The loop-erased random walk and the uniform spanning tree on the four-dimensional discrete torus

Abstract

Let x and y be points chosen uniformly at random from n4, the four-dimensional discrete torus with side length n. We show that the length of the loop-erased random walk from x to y is of order n2 ( n)1/6, resolving a conjecture of Benjamini and Kozma. We also show that the scaling limit of the uniform spanning tree on n4 is the Brownian continuum random tree of Aldous. Our proofs use the techniques developed by Peres and Revelle, who studied the scaling limits of the uniform spanning tree on a large class of finite graphs that includes the d-dimensional discrete torus for d ≥ 5, in combination with results of Lawler concerning intersections of four-dimensional random walks.

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