Comparing mixing times on sparse random graphs
Abstract
It is natural to expect that nonbacktracking random walk will mix faster than simple random walks, but so far this has only been proved in regular graphs. To analyze typical irregular graphs, let be a random graph on vertices with minimum degree 3 and a degree distribution that has exponential tails. We determine the precise worst-case mixing time for simple random walk on , and show that, with high probability, it exhibits cutoff at time , where is the asymptotic entropy for simple random walk on a Galton--Watson tree that approximates locally. (Previously this was only known for typical starting points.) Furthermore, we show that this asymptotic mixing time is strictly larger than the mixing time of nonbacktracking walk, via a delicate comparison of entropies on the Galton-Watson tree.
Cite
@article{arxiv.1707.04784,
title = {Comparing mixing times on sparse random graphs},
author = {Anna Ben-Hamou and Eyal Lubetzky and Yuval Peres},
journal= {arXiv preprint arXiv:1707.04784},
year = {2018}
}