Largest-loop-first loop-erased random walk on Z4

Abstract

Let S = (S(n)) be a simple random walk on Zd started at the origin. We study a loop-erasing procedure of S[0,n] that differs from Lawler's chronological loop-erasure. Specifically, we remove loops from S[0,n] in decreasing order of their lengths. The resulting random simple path is called the largest-loop-first (LLF) LERW. For d=4, we prove that the expected length of LLF LERW is of the order n ( n)-1/2 + o(1). In particular, this suggests that chronological LERW and LLF LERW belong to different universality classes. Furthermore, we also prove the convergence of LLF LERW to Brownian motion in four dimensions.