Irina Marinova, Shardha Jogee, Tim Weinzirl, Peter Erwin, Neil Trentham, Henry C. Ferguson, Derek Hammer, Mark den Brok, Alister W. Graham, David Carter, Marc Balcells, Paul Goudfrooij, Rafael Guzman, Carlos Hoyos, Bahram Mobasher, Mustapha Mouhcine, Reynier F. Peletier, Eric Peng, Gijs Verdoes Kleijn
(ABRIDGED) We use high resolution (~0.1") F814W ACS images from the HST ACS
Treasury survey of the Coma cluster at z~0.02 to study bars in massive disk
galaxies (S0s), and in dwarf galaxies in the Coma core. Our study helps
constrain the evolution of bars and disks in dense environments and provides a
comparison point for studies in lower density environments and at higher
redshifts. (1) We characterize the fraction and properties of bars in a sample
of 32 bright (M_V <= -18, M_* > 10^9.5 M_sun) S0 galaxies, which dominate the
population of massive disk galaxies in the Coma core. Measuring the S0 bar
fraction must be handled carefully, as the results depend on the method used:
the bar fraction for bright S0s in the Coma core is 50%+/-11%, 65%+/-11%, and
60%+/-11% for three methods of bar detection: strict ellipse fit criteria,
relaxed ellipse fit criteria, and visual classification. (2) We compare the S0
bar fraction across different environments (Coma core, A901/902, Virgo). We
find that the bar fraction among bright S0 galaxies does not show a
statistically significant variation across environments spanning two orders of
magnitude in galaxy number density (n~300-10,000 gal/Mpc^3). We speculate that
the S0 bar fraction is not significantly enhanced in rich clusters because S0s
in rich clusters are less prone to bar instabilities as they are dynamically
hot and gas poor due to ram pressure stripping and accelerated star formation.
In addition, high-speed encounters in rich clusters may be less effective than
slow, strong encounters in inducing bars. (3) We analyze a sample of 333 faint
(M_V > -18) dwarf galaxies in the Coma core. Using unsharp-masking, we find
only 13 galaxies with bar and/or spiral structure. The paucity of disk
structures in Coma dwarfs suggests that either disks are not common in these
galaxies, or that any disks present are too hot to develop instabilities.
View original:
http://arxiv.org/abs/1201.4910
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