Wednesday, May 1, 2013

1304.7938 (Sarah M. Sweet et al.)

Choirs, HI Galaxy Groups: Catalogue and Detection of Star-forming Dwarf Group Members    [PDF]

Sarah M. Sweet, Gerhardt Meurer, Michael J. Drinkwater, Virginia Kilborn, Helga Dénes, Kenji Bekki, Dan Hanish, Henry Ferguson, Patricia Knezek, Joss Bland-Hawthorn, Michael Dopita, Marianne T. Doyle-Pegg, Ed Elson, Ken Freeman, Tim Heckman, Robert Kennicutt, Ji Hoon Kim, Bärbel Koribalski, Martin Meyer, Mary Putman, Emma Ryan-Weber, Chris Smith, Lister Staveley-Smith, O. Ivy Wong, Rachel Webster, Jessica Werk, Martin Zwaan
H{\alpha} observations centred on galaxies selected from the HI Parkes All Sky Survey (HIPASS, Barnes et al. 2001) typically show one and sometimes two star-forming galaxies within the approximately 15-arcminute beam of the Parkes 64-m HI detections. In our Survey of Ionization in Neutral Gas Galaxies (SINGG, Meurer et al. 2006) we found fifteen cases of HIPASS sources containing four or more emission line galaxies (ELGs). We name these fields Choir groups. In the most extreme case we found a field with at least nine ELGs. In this paper we present a catalogue of Choir group members in the context of the wider SINGG sample. The dwarf galaxies in the Choir groups would not be individually detectable in HIPASS at the observed distances if they were isolated, but are detected in SINGG narrow-band imaging due to their membership of groups with sufficiently large total HI mass. The ELGs in these groups are similar to the wider SINGG sample in terms of size, H{\alpha} equivalent width, and surface brightness. Eight of these groups have two large spiral galaxies with several dwarf galaxies and may be thought of as morphological analogues of the Local Group. However, on average our groups are not significantly HI-deficient, suggesting that they are at an early stage of assembly, and more like the M81 group. The Choir groups are very compact at typically only 190 kpc in projected distance between the two brightest members. They are very similar to SINGG fields in terms of star formation efficiency (the ratio of star formation rate to HI mass; SFE), showing an increasing trend in SFE with stellar mass.
View original: http://arxiv.org/abs/1304.7938

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