Quantitative homogenization for the critical long-range random conductance model
Abstract
We consider the long-range random conductance model on at the critical exponent: the jump rate between sites and decays as , where are i.i.d. uniformly elliptic conductances. Below the critical exponent the walk converges to a stable process; above it, to Brownian motion with diffusive scaling. At criticality the second moment of the jump kernel diverges logarithmically. We establish quantitative homogenization of the associated elliptic equation to the Laplacian at the rate . As a consequence, we deduce quenched convergence of the random walk to Brownian motion under the anomalous scaling. Unlike in standard homogenization, the effective diffusivity is determined by the mean conductance alone, with no corrector contribution at leading order.
Cite
@article{arxiv.2604.21143,
title = {Quantitative homogenization for the critical long-range random conductance model},
author = {Ahmed Bou-Rabee and Paul Dario},
journal= {arXiv preprint arXiv:2604.21143},
year = {2026}
}
Comments
28 pages, 4 figures; comments welcome