Non-Gaussian Spikes from Chaotic Billiards in Inflation Preheating
arXiv:0903.3407 · doi:10.1103/PhysRevLett.103.071301
Abstract
A new class of non-Gaussian curvature fluctuations ζ_{pr} (\bx) \equiv δN(Ï_i) arises from the post-inflation preheating behaviour of a non-inflaton field Ï_i. Its billiard-like chaotic dynamics imprints regular log-spaced narrow spikes in the number of preheating e-folds N(Ï_i). We perform highly accurate lattice simulations of SUSY-inspired quartic inflaton and coupling potentials in a separate-universe approximation to compute N(Ï_i) as a function of the (nearly homogeneous) initial condition Ï_i. The super-horizon modes of Ï_i(\bx) result in positive spiky excursions in ζ_{pr} and hence negative gravitational potential fluctuations added to the usual sign-independent inflaton-induced perturbations, observably manifested in large cosmic structures and as (polarized) temperature CMB cold spots.
4 pages, 3 figures