Evolution of Star Forming and Active Galaxies in Nearby Clusters
Abstract
(Abridged) We have used optical spectroscopy to investigate the radio- selected active galaxy populations in a sample of 20 nearby Abell clusters. The spectra were used to characterize the galaxies as AGN or galaxies forming stars at rates comparable to or greater than the Milky Way. A significant population of star forming galaxies with large amounts of nuclear dust extinction were revealed. This extinction eliminates bluer emission lines such as [OII], meaning their star formation could easily be overlooked in studies which focus on such features. Around 20% of cluster star forming galaxies have such spectra, and their radial distribution suggests they are the consequence of some cluster environmental effect. We note that galaxies of this type may be identified using their 4000-Angstrom break strengths. We also find that discrepancies in reported radio luminosity functions for AGN are likely the result of classification differences. There exists a large population of cluster galaxies whose radio fluxes, FIR fluxes, and optical magnitudes suggest their radio emission may be powered by stars, yet their spectra lack emission lines. Understanding the nature of these galaxies is critical to assessing the importance of AGN in the radio luminosity function at low luminosities.