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Article Dans Une Revue Mathematical Models and Methods in Applied Sciences Année : 2017

Nonlinear Geometric Optics method based multi-scale numerical schemes for highly-oscillatory transport equations

Résumé

We introduce a new numerical strategy to solve a class of oscillatory transport PDE models which is able to captureaccurately the solutions without numerically resolving the high frequency oscillations {\em in both space and time}.Such PDE models arise in semiclassical modeling of quantum dynamics with band-crossings, and otherhighly oscillatory waves. Our first main idea is to use the nonlinear geometric optics ansatz, which builds theoscillatory phase into an independent variable. We then choose suitable initial data, based on the Chapman-Enskog expansion, for the new model. For a scalar model, we prove that so constructed model will have certain smoothness, and consequently, for a first order approximation scheme we prove uniform error estimates independent of the (possibly small) wave length. The method is extended to systems arising from a semiclassical model for surface hopping, a non-adiabatic quantum dynamic phenomenon. Numerous numerical examples demonstrate that the method has the desired properties.
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Dates et versions

hal-01323721 , version 1 (31-05-2016)

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Nicolas Crouseilles, Shi Jin, Mohammed Lemou. Nonlinear Geometric Optics method based multi-scale numerical schemes for highly-oscillatory transport equations. Mathematical Models and Methods in Applied Sciences, 2017, 27 (11), pp.2031-2070. ⟨10.1142/S0218202517500385⟩. ⟨hal-01323721⟩
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