Fractional White-Noise Limit and Paraxial Approximation for Waves in Random MediaReportar como inadecuado




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1 I2M - Institut de Mathématiques de Marseille 2 Department of Mathematics Fort Collins

Abstract : This work is devoted to the asymptotic analysis of high frequency wave propagation in random media with long-range dependence. We are interested in two asymptotic regimes, that we investigate simultaneously: the paraxial approximation, where the wave is collimated and propagates along a privileged direction of propagation, and the white-noise limit, where random fluctuations in the background are well approximated in a statistical sense by a fractional white noise. The fractional nature of the fluctuations is reminiscent of the long-range correlations in the underlying random medium. A typical physical setting is laser beam propagation in turbulent atmosphere. Starting from the high frequency wave equation with fast non-Gaussian random oscillations in the velocity field, we derive the fractional Itô-Schrödinger equation, that is a Schrödinger equation with potential equal to a fractional white noise. The proof involves a fine analysis of the backscattering and of the coupling between the propagating and evanescent modes. Because of the long-range dependence, classical diffusion-approximation theorems for equations with random coefficients do not apply, and we therefore use moment techniques to study the convergence.

Keywords : fractional processes long-range dependence Waves in random media paraxial approximation





Autor: Christophe Gomez - Olivier Pinaud -

Fuente: https://hal.archives-ouvertes.fr/



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