The bias of dark matter tracers: assessing the accuracy of mapping techniques

Abstract

We present a comparison between approximated methods for the construction of mock catalogs based on the halo-bias mapping technique. To this end, we use as reference a high resolution N-body simulation of 38403 dark matter particles on a 400h-1Mpc cube box from the Multidark suite. In particular, we explore parametric versus non-parametric bias mapping approaches and compare them at reproducing the halo distribution in terms of the two and three point statistics down to 108\, M\,h-1 halo masses. Our findings demonstrate that the parametric approach remains inaccurate even including complex deterministic and stochastic components. On the contrary, the non-parametric one is indistinguishable from the reference N-body calculation in the power-spectrum beyond k=1\,h\, Mpc-1, and in the bispectrum for typical configurations relevant to baryon acoustic oscillation analysis. We conclude, that approaches which extract the full bias information from N-body simulations in a non-parametric fashion are ready for the analysis of the new generation of large scale structure surveys.