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Automodel solutions for superdiffusive transport by the Lévy walks

Published 20 Dec 2018 in cond-mat.stat-mech and physics.data-an | (1812.08871v1)

Abstract: The method of approximate automodel solution for the Green's function of the time-dependent superdiffusive (nonlocal) transport equations (J. Phys. A: Math. Theor. 49 (2016) 255002) is extended to the case of a finite velocity of carriers. This corresponds to extension from the L\'evy flights-based transport to the transport of the type, which belongs to the class of "L\'evy walk + rests", to allow for the retardation effects in the L\'evy flights. This problem covers the cases of the transport by the resonant photons in astrophysical gases and plasmas, heat transport by electromagnetic waves in plasmas, migration of predators, and other applications. We treat a model case of one-dimensional transport on a uniform background with a simple power-law step-length probability distribution function (PDF). A solution for arbitrary superdiffusive PDF is suggested, and the verification of solution for a particular power law PDF, which corresponds, e.g., to the Lorentzian wings of atomic spectral line shape for emission of photons, is carried out using the computation of the exact solution.

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