Mapping the galaxy-halo connection to the galaxy bias: implication to the HOD-informed prior

Abstract

The galaxy bias parameters are crucial for modeling the large-scale structure in cosmology, yet uncertainties in these parameters often degrade the precision of cosmological constraints. In this work, we investigate how different Halo Occupation Distribution (HOD) models impact the priors of the galaxy bias parameters, particularly focusing on quadratic bias parameters. We generate galaxy mock catalogs using various HOD models, including a standard model and one incorporating halo concentration dependence to account for assembly bias, and measure the galaxy bias parameters with high precision using the quadratic field method. We show that the inclusion of assembly bias associated to halo concentration could significantly impact the distributions of quadratic galaxy bias parameters, especially b2. Our findings suggest that accounting for assembly bias or other galaxy-halo connection models is important for obtaining accurate priors on the galaxy bias parameters, thereby improving the robustness of cosmological analyses with galaxy clustering.

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