S IMBIG: The First Cosmological Constraints from the Non-Linear Galaxy Bispectrum

Abstract

We present the first cosmological constraints from analyzing higher-order galaxy clustering on non-linear scales. We use S IMBIG, a forward modeling framework for galaxy clustering analyses that employs simulation-based inference to perform highly efficient cosmological inference using normalizing flows. It leverages the predictive power of high-fidelity simulations and robustly extracts cosmological information from regimes inaccessible with current standard analyses. In this work, we apply S IMBIG to a subset of the BOSS galaxy sample and analyze the redshift-space bispectrum monopole, B0(k1, k2, k3), to k max=0.5\,h/ Mpc. We achieve 1σ constraints of m=0.293+0.027-0.027 and σ8= 0.783+0.040-0.038, which are more than 1.2 and 2.4× tighter than constraints from standard power spectrum analyses of the same dataset. We also derive 1.4, 1.4, 1.7× tighter constraints on b, h, ns. This improvement comes from additional cosmological information in higher-order clustering on non-linear scales and, for σ8, is equivalent to the gain expected from a standard analysis on a 4× larger galaxy sample. Even with our BOSS subsample, which only spans 10% of the full BOSS volume, we derive competitive constraints on the growth of structure: S8 = 0.774+0.056-0.053. Our constraint is consistent with results from both cosmic microwave background and weak lensing. Combined with a ωb prior from Big Bang Nucleosynthesis, we also derive a constraint on H0=67.6+2.2-1.8\, km\,s-1\,Mpc-1 that is consistent with early universe constraints.

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