Astronomy and Astrophysics – Astrophysics
Scientific paper
2004-10-05
Astrophys.J. 619 (2005) 193-217
Astronomy and Astrophysics
Astrophysics
Accepted for publication in ApJ, 27 pages, Latex using emulateapj5.sty and onecolfloat.sty (included), 12 figures. This update
Scientific paper
10.1086/426473
We present a detailed U-V CMR analysis for 3 local (z<0.06) Abell (A85, A496, A754) galaxy clusters, with 637 total spectroscopic members down to 0.1L^star. We find that these clusters have similar CMRs with a mean color of U-V=1.4 at M_V=-20+5logh, and narrow limits of intrinsic color scatter [0.047,0.079] and slope [-0.094,-0.075]. The core cluster population of red galaxies follow CMRs that are in close agreement with that of Coma. We test how sensitive the CMR uniformity is to variations in color aperture size and sample selection, and find slightly wider limits of scatter [0.047,0.112] and slope [-0.104,-0.054]. This upper limit for U-V scatter is consistent with z_form>1.2 for the bulk of the stars in red cluster galaxies, and a maximum age spread of 5.2 Gyr. We note that none of the slopes exhibit a break as claimed by Metcalf et al., and using colors from equal-light apertures does not remove the CMR slope. Our findings expand the single Coma data point and provide a much-needed z=0 base-line for comparisons to high-z cluster U-V CMRs. The CMR scatter range in low-z clusters is consistent with that found in high-z clusters, suggesting little evolution in the stars of red cluster galaxies out to z~1. To identify the most recently accreted galaxies, we divide each cluster's membership into 3 galaxy populations based on CMR-relative U-V color. Blue galaxies make up 18-23% of each cluster's galaxy counts above 0.1L^star. We test the hypothesis that CMR-relative color represents rough cluster infall times and find that blue galaxies are spatially, kinematically, and morphologically distinct from red cluster members. These distinctions provide further evidence that bluer members are indeed more recently accreted field spirals as expected in an hierarchical universe. (abridged)
Caldwell Nelson
McIntosh Daniel H.
Rix Hans-Walter
Zabludoff Ann I.
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