Multi-probe cosmology forecasts from HOD-based forward modeling of galaxy and void statistics
Abstract
The large under-dense regions in the cosmological matter density field, known as cosmic voids, are powerful probes of cosmology but their potential is currently under-exploited. Observationally, voids are identified within the large scale distribution of galaxies and are therefore sensitive to certain features of the galaxy-halo connection. This sensitivity makes the combination of void and galaxy summary statistics particularly powerful probes of both cosmology and the galaxy-halo connection through self-calibration of the void-galaxy relation. In particular the combination of void and galaxy summary statistics breaks degeneracies in the galaxy-halo connection and cosmology relative to the case of galaxy clustering alone. To demonstrate this we forecast cosmological constraints attainable from the combination of the void size function nv, projected void-galaxy cross-correlation function wp,vg and projected galaxy auto-correlation function wp,gg measured in Dark Energy Spectroscopic Instrument (DESI) Year 5 data. We use a grid of cosmological N-body simulations to model this datavector as a function of σ8, m and a flexible halo occupation distribution (HOD) model that includes central and satellite galaxy assembly bias. For our fiducial scenario combining nv, wp,vg and wp,gg we forecast 1.5\% and 0.8\% constraints on m and σ8 from DESI-Y5 data. We also forecast constraints from the combination of the void size function and stacked weak lensing signal of voids.
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