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A confined random walk locally looks like tilted random interlacements (2405.14329v2)

Published 23 May 2024 in math.PR

Abstract: In this paper we consider the simple random walk on $\mathbb{Z}d$, $d \geq 3$, conditioned to stay in a large domain $D_N$ of typical diameter $N$. Considering the range up to time $t_N \geq N{2+\delta}$ for some $\delta > 0$, we establish a coupling with what Teixeira (2009) and Li & Sznitman (2014) defined as "tilted random interlacements". This tilted interlacement can be described as random interlacements but with trajectories given by random walks on conductances $c_N(x,y) = \phi_N(x) \phi_N(y)$, where $\phi_N$ is the first eigenvector of the discrete Laplace-Beltrami operator on $D_N$. The coupling follows the methodology of the soft local times, introduced by Popov & Teixeira (2015) and used by \v{C}ern\'y & Teixeira (2016) to prove the well-known coupling between the simple random walk on the torus and the random interlacements.

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