Height Fluctuations for the Stationary KPZ Equation

Author(s)

Ferrari, Patrik; Vető, Bálint; Borodin, Alexei; Corwin, Ivan

Abstract

We compute the one-point probability distribution for the stationary KPZ equation (i.e. initial data H(0,X)=B(X), for B(X) a two-sided standard Brownian motion) and show that as time T goes to infinity, the fluctuations of the height function H(T,X) grow like T[superscript 1/3] and converge to those previously encountered in the study of the stationary totally asymmetric simple exclusion process, polynuclear growth model and last passage percolation. The starting point for this work is our derivation of a Fredholm determinant formula for Macdonald processes which degenerates to a corresponding formula for Whittaker processes. We relate this to a polymer model which mixes the semi-discrete and log-gamma random polymers. A special case of this model has a limit to the KPZ equation with initial data given by a two-sided Brownian motion with drift ß to the left of the origin and b to the right of the origin. The Fredholm determinant has a limit for ß > b, and the case where ß = b (corresponding to the stationary initial data) follows from an analytic continuation argument.

Date issued

2015-07

URI

http://hdl.handle.net/1721.1/106861

Department

Massachusetts Institute of Technology. Department of Mathematics

Journal

Mathematical Physics, Analysis and Geometry

Publisher

Springer Netherlands

Citation

Borodin, Alexei et al. “Height Fluctuations for the Stationary KPZ Equation.” Mathematical Physics, Analysis and Geometry 18.1 (2015): n. pag.

Version: Author's final manuscript

ISSN

1385-0172

1572-9656