Responses of Halo Occupation Distributions: a new ingredient in the halo model & the impact on galaxy bias

Abstract

Halo occupation distribution (HOD) models describe the number of galaxies that reside in different haloes, and are widely used in galaxy-halo connection studies using the halo model (HM). Here, we introduce and study HOD response functions ROg that describe the response of the HODs to long-wavelength perturbations O. The linear galaxy bias parameters bOg are a weighted version of bOh + ROg, where bOh is the halo bias, but the contribution from ROg is routinely ignored in the literature. We investigate the impact of this by measuring the ROg in separate universe simulations of the IllustrisTNG model for three types of perturbations: total matter perturbations, O=δm; baryon-CDM compensated isocurvature perturbations, O=σ; and potential perturbations with local primordial non-Gaussianity, O f NLφ. Our main takeaway message is that the ROg are not negligible in general and their size should be estimated on a case-by-case basis. For stellar-mass selected galaxies, the responses Rφg and Rσg are sizeable and cannot be neglected in HM calculations of the bias parameters bφg and bσg; this is relevant to constrain inflation using galaxies. On the other hand, we do not detect a strong impact of the HOD response R1g on the linear galaxy bias b1g. These results can be explained by the impact that the perturbations have on stellar-to-total-mass relations. We also look into the impact on the bias of the gas distribution and find similar conclusions. We show that a single extra parameter describing the overall amplitude of ROg recovers the measured bOg well, which indicates that ROg can be easily added to HM/HOD studies as a new ingredient.