English

The Power Spectrum, Bias Evolution, and the Spatial Three-Point Correlation Function

Astrophysics 2009-10-31 v1

Abstract

We calculate perturbatively the normalized spatial skewness, S3S_3, and full three-point correlation function (3PCF), ζ\zeta, induced by gravitational instability of Gaussian primordial fluctuations for a biased tracer-mass distribution in flat and open cold-dark-matter (CDM) models. We take into account the dependence on the shape and evolution of the CDM power spectrum, and allow the bias to be nonlinear and/or evolving in time, using an extension of Fry's (1996) bias-evolution model. We derive a scale-dependent, leading-order correction to the standard perturbative expression for S3S_3 in the case of nonlinear biasing, as defined for the unsmoothed galaxy and dark-matter fields, and find that this correction becomes large when probing positive effective power-spectrum indices. This term implies that the inferred nonlinear-bias parameter, as usually defined in terms of the smoothed density fields, might depend on the chosen smoothing scale. In general, we find that the dependence of S3S_3 on the biasing scheme can substantially outweigh that on the adopted cosmology. We demonstrate that the normalized 3PCF, QQ, is an ill-behaved quantity, and instead investigate QVQ_V, the variance-normalized 3PCF. The configuration dependence of QVQ_V shows similarly strong sensitivities to the bias scheme as S3S_3, but also exhibits significant dependence on the form of the CDM power spectrum. Though the degeneracy of S3S_3 with respect to the cosmological parameters and constant linear- and nonlinear-bias parameters can be broken by the full configuration dependence of QVQ_V, neither statistic can distinguish well between evolving and non-evolving bias scenarios. We show that this can be resolved, in principle, by considering the redshift dependence of ζ\zeta.

Keywords

Cite

@article{arxiv.astro-ph/9903462,
  title  = {The Power Spectrum, Bias Evolution, and the Spatial Three-Point Correlation Function},
  author = {Ari Buchalter and Marc Kamionkowski},
  journal= {arXiv preprint arXiv:astro-ph/9903462},
  year   = {2009}
}

Comments

41 pages, including 12 Figures. To appear in The Astrophysical Journal, Vol. 521, #1