A Scaling Relation of the Evolving Tidal Fields in a LCDM Cosmology

Abstract

We report the finding of a scaling relation among the cosmic-web anisotropy parameter A, the linear density rms fluctuation sigma(r) and the linear growth factor D(z). Using the tidal field derived from the Millennium Simulation on 5123 grids at z=0, 2, 5 and 127, we calculate the largest eigenvalues λ of the local tidal tensor at each grid resolution and measure its distance-averaged two-point correlation function, xilambda, as a function of the cosines of polar angles cos(theta) in the local principal axis frame. We show that xilambda is quite anisotropic, increasing toward the directions of minimal matter compression, and that the anisotropy of xilambda increases as the redshift, z, decreases and as the upper distance cutoff rc decreases. Fitting the numerical results to an analytic fitting model λ(θ) (1+Anθ)-1, it is found that the best fit value of A, dubbed the cosmic-web anisotropy parameter, varies systematically with sigma(rc) and D(z), allowing us to determine the simple empiral scaling relation A(rc,z)=0.8, D0.76(z), sigma (rc)$.