Local Nonlinear Transforms Effectively Extract Cosmological Information From Large-Scale Structure

Abstract

Extracting cosmological information from nonlinear and non-Gaussian large-scale structure remains a major challenge. We introduce the (Zel'dovich-inspired) ZI transform, a simple one-parameter local nonlinear transform in which η controls the weighting of higher-order information in the transformed density field. For η≥3, the transform can substantially suppress gravitational non-Gaussianity. Using the Quijote suite and Fisher information analysis over summed neutrino mass Mν, primordial non-Gaussianity fNL with different shapes, and ΛCDM parameters, we find that the joint data vector of three transformed-field power spectra with \η=∞, 6, 3\, denoted PZI, tightens all constraints relative to the ordinary power spectrum, especially boosting the constraining power by factors of 290 for fNLlocal and 107 for Mν, while yielding nearly unbiased parameter estimates. Compared further with other statistics beyond the ordinary power spectrum, PZI stands out as a powerful cosmological probe.