Beyond Linear Bias Expansions for AbacusSummit Halos at z = 8

Abstract

We study the non-Gaussianity of the large-scale clustering of high-redshift halos, seeking to assess which terms of standard bias expansions are needed to understand these highly biased populations. We find that the clustering can be well modeled with only linear and quadratic bias parameters while assuming a Gaussian underlying matter field. Our analysis focuses on AbacusSummit halos at redshift z=8. We work with halos of mass at least 1×1011h-1M in boxes of side length 2h-1Gpc. Measurements of bias coefficients are made by fitting bias expansions to the halo power spectrum and bispectrum. Tidal bias is not detected with only a ~0.1σ deviation from 0, but we see a 17σ level detection for a bias term of the form δ2. A bias term of the form δ3 is weakly detected at the 1.3σ level. Nonlinear matter is also detected at a 1.3σ level. To test how bias evolves, we run one test at z=5. We use a mass threshold for halos that gives the same variance in the halo field as our z=8 sample. Bias is smaller at z=5 and a tidal bias is detected at the 1σ level. Bias coefficients at z=5 match a linear evolution of the z=8 bias coefficients to within 10\%.

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