Liouville first-passage percolation: subsequential scaling limits at high temperature

Abstract

Let \YB(x)\,:\,x∈B\ be a discrete Gaussian free field in a two-dimensional box B of side length S with Dirichlet boundary conditions. We study Liouville first-passage percolation: the shortest-path metric in which each vertex x is given a weight of eγ YB(x) for some γ>0. We show that for sufficiently small but fixed γ>0, for any sequence of scales \Sk\ there exists a subsequence along which the appropriately scaled and interpolated Liouville FPP metric converges in the Gromov--Hausdorff sense to a random metric on the unit square in R2. In addition, all possible (conjecturally unique) scaling limits are homeomorphic by bi-H\"older-continuous homeomorphisms to the unit square with the Euclidean metric.