Information Percolation and Cutoff for the Random-Cluster Model
Abstract
We consider the Random-Cluster model on with parameters and . This is a generalization of the standard bond percolation (with open probability ) which is biased by a factor raised to the number of connected components. We study the well known FK-dynamics on this model where the update at an edge depends on the global geometry of the system unlike the Glauber Heat Bath dynamics for spin systems, and prove that for all small enough (depending on the dimension) and any , the FK-dynamics exhibits the cutoff phenomenon at with a window size , where is the large limit of the spectral gap of the process. Our proof extends the Information Percolation framework of Lubetzky and Sly [21] to the Random-Cluster model and also relies on the arguments of Blanca and Sinclair [4] who proved a sharp mixing time bound for the planar version. A key aspect of our proof is the analysis of the effect of a sequence of dependent (across time) Bernoulli percolations extracted from the graphical construction of the dynamics, on how information propagates.
Keywords
Cite
@article{arxiv.1812.01538,
title = {Information Percolation and Cutoff for the Random-Cluster Model},
author = {Shirshendu Ganguly and Insuk Seo},
journal= {arXiv preprint arXiv:1812.01538},
year = {2020}
}
Comments
45 pages, 7 figures. Final version