Unclustered tracers remain unclustered: the lack of primordial non-Gaussianity response of bias-zero tracers

Abstract

Constraining primordial non-Gaussianities (PNG) is one of the main goals of new-generation large-scale galaxy surveys. It had been proposed that unclustered tracers (with bias b1=0) could be optimal for PNG studies, and that these could be found by selecting galaxies in bins of their local density. Here, we test this hypothesis in state-of-the-art simulations from the PNG-UNITsim suite with local f NL=100 and f NL=-20. We consider different parent tracer catalogues: all halos together, halos in large mass bins, and HOD models for LRGs and QSO. We then classify these tracers by their local density (δt,R) and measure the linear bias (b1) and PNG-response (bφ). Most δt,R bins show a PNG-response compatible with bφ=0 for all halos or the low-mass bin (logM<11). For high-mass halos (logM>12), QSO or LRG, we recover a trend closer to the universality relation (bφ = 2 δ crit(b1-1)) for b1>1, but the bφ(b1) curve flattens to 0 below b1<1. Hence, we find bφ≈0 for all bias-zero tracers considered. The complex δt,R-based selection causes their clustering to strongly deviate from simple assumptions, namely the universality relation and Poisson shot noise, hindering their capability to constrain PNG.