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Cosmology with Persistent Homology: Parameter Inference via Machine Learning

Cosmology and Nongalactic Astrophysics 2025-09-22 v2 Machine Learning Algebraic Topology

Abstract

Building upon [2308.02636], we investigate the constraining power of persistent homology on cosmological parameters and primordial non-Gaussianity in a likelihood-free inference pipeline utilizing machine learning. We evaluate the ability of Persistence Images (PIs) to infer parameters, comparing them to the combined Power Spectrum and Bispectrum (PS/BS). We also compare two classes of models: neural-based and tree-based. PIs consistently lead to better predictions compared to the combined PS/BS for parameters that can be constrained, i.e., for {Ωm,σ8,ns,fNLloc}\{\Omega_{\rm m}, \sigma_8, n_{\rm s}, f_{\rm NL}^{\rm loc}\}. PIs perform particularly well for fNLlocf_{\rm NL}^{\rm loc}, highlighting the potential of persistent homology for constraining primordial non-Gaussianity. Our results indicate that combining PIs with PS/BS provides only marginal gains, indicating that the PS/BS contains little additional or complementary information to the PIs. Finally, we provide a visualization of the most important topological features for fNLlocf_{\rm NL}^{\rm loc} and for Ωm\Omega_{\rm m}. This reveals that clusters and voids (0-cycles and 2-cycles) are most informative for Ωm\Omega_{\rm m}, while fNLlocf_{\rm NL}^{\rm loc} is additionally informed by filaments (1-cycles).

Keywords

Cite

@article{arxiv.2412.15405,
  title  = {Cosmology with Persistent Homology: Parameter Inference via Machine Learning},
  author = {Juan Calles and Jacky H. T. Yip and Gabriella Contardo and Jorge Noreña and Adam Rouhiainen and Gary Shiu},
  journal= {arXiv preprint arXiv:2412.15405},
  year   = {2025}
}

Comments

28 pages, 9 figures, 4 tables. Accepted for publication in JCAP. Replaced with the accepted version (minor changes)

R2 v1 2026-06-28T20:43:06.722Z