A stochastic Burgers equation from a class of microscopic interactions

Patr\'icia Gon\c{c}alves; Milton Jara; Sunder Sethuraman

arXiv:1210.0017·math.PR·August 14, 2016

A stochastic Burgers equation from a class of microscopic interactions

Patr\'icia Gon\c{c}alves, Milton Jara, Sunder Sethuraman

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Abstract

We consider a class of nearest-neighbor weakly asymmetric mass conservative particle systems evolving on $Z$ , which includes zero-range and types of exclusion processes, starting from a perturbation of a stationary state. When the weak asymmetry is of order $O (n^{- γ})$ for $1/2 < γ \leq 1$ , we show that the scaling limit of the fluctuation field, as seen across process characteristics, is a generalized Ornstein-Uhlenbeck process. However, at the critical weak asymmetry when $γ = 1/2$ , we show that all limit points satisfy a martingale formulation which may be interpreted in terms of a stochastic Burgers equation derived from taking the gradient of the KPZ equation. The proofs make use of a sharp "Boltzmann-Gibbs" estimate which improves on earlier bounds.

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