Evaluating approximations for halo merging histories |
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| Authors: | Rachel S Somerville Gerard Lemson Tsafrir S Kolatt Avishai Dekel |
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| Institution: | Racah Institute of Physics, The Hebrew University, 91904 Jerusalem;, IsraelPhysics Department, University of California, Santa Cruz CA 95064;, USAMax-Planck-Institut für Astrophysik, Karl-Schwarzschild-Str. 1, D-86740 Garching, Germany |
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| Abstract: | We study the merging history of dark matter haloes in N -body simulations and semi-analytical 'merger trees' based on the extended Press–Schechter (EPS) formalism. The main focus of our study is the joint distribution of progenitor number and mass as a function of redshift and parent halo mass. We begin by investigating the mean quantities predicted directly by the Press–Schechter (PS) and EPS formalism, such as the halo mass and conditional mass functions, and compare these predictions with the results of the simulations. The higher moments of this distribution are not predicted by the EPS formalism alone and must be obtained from the merger trees. We find that the Press–Schechter model deviates from the simulations at the level of 30–50 per cent on certain mass scales, and that the sense of the discrepancy changes as a function of redshift. We show that this discrepancy is reflected in the higher moments of the distribution of progenitor mass and number. We investigate some related statistics such as the accretion rate and the mass ratio of the largest two progenitors. For galaxy sized haloes ( M ~1012 M⊙), we find that the merging history of haloes, as represented by these statistics, is well reproduced in the merger trees compared with the simulations. The agreement deteriorates for larger mass haloes. We conclude that merger trees based on the extended Press–Schechter formalism provide a reasonably reliable framework for semi-analytical models of galaxy formation. |
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| Keywords: | galaxies: clusters: general galaxies: formation cosmology: theory dark matter |
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