Merger rates of dark matter haloes from merger trees in the extended Press-Schechter theory

Abstract

We construct merger trees based on the extended Press-Schechter theory (EPS) in order to study the merger rates of dark matter haloes over a range of present day mass (1010M≤ M0 ≤1015M), progenitor mass (5×10-3≤ ≤1) and redshift (0≤ z≤ 3). We used the first crossing distribution of a moving barrier of the form B(S,z)=p(z)+q(z)Sγ, proposed by Sheth & Tormen, to take into account the ellipsoidal nature of collapse. We find that the mean merger rate per halo Bm/n depends on the halo mass M as M0.2 and on the redshift as (dδc(z)/dz)1.1. Our results are in agreement with the predictions of N-body simulations and this shows the ability of merger-trees based on EPS theory to follow with a satisfactory agreement the results of N-body simulations and the evolution of structures in a hierarchical Universe.