Exceptional times for the dynamical discrete web
The dynamical discrete web (DyDW), introduced in the recent work of Howitt and Warren, is a system of coalescing simple symmetric one-dimensional random walks which evolve in an extra continuous dynamical time parameter [tau]. The evolution is by independent updating of the underlying Bernoulli variables indexed by discrete space-time that define the discrete web at any fixed [tau]. In this paper, we study the existence of exceptional (random) values of [tau] where the paths of the web do not behave like usual random walks and the Hausdorff dimension of the set of such exceptional [tau]. Our results are motivated by those about exceptional times for dynamical percolation in high dimension by Häggstrom, Peres and Steif, and in dimension two by Schramm and Steif. The exceptional behavior of the walks in the DyDW is rather different from the situation for the dynamical random walks of Benjamini, Häggstrom, Peres and Steif. For example, we prove that the walk from the origin violates the law of the iterated logarithm (LIL) on a set of [tau] of Hausdorff dimension one. We also discuss how these and other results should extend to the dynamical Brownian web, the natural scaling limit of the DyDW.
Year of publication: |
2009
|
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Authors: | Fontes, L.R.G. ; Newman, C.M. ; Ravishankar, K. ; Schertzer, E. |
Published in: |
Stochastic Processes and their Applications. - Elsevier, ISSN 0304-4149. - Vol. 119.2009, 9, p. 2832-2858
|
Publisher: |
Elsevier |
Keywords: | Coalescing random walks Exceptional times Dynamical random walks Brownian web Hausdorff dimension Law of the iterated logarithm Sticky random walks |
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