AbstractThis paper considers the accuracy of the split-step solution for wave propagation in random media, both analytically and numerically. The main interest lies in finding the statistical moments of the wavefield, averaged over time of realizations of the random medium. The perturbation error is found explicitly as a function of operators acting on the wavefield. The accuracy of the wave and its moments is then examined, in terms of the error and its autocorrelation function. It is shown that both step-wise and cumulative accuracy of the moments is greater than it is for the wavefield itself. A model is also described in which the random medium may be represented, using a series of correlated phase-screens in arbitrarily fine detail. Th...
International audienceWe study the paraxial wave equation with a randomly perturbed index of refract...
can be used to construct coherence functions to infer the statistical characteristics of crustal and...
We present theoretical calculations of the ensemble-averaged (or effective or coherent) wave field p...
AbstractThis paper considers the accuracy of the split-step solution for wave propagation in random ...
The problem considered is that of calculating the moments of waves propagating in a medium with rand...
Propagation of waves in a random medium is studied under the "quasioptics" and the "Markov random pr...
Abstract. Numerical simulation of high frequency waves in highly heterogeneous media is a challengin...
This paper presents a study of wave propagation in an infinite beam on a random Winkler foundation. ...
Numerical simulation of high frequency waves in highly heterogeneous media is a challenging problem....
Tractable analytic expressions are developed for a variety of basic statistical quantities involving...
Time‐independent wave propagation is treated in media where the index of refraction contains a rando...
A simple technique is used to derive statistical characterizations of the perturbations imposed upon...
In this paper a multi-scaled diffusion-approximation theorem is proved so as to unify various appli...
Abstract. Random media have material properties with such complicated spatial vari-ations that they ...
Quantitative error analysis for simulation of wave propagation in three dimensional random media ass...
International audienceWe study the paraxial wave equation with a randomly perturbed index of refract...
can be used to construct coherence functions to infer the statistical characteristics of crustal and...
We present theoretical calculations of the ensemble-averaged (or effective or coherent) wave field p...
AbstractThis paper considers the accuracy of the split-step solution for wave propagation in random ...
The problem considered is that of calculating the moments of waves propagating in a medium with rand...
Propagation of waves in a random medium is studied under the "quasioptics" and the "Markov random pr...
Abstract. Numerical simulation of high frequency waves in highly heterogeneous media is a challengin...
This paper presents a study of wave propagation in an infinite beam on a random Winkler foundation. ...
Numerical simulation of high frequency waves in highly heterogeneous media is a challenging problem....
Tractable analytic expressions are developed for a variety of basic statistical quantities involving...
Time‐independent wave propagation is treated in media where the index of refraction contains a rando...
A simple technique is used to derive statistical characterizations of the perturbations imposed upon...
In this paper a multi-scaled diffusion-approximation theorem is proved so as to unify various appli...
Abstract. Random media have material properties with such complicated spatial vari-ations that they ...
Quantitative error analysis for simulation of wave propagation in three dimensional random media ass...
International audienceWe study the paraxial wave equation with a randomly perturbed index of refract...
can be used to construct coherence functions to infer the statistical characteristics of crustal and...
We present theoretical calculations of the ensemble-averaged (or effective or coherent) wave field p...