SIMBAD references

We present number counts, luminosity functions (LFs) and luminosity densities of galaxies obtained using the Sloan Digital Sky Survey Sixth Data Release (SDSS DR6) in all SDSS photometric bands. Thanks to the SDSS DR6, galaxy statistics have increased by a factor of ∼7 in the u band and by a factor between ∼3 and ∼5 in the rest of the SDSS bands with respect to the previous work of Blanton et al. In addition, we have ensured a high redshift completeness in our galaxy samples, mainly by minimizing the effect of brightness-dependent incompleteness. With these advances, we have estimated very accurate SDSS DR6 LFs at both the bright and the faint end. In the ^0.1r band, our LF is well fitted by a Schechter LF with parameters Φ_*= 0.93±0.07,M_*- 5log₁₀h = -20.71 ± 0.04 and α = -1.26±0.02. As compared with previous results, we find some notable differences. At the bright end of the ^0.1u-band LF we find a remarkable excess, of ∼1.7dex at, with respect to the best-fitting Schechter LF. This excess weakens in the ^0.1g band, fading away towards the very red ^0.1z band. A preliminary analysis on the nature of this bright-end bump reveals that it is composed of quasi-stellar objects/type 1 Seyferts (∼60per cent), starbursts and star-forming galaxies (∼20 per cent) and normal galaxies (∼20 per cent). It seems, therefore, that an important fraction of this excess luminosity may come from nuclear activity. At the faint end of the SDSS DR6 LFs, where we can reach 0.5-1mag deeper than the previous SDSS LF estimations, we obtain a steeper slope that increases from the ^0.1u band, with α = -1.05±0.05, to the very red ^0.1z band, with α = -1.26±0.03. We have also investigated the effect of galaxy evolution on our LFs. These state-of-the-art results may be used to constrain a variety of aspects of star formation histories and/or feedback processes in galaxy formation models.