waynehu
Professor,
Department of Astronomy and Astrophysics
University of Chicago
Power Spectra for Cold Dark Matter and Its Variants
D.J. Eisenstein, W.Hu
Abstract
The bulk of recent cosmological research has focused on the adiabatic cold dark
matter model and its simple extensions. Here we present an accurate fitting
formula that describes the matter transfer functions of all common variants,
including mixed dark matter models. The result is a function of wavenumber,
time, and six cosmological parameters: the massive neutrino density, number of
neutrino species degenerate in mass, baryon density, Hubble constant,
cosmological constant, and spatial curvature. We show how observational
constraints---e.g. the shape of the power spectrum, the abundance of clusters
and damped Lyman-alpha systems, and the properties of the Lyman-alpha forest---
can be extended to a wide range of cosmologies, including variations in the
neutrino and baryon fractions in both high-density and low-density universes.
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