English

Beyond two-point statistics: using the minimum spanning tree as a tool for cosmology

Cosmology and Nongalactic Astrophysics 2019-12-03 v2

Abstract

Cosmological studies of large-scale structure have relied on two-point statistics, not fully exploiting the rich structure of the cosmic web. In this paper we show how to capture some of this cosmic web information by using the minimum spanning tree (MST), for the first time using it to estimate cosmological parameters in simulations. Discrete tracers of dark matter such as galaxies, NN-body particles or haloes are used as nodes to construct a unique graph, the MST, that traces skeletal structure. We study the dependence of the MST on cosmological parameters using haloes from a suite of COLA simulations with a box size of 250 h1Mpc250\ h^{-1}{\rm Mpc}, varying the amplitude of scalar fluctuations (As)\left(A_{\rm s}\right), matter density (Ωm)\left(\Omega_{\rm m}\right), and neutrino mass (mν)\left(\sum m_{\nu}\right). The power spectrum PP and bispectrum BB are measured for wavenumbers between 0.1250.125 and 0.50.5 hMpc1h{\rm Mpc}^{-1}, while a corresponding lower cut of 12.6\sim12.6 h1Mpch^{-1}{\rm Mpc} is applied to the MST. The constraints from the individual methods are fairly similar but when combined we see improved 1σ1\sigma constraints of 17%\sim 17\% (12%\sim 12\%) on Ωm\Omega_{\rm m} and 12%\sim 12\% (10%\sim 10\%) on AsA_{\rm s} with respect to PP (P+BP+B) thus showing the MST is providing additional information. The MST can be applied to current and future spectroscopic surveys (BOSS, DESI, Euclid, PSF, WFIRST, and 4MOST) in 3D and photometric surveys (DES and LSST) in tomographic shells to constrain parameters and/or test systematics.

Keywords

Cite

@article{arxiv.1907.00989,
  title  = {Beyond two-point statistics: using the minimum spanning tree as a tool for cosmology},
  author = {Krishna Naidoo and Lorne Whiteway and Elena Massara and Davide Gualdi and Ofer Lahav and Matteo Viel and Héctor Gil-Marín and Andreu Font-Ribera},
  journal= {arXiv preprint arXiv:1907.00989},
  year   = {2019}
}

Comments

19 pages, 15 figures (including 2 page appendix with 2 figures), text based edits to match version published in MNRAS

R2 v1 2026-06-23T10:09:11.390Z