Coalescing directed random walks on the backbone of a 1+1-dimensional oriented percolation cluster converge to the Brownian web
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In this paper, the authors consider the backbone of the infinite cluster generated by supercritical oriented site percolation in dimension 1 + 1 and show that, after diffusive rescaling, the collection of paths converges in distribution to the Brownian web.Abstract:
We consider the backbone of the infinite cluster generated by supercritical oriented site percolation in dimension 1 +1. A directed random walk on this backbone can be seen as an "ancestral line" of an individual sampled in the stationary discrete-time contact process. Such ancestral lineages were investigated in [BCDG13] where a central limit theorem for a single walker was proved. Here, we consider infinitely many coalescing walkers on the same backbone starting at each space-time point. We show that, after diffusive rescaling, the collection of paths converges in distribution to the Brownian web. Hence, we prove convergence to the Brownian web for a particular system of coalescing random walks in a dynamical random environment. An important tool in the proof is a tail bound on the meeting time of two walkers on the backbone, started at the same time. Our result can be interpreted as an averaging statement about the percolation cluster: apart from a change of variance, it behaves as the full lattice, i.e. the effect of the "holes" in the cluster vanishes on a large scale.read more
Citations
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Convergence of coalescing nonsimple random walks to the Brownian web
TL;DR: In this article, it was shown that convergence to the Brownian Web can be verified for non-simple coalescing random walks satisfying a finite fifth moment condition, which is the first time that convergence has been proved for models with crossing paths.
Book ChapterDOI
Ancestral lineages in spatial population models with local regulation
Matthias Birkner,Nina Gantert +1 more
TL;DR: It is explained how an ancestral lineage can be interpreted as a random walk in a dynamic random environment and defined regeneration times allows to prove central limit theorems for such walks.
Posted Content
Local limit theorems for a directed random walk on the backbone of a supercritical oriented percolation cluster
TL;DR: In this article, the authors considered a directed random walk on the backbone of the supercritical oriented percolation cluster in dimensions $d+1$ with $d \ge 3$ being the spatial dimension and proved an annealed local central limit theorem and a quenched local limit theorem.
Journal ArticleDOI
Local limit theorems for a directed random walk on the backbone of a supercritical oriented percolation cluster
TL;DR: In this article , the authors considered a directed random walk on the backbone of the supercritical oriented percolation cluster in dimensions d+1 with d≥3 being the spatial dimension.
References
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TL;DR: In this paper, the authors extend the earlier work of Arratia and of Toth and Werner by providing characterization and convergence results for the Brownian Web distribution, including convergence of the system of all coalescing random walks to the BW under diffusive space-time scaling.
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