English

Infinite cycles in the interchange process in five dimensions

Probability 2024-02-05 v3 Mathematical Physics math.MP

Abstract

In the interchange process on a graph G=(V,E)G=(V,E), distinguished particles are placed on the vertices of GG with independent Poisson clocks on the edges. When the clock of an edge rings, the two particles on the two sides of the edge interchange. In this way, a random permutation πβ:VV\pi_\beta:V\to V is formed for any time β>0\beta >0. One of the main objects of study is the cycle structure of the random permutation and the emergence of long cycles. We prove the existence of infinite cycles in the interchange process on Zd\mathbb Z ^d for all dimensions d5d\ge 5 and all large β\beta , establishing a conjecture of B\'alint T\'oth from 1993 in these dimensions. In our proof, we study a self-interacting random walk called the cyclic time random walk. Using a multiscale induction we prove that it is diffusive and can be coupled with Brownian motion. One of the key ideas in the proof is establishing a local escape property which shows that the walk will quickly escape when it is entangled in its history in complicated ways.

Keywords

Cite

@article{arxiv.2211.17023,
  title  = {Infinite cycles in the interchange process in five dimensions},
  author = {Dor Elboim and Allan Sly},
  journal= {arXiv preprint arXiv:2211.17023},
  year   = {2024}
}
R2 v1 2026-06-28T07:18:11.527Z