaxies is the structure of galactic discs Their fragile outer regions are more affected. The light profiles of disc galaxies are comprised of two main structural components: an inner bulge-dominated component; and an outer exponentially declining disc with some minor deviations related to sub-structure (de Vaucouleurs 1959; Freeman 1970). This ‘classical’ picture fails for the majority of disc galaxies in the Universe since the exponential component is often truncated (sharply cut off) after several scalelengths (van der Kruit 1979). Broken exponential discs have been reported through the use of resolved star counts on some nearby galaxies (Ibata et al 2005; Ferguson et al 2007)
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