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Predictions for local PNG bias in the galaxy power spectrum and bispectrum and the consequences for f <sub>NL</sub> constraints

Alexandre Barreira

2022Journal of Cosmology and Astroparticle Physics50 citationsDOIOpen Access PDF

Abstract

Abstract We use hydrodynamical separate universe simulations with the IllustrisTNG model to predict the local primordial non-Gaussianity (PNG) bias parameters b ϕ and b ϕδ , which enter at leading order in the galaxy power spectrum and bispectrum. This is the first time that b ϕδ is measured from either gravity-only or galaxy formation simulations. For dark matter halos, the popular assumption of universality overpredicts the b ϕδ ( b 1 ) relation in the range 1 ≲ b 1 ≲ 3 by up to Δ b ϕδ ∼ 3 ( b 1 is the linear density bias). The adequacy of the universality relation is worse for the simulated galaxies, with the relations b ϕ ( b 1 ) and b ϕδ ( b 1 ) being generically redshift-dependent and very sensitive to how galaxies are selected (we test total, stellar and black hole mass, black hole mass accretion rate and color). The uncertainties on b ϕ and b ϕδ have a direct, often overlooked impact on the constraints of the local PNG parameter f NL , which we study and discuss. For a survey with V = 100 Gpc 3 /h 3 at z =1, uncertainties Δ b ϕ ≲ 1 and Δ b ϕδ ≲ 5 around values close to the fiducial can yield relatively unbiased constraints on f NL using power spectrum and bispectrum data. We also show why priors on galaxy bias are useful even in analyses that fit for products f NL b ϕ and f NL b ϕδ . The strategies we discuss to deal with galaxy bias uncertainties can be straightforwardly implemented in existing f NL constraint analyses (we provide fits for some of the bias relations). Our results motivate more works with galaxy formation simulations to refine our understanding of b ϕ and b ϕδ towards improved constraints on f NL .

Topics & Concepts

BispectrumPhysicsAstrophysicsGalaxySpectral densityRedshiftUniversality (dynamical systems)Stellar massHaloDark matterCosmologyStatistical physicsStatisticsQuantum mechanicsStar formationMathematicsGalaxies: Formation, Evolution, PhenomenaCosmology and Gravitation TheoriesAstronomy and Astrophysical Research
Predictions for local PNG bias in the galaxy power spectrum and bispectrum and the consequences for f <sub>NL</sub> constraints | Litcius