English

Sample path large deviations for Laplacian models in $(1+1)$-dimensions

Probability 2016-07-27 v2

Abstract

For Laplacian models in dimension (1+1)(1+1) we derive sample path large deviations for the profile height function, that is, we study scaling limits of Gaussian integrated random walks and Gaussian integrated random walk bridges perturbed by an attractive force towards the zero-level, called pinning. We study in particular the regime when the rate functions of the corresponding large deviation principles admit more than one minimiser, in our models either two, three, or five minimiser depending on the pinning strength and the boundary conditions. This study complements corresponding large deviation results for gradient systems with pinning for Gaussian random walk bridges in (1+1) (1+1) -dimension (\cite{FS04}) and in (1+d)(1+d) -dimension (\cite{BFO}), and recently in higher dimensions in \cite{BCF}. In particular it turns out that the Laplacian cases, i.e., integrated random walks, show richer and more complex structures of the minimiser of the rate functions which are linked to different phases.

Keywords

Cite

@article{arxiv.1602.02226,
  title  = {Sample path large deviations for Laplacian models in $(1+1)$-dimensions},
  author = {Stefan Adams and Alexander Kister and Hendrik Weber},
  journal= {arXiv preprint arXiv:1602.02226},
  year   = {2016}
}

Comments

37, 5 figures

R2 v1 2026-06-22T12:44:40.859Z