STAR-FORMING GALAXY EVOLUTION IN NEARBY RICH CLUSTERS

Dense environments are known to quench star formation in galaxies, but it is still unknown what mechanism(s) are directly responsible. In this paper, we study the star formation of galaxies in A2029 and compare it to that of Coma, combining indicators at 24 mu m, H alpha , and UV down to rates of 0....

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Veröffentlicht in:The Astrophysical journal 2013-08, Vol.773 (2), p.1-15
Hauptverfasser: Tyler, K D, Rieke, G H, Bai, L
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Sprache:eng
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Zusammenfassung:Dense environments are known to quench star formation in galaxies, but it is still unknown what mechanism(s) are directly responsible. In this paper, we study the star formation of galaxies in A2029 and compare it to that of Coma, combining indicators at 24 mu m, H alpha , and UV down to rates of 0.03 M sub([middot in circle]) yr super(-1). We show that A2029's star-forming galaxies follow the same mass-SFR relation as the field. The Coma cluster, on the other hand, has a population of galaxies with star formation rates (SFRs) significantly lower than the field mass-SFR relation, indicative of galaxies in the process of being quenched. Over half of these galaxies also host active galactic nuclei. Ram-pressure stripping and starvation/strangulation are the most likely mechanisms for suppressing the star formation in these galaxies, but we are unable to disentangle which is dominating. The differences we see between the two clusters' populations of star-forming galaxies may be related to their accretion histories, with A2029 having accreted its star-forming galaxies more recently than Coma. Additionally, many early-type galaxies in A2029 are detected at 24 mu m and/or in the far-UV, but this emission is not directly related to star formation. Similar galaxies have probably been classified as star forming in previous studies of dense clusters, possibly obscuring some of the effects of the cluster environment on true star-forming galaxies.
ISSN:0004-637X
1538-4357
DOI:10.1088/0004-637X/773/2/86