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WALLABY SWG3. The influence of environment on the HI content of galaxies. Virginia Kilborn Bunker Bay, Nov, 2009.
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WALLABY SWG3 The influence of environment on the HI content of galaxies Virginia Kilborn Bunker Bay, Nov, 2009
SWG3: Galaxy Environments (groups, interactions/mergers) Ben Bekhti, Blake, Bouchard, Buyle, Colless, English, Henning, Jerjen, Jozsa, Juette, Karachentsev, Kerp, Kilborn, Koribalski, Kraan-Korteweg, Lopez-Sanchez, Meurer, Oosterloo, Popping, Radchaudhury, Rhee, Saikia, Spekkens, van der Hulst, Westmeier, Wilcots, Winkel, Wong
Effect of Environment • We know that environment affects the evolution of galaxies: • Galaxies in clusters were bluer at high redshift compared to z~0 - evolution of galaxies in clusters? Galaxies in clusters are redder and older than the field (e.g. Butcher & Oemler) • Galaxies in clusters are more likely to be early-type (e.g. Dressler 1980). • Similar effects recently seen in the less-dense group environment •How will ASKAP be able to investigate these effects? • Observations of the removal of HI from galaxies (gas stripping) • Frequency and environment of galaxy mergers • Extra-galactic HI (in dense, and low-density environments) • Evolution of HI content of galaxies from z~0.5 to z~0 • HI mass function in different environments (Zwaan et al.)
Vollmer et al 2004 Chung 2007 Stripping the HI from galaxies • What are the main methods to strip gas from galaxies? • Harassment - frequent, high-speed encounters in clusters • Strangulation - gradual gas-loss from a galaxy into the potential well of a cluster or group • Ram pressure stripping • Tidal interactions • In particular, these last 2 effects can be seen in high-resolution HI observations
Investigating gas stripping without mapping • The closest few to ten thousand galaxies will be mapped well enough to see tidal and ram pressure stripping effects in the imaging • The other 100s of thousand galaxies will be unresolved - how to test if they are losing gas? • Use the optical properties to determine the expected HI content of a galaxy of a particular optical classification (or some other classification scheme) • This requires accurate matching of HI detection with optical catalogues, and homogeneous optical data • A good project for SkyMapper
Previous “HI deficiency” measures • In the mid-80s, Haynes and Giovanelli looked at defHI in clusters, finding HI deficient spirals near the centres of a number of clusters defHI = MHI(expected) - MHI (obs) • Their “expected HI mass” based on the relationship of a few tens of galaxies of each optical classification • In 2005, new “expected HI mass” relations determined using HIPASS BGC - over 100 galaxies in each relationship • This data applied to galaxy group work, and found that there are HI deficient galaxies in groups too - so its not just clusters that are stripping HI from galaxies
HI deficiency in groups: comparison with X-ray and v clusters • HI def in groups - can’t be due to ram pressure stripping (entirely) as: • HI def galaxies found in groups without X-rays • No relationship seen between HI def fraction and X-ray emission/velocity dispersion of groups
Global galaxy evolution • Until now, deep HI studies have concentrated on particular structures- clusters, and more recently groups and filaments • ASKAP will make it possible to study galaxy evolution across the continuum of all environments
Giovanelli et al. 2006, in prep English et al. 2009 Ryder et al. 2002 Oosterloo & van Gorkum 08 Kilborn et al 2000