English

Near optimal bispectrum estimators for large-scale structure

Cosmology and Nongalactic Astrophysics 2015-03-09 v2

Abstract

Clustering of large-scale structure provides significant cosmological information through the power spectrum of density perturbations. Additional information can be gained from higher-order statistics like the bispectrum, especially to break the degeneracy between the linear halo bias b1b_1 and the amplitude of fluctuations σ8\sigma_8. We propose new simple, computationally inexpensive bispectrum statistics that are near optimal for the specific applications like bias determination. Corresponding to the Legendre decomposition of nonlinear halo bias and gravitational coupling at second order, these statistics are given by the cross-spectra of the density with three quadratic fields: the squared density, a tidal term, and a shift term. For halos and galaxies the first two have associated nonlinear bias terms b2b_2 and bs2b_{s^2}, respectively, while the shift term has none in the absence of velocity bias (valid in the k0k \rightarrow 0 limit). Thus the linear bias b1b_1 is best determined by the shift cross-spectrum, while the squared density and tidal cross-spectra mostly tighten constraints on b2b_2 and bs2b_{s^2} once b1b_1 is known. Since the form of the cross-spectra is derived from optimal maximum-likelihood estimation, they contain the full bispectrum information on bias parameters. Perturbative analytical predictions for their expectation values and covariances agree with simulations on large scales, k0.09h/Mpck\lesssim 0.09h/\mathrm{Mpc} at z=0.55z=0.55 with Gaussian R=20h1MpcR=20h^{-1}\mathrm{Mpc} smoothing, for matter-matter-matter, and matter-matter-halo combinations. For halo-halo-halo cross-spectra the model also needs to include corrections to the Poisson stochasticity.

Keywords

Cite

@article{arxiv.1411.6595,
  title  = {Near optimal bispectrum estimators for large-scale structure},
  author = {Marcel Schmittfull and Tobias Baldauf and Uroš Seljak},
  journal= {arXiv preprint arXiv:1411.6595},
  year   = {2015}
}

Comments

22+6 pages, 11 figures, included minor text improvements to match published version

R2 v1 2026-06-22T07:10:27.770Z