Constraining Galaxy Formation and Cosmology with the Conditional Luminosity Function of Galaxies

Abstract

We use the conditional luminosity function (CLF), which gives the number of galaxies with luminosities in the range [L, L+dL] that reside in a halo of mass M, to link the distribution of galaxies to that of dark matter haloes. We seek the CLF that reproduces the galaxy luminosity function and the luminosity dependence of the galaxy clustering strength and test the models by comparing the resulting mass-to-light ratios (M/L) with constraints from the Tully-Fisher (TF) relation. We obtain a number of stringent constraints on both galaxy formation and cosmology. In particular, this method can break the degeneracy between Omega0 and the power-spectrum normalization sigma8, inherent in current weak-lensing and cluster-abundance studies. For flat LCDM cosmogonies with sigma8 normalized by recent weak lensing observations, the best results are obtained for Omega0~0.3; Omega0 < 0.2 leads to too large galaxy correlation lengths, while Omega0 > 0.4 gives too high M/L. The best-fit model for the LCDM concordance cosmology (Omega0=0.3) predicts M/L that are slightly too high. We discuss a number of possible effects that might remedy this problem, including small modification of cosmological parameters, warm in stead of cold dark matter, systematic errors in current observational data, and the existence of dark galaxies. Finally we use the CLF to predict several statistics about the distribution of galaxy light in the local Universe.

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