Dynamical renormalization and universality in classical multifield cosmological models

Abstract

We study the scaling behavior of classical multifield cosmological models with complete scalar manifold ( M, G) and positive smooth scalar potential , introducing a dynamical renormalization group action which relates their UV and IR limits. We show that the RG flow of such models interpolates between a modification of the geodesic flow of ( M, G) (obtained in the UV limit) and the gradient flow of ( M, G,V) (obtained in the IR limit), where the classical effective potential V is proportional to 2. Using this fact, we show that two-field models whose scalar manifold has constant Gaussian curvature equal to -1, 0 or 1 are infrared universal in the sense that they suffice to describe the first order IR approximants of cosmological orbits for all two-field models with positive smooth scalar potential.