Dark-ages Reionization & Galaxy Formation Simulation II: Spin and concentration parameters for dark matter haloes during the Epoch of Reionization

Abstract

We use high resolution N-Body simulations to study the concentration and spin parameters of dark matter haloes in the mass range 108\, M\, h-1 < M < 1011\, M\, h-1 and redshifts 5<z<10, corresponding to the haloes of galaxies thought to be responsible for reionization. We build a sub-sample of equilibrium haloes and contrast their properties to the full population that also includes unrelaxed systems. Concentrations are calculated by fitting both NFW and Einasto profiles to the spherically-averaged density profiles of individual haloes. After removing haloes that are out-of-equilibrium, we find a z>5 concentration-mass (c(M)) relation that is almost flat and well described by a simple power-law for both NFW and Einasto fits. The intrinsic scatter around the mean relation is cvir1 (or 20 per cent) at z=5. We also find that the analytic model proposed by Ludlow et al. reproduces the mass and redshift-dependence of halo concentrations. Our best-fit Einasto shape parameter, α, depends on peak height, , in a manner that is accurately described by α =0.00702+0.1839. The distribution of the spin parameter, λ, has a weak dependence on equilibrium state; λ peaks at roughly 0.033 for our relaxed sample, and at 0.04 for the full population. The spin--virial mass relation has a mild negative correlation at high redshift.