Strongly and weakly self-similar diffusion
نویسندگان
چکیده
Many dispersive processes have moments of displacements with large-t behavior 〈|x|p〉 ∼ tp . The study of γp as a function of p provides a more complete characterization of the process than does the single number γ2. Also at long times, the core of the concentration relaxes to a self-similar profile, while the large-x tails, consisting of particles which have experienced exceptional displacements, are not self-similar. Depending on the particular process, the effect of the tails can be negligible and then γp is a linear function of p (strong self-similarity). But if the tails are important then γp is a non-trivial function of p (weak self-similarity). In the weakly self-similar case, the low moments are determined by the self-similar core, while the high moments are determined by the non-self-similar tails. The popular exponent γ2 may be determined by either the core or the tails. As representatives of a large class of dispersive processes for which γp , is a piecewise-linear function of p, we study two systems: a stochastic model, the “generalized telegraph model”, and a deterministic area-preserving map, the “kicked Harper map”. We also introduce a formula which enables one to obtain the moment 〈|x|p〉 from the Laplace–Fourier representation of the concentration. In the case of the generalized telegraph model, this formula provides analytic expressions for γp . © 2001 Elsevier Science B.V. All rights reserved.
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