Properties of Cold Dark Matter Halos at z>6
Abstract
We compute the properties of dark matter halos with mass 106.5-109 at redshift z=6-11 in the standard cold dark matter cosmological model, utilizing a very high resolution N-body simulation. We find that dark matter halos in these mass and redshift ranges are significantly biased over matter with a bias factor in the range 2-6. The dark matter halo mass function displays a slope of 2.05 0.15 at the small mass end. We do not find a universal dark matter density profile. Instead, we find a significant dependence of the central density profile of dark matter halos on halo mass and epoch with α0=0.4-1.0; the high-mass (M 108) low-redshift (z 6) halos occupy the high end of the range and low-mass (M 107) high-redshift (z 11) halos occupy the low end. Additionally, for fixed mass and epoch there is a significant dispersion in α0 due to the stochastic assembly of halos. Our results fit a relationship of the form α0=0.75((1+z)/7.0)-1.25(M/107)0.11(1+z)/7.0 with a dispersion about this fit of 0.5 and no systematic dependence of variance correlated with environment. The median spin parameter of dark matter halos is 0.03-0.04 but with a large lognormal dispersion of 0.4. Various quantities are tabulated or fitted with empirical formulae.
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