The B-Band Luminosity Function of Red and Blue Galaxies up to z=3.5
Abstract
We have explored the redshift evolution of the luminosity function of red and blue galaxies up to z=3.5. This was possible joining a deep I band composite galaxy sample, which includes the spectroscopic K20 sample and the HDFs samples, with the deep HAB=26 and KAB=25 samples derived from the deep NIR images of the Hubble Deep Fields North and South, respectively. About 30% of the sample has spectroscopic redshifts and the remaining fraction well-calibrated photometric redshifts. This allowed to select and measure galaxies in the rest-frame blue magnitude up to z 3 and to derive the redshift evolution of the B-band luminosity function of galaxies separated by their rest-frame U-V color or specific (i.e. per unit mass) star-formation rate. The class separation was derived from passive evolutionary tracks or from their observed bimodal distributions. Both distributions appear bimodal at least up to z 2 and the locus of red/early galaxies is clearly identified up to these high redshifts. Both luminosity and density evolutions are needed to describe the cosmological behaviour of the red/early and blue/late populations. The density evolution is greater for the early population with a decrease by one order of magnitude at z 2-3 with respect to the value at z 0.4. The luminosity densities of the early and late type galaxies with MB<-20.6 appear to have a bifurcation at z>1. Indeed while star-forming galaxies slightly increase or keep constant their luminosity density, "early" galaxies decrease in their luminosity density by a factor 5-6 from z 0.4 to z 2.5-3. A comparison with one of the latest versions of the hierarchical CDM models shows a broad agreement with the observed number and luminosity density evolutions of both populations.
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