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Transport and Scaling in Quenched 2D and 3D Lévy Quasicrystals

We consider correlated Lévy walks on a class of two- and three-dimensional deterministic self-similar structures, with correlation between steps induced by the geometrical distribution of regions, featuring different diffusion properties. We introduce a geometric parameter $α$, playing a role analogous to the exponent characterizing the step-length distribution in random systems. By a {\it single-long jump} approximation, we analytically determine the long-time asymptotic behavior of the moments of the probability distribution, as a function of $α$ and of the dynamic exponent $z$ associated to the scaling length of the process. We show that our scaling analysis also applies to experimentally relevant quantities such as escape-time and transmission probabilities. Extensive numerical simulations corroborate our results which, in general, are different from those pertaining to uncorrelated Lévy-walks models.

preprint2011arXivOpen access
Pierfrancesco BuonsanteRaffaella BurioniAlessandro Vezzani
cond-mat.stat-mech
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Pierfrancesco BuonsanteRaffaella BurioniAlessandro Vezzani

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