Markov chain analysis of random walks on disordered medium
Abstract
We study the dynamical exponents dw and ds for a particle diffusing in a disordered medium (modeled by a percolation cluster), from the regime of extreme disorder (i.e., when the percolation cluster is a fractal at p=pc) to the Lorentz gas regime when the cluster has weak disorder at p>pc and the leading behavior is standard diffusion. A new technique of relating the velocity autocorrelation function and the return to the starting point probability to the asymptotic spectral properties of the hopping transition probability matrix of the diffusing particle is used, and the latter is numerically analyzed using the Arnoldi-Saad algorithm. We also present evidence for a new scaling relation for the second largest eigenvalue in terms of the size of the cluster, |λmax| S-dw/df, which provides a very efficient and accurate method of extracting the spectral dimension ds where ds=2df/dw.
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