Cosmological boost factor for dark matter annihilation at redshifts of z=10-100 using the power spectrum approach

Abstract

We compute the cosmological boost factor at high redshifts of z=10-100 by integrating the non-linear matter power spectrum measured from high-resolution cosmological N-body simulations. An accurate boost factor is required to estimate the energy injection from dark matter annihilation, which may affect the cosmological re-ionization process. We combined various box-size simulations (side lengths of 1 \, kpc-10 \, Mpc) to cover a wide range of scales, i.e. k=1-107 \, Mpc-1. The boost factor is consistent with the linear theory prediction at z 50 but strongly enhanced at z 40 as a result of non-linear matter clustering. Although dark matter free-streaming damping was imposed at k fs=106 \, Mpc-1 in the initial power spectrum, the damping disappears at later times of z40 as a result of the power transfer from large to small scales. Because the simulations do not explore very small-scale clustering at k>107 \, Mpc-1, our result is a lower bound on the boost factor at z 40. A simple fitting function of the boost factor is also presented.