PNG-UNITsims: Halo clustering response to primordial non-Gaussianities as a function of mass

Abstract

We present the largest full N-body simulation to date with local primordial non-Gaussianities (L-PNG), the PNG-UNITsim. It tracks the evolution of 40963 particles within a periodic box with L box = 1 \; h-1\, Gpc, leading to a mass resolution of mp = 1.24× 109\; h-1\,M. This is enough to resolve galaxies targeted by stage-IV spectroscopic surveys. The PNG-UNIT has Fixed initial conditions whose phases are also Matched to the pre-existing UNIT simulation. These two features in the simulations reduce our uncertainty significantly so we use 100 FastPM mocks to estimate this reduction. The amplitude of the non-Gaussianities used to set the initial conditions of this new simulation is f NL local = 100. In this first study, we use mass selected dark matter haloes from the PNG-UNIT simulation to constrain the local PNG parameters. PNG induce a scale dependent bias, parameterised through or p, which might depend on the type of cosmological tracer. Those cases when p=1 are referred to as the universality relation. We measure p as a function of the halo mass. Haloes with masses between 1× 1012 and 2× 1013 \, h-1 M are well described by the universality relation. For haloes with masses between 2× 1010 and 1× 1012 \, h-1 M we find that p<1 at 3σ. Combining all the mass bins, we find p consistent with a value of 0.9550.013, which is 3σ away from universality, as low mass haloes are more numerous. We also study the effect of using priors on p when constraining f NL. Using the values we obtain for bφ as priors, we forecast that a DESI-like (stage-IV) survey will be able to constrain f NL better than if the universality relation is assumed.

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