Renormalization flow for the 2D nonlinear stochastic heat equation: pointwise statistics and universality

Abstract

We consider a two-dimensional stochastic heat equation with noise correlated at scale 1 and of strength ||-1/2σ(v) depending nonlinearly on the solution v. Under certain conditions, the first author and Gu have shown that the one-point statistics of v converge in law as 0 to the terminal value of an associated forward-backward SDE. Here, we show that the 2D stochastic heat equation is stable under renormalization with a new effective nonlinearity tied to the decoupling function of the forward-backward SDE. This allows us to extend the pointwise results to a much broader class of nonlinearities. We also show that these limiting pointwise statistics are insensitive to the fine details of the noise, and thus universal.