Litcius/Paper detail

The persistence of large scale structures. Part I. Primordial non-Gaussianity

Matteo Biagetti, Alex Cole, Gary Shiu

2021Journal of Cosmology and Astroparticle Physics49 citationsDOIOpen Access PDF

Abstract

Abstract We develop an analysis pipeline for characterizing the topology of large scale structure and extracting cosmological constraints based on persistent homology . Persistent homology is a technique from topological data analysis that quantifies the multiscale topology of a data set, in our context unifying the contributions of clusters, filament loops, and cosmic voids to cosmological constraints. We describe how this method captures the imprint of primordial local non-Gaussianity on the late-time distribution of dark matter halos, using a set of N-body simulations as a proxy for real data analysis. For our best single statistic, running the pipeline on several cubic volumes of size 40 (Gpc/h) 3 , we detect f NL loc =10 at 97.5% confidence on ∼ 85% of the volumes. Additionally we test our ability to resolve degeneracies between the topological signature of f NL loc and variation of σ 8 and argue that correctly identifying nonzero f NL loc in this case is possible via an optimal template method. Our method relies on information living at 𝒪(10) Mpc/h, a complementary scale with respect to commonly used methods such as the scale-dependent bias in the halo/galaxy power spectrum. Therefore, while still requiring a large volume, our method does not require sampling long-wavelength modes to constrain primordial non-Gaussianity. Moreover, our statistics are interpretable: we are able to reproduce previous results in certain limits and we make new predictions for unexplored observables, such as filament loops formed by dark matter halos in a simulation box.

Topics & Concepts

PhysicsTopological data analysisDark matterNon-GaussianityHaloAstrophysicsGalaxyTopology (electrical circuits)Cosmic stringDark energyPersistent homologyCosmologyAlgorithmTheoretical physicsQuantum mechanicsCosmic microwave backgroundCombinatoricsComputer scienceMathematicsString (physics)AnisotropyTopological and Geometric Data AnalysisGalaxies: Formation, Evolution, Phenomena