The Central Mass and Phase-Space Densities of Dark Matter Halos: Cosmological Implications
Abstract
Current data suggest that the central mass densities 0 and phase-space densities Q0/σV3 of cosmological halos in the present universe are correlated with their velocity dispersions σV over a very wide range of σV from less than 10 to more than 1000 km s-1. Such correlations are an expected consequence of the statistical correlation of the formation epochs of virialized objects in the CDM model with their masses; the smaller-mass halos typically form first and merge to form larger-mass halos later. We have derived the Q-σV and 0-σV correlations for different CDM cosmologies and compared the predicted correlations with the observed properties of a sample of low-redshift halos ranging in size from dwarf spheroidal galaxies to galaxy clusters. Our predictions are generally consistent with the data, with preference for the currently-favored, flat model. Such a comparison serves to test the basic CDM paradigm while constraining the background cosmology and the power-spectrum of primordial density fluctuations, including larger wavenumbers than have previously been constrained.
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