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Semi-classical limits of Schrödinger-Poisson systems via Wigner transforms

Norbert J. Mauser — 2002

Journées équations aux dérivées partielles

We deal with classical and “semiclassical limits” , i.e. vanishing Planck constant ϵ 0 , eventually combined with a homogenization limit of a crystal lattice, of a class of “weakly nonlinear” NLS. The Schrödinger-Poisson (S-P) system for the wave functions { ψ j ϵ ( t , x ) } is transformed to the Wigner-Poisson (W-P) equation for a “phase space function” f ϵ ( t , x , ξ ) , the Wigner function. The weak limit of f ϵ ( t , x , ξ ) , as ϵ tends to 0 , is called the “Wigner measure” f ( t , x , ξ ) (also called “semiclassical measure” by P. Gérard). The mathematically...

Numerical study of the Davey-Stewartson system

Christophe BesseNorbert J. MauserHans Peter Stimming — 2004

ESAIM: Mathematical Modelling and Numerical Analysis - Modélisation Mathématique et Analyse Numérique

We deal with numerical analysis and simulations of the Davey-Stewartson equations which model, for example, the evolution of water surface waves. This time dependent PDE system is particularly interesting as a generalization of the 1-d integrable NLS to 2 space dimensions. We use a time splitting spectral method where we give a convergence analysis for the semi-discrete version of the scheme. Numerical results are presented for various blow-up phenomena of the equation, including blowup of defocusing,...

Numerical approximation of self-consistent Vlasov models for low-frequency electromagnetic phenomena

Nicolas BesseNorbert J. mauserEric Sonnendrücker — 2007

International Journal of Applied Mathematics and Computer Science

We present a new numerical method to solve the Vlasov-Darwin and Vlasov-Poisswell systems which are approximations of the Vlasov-Maxwell equation in the asymptotic limit of the infinite speed of light. These systems model low-frequency electromagnetic phenomena in plasmas, and thus "light waves" are somewhat supressed, which in turn allows thenumerical discretization to dispense with the Courant-Friedrichs-Lewy condition on the time step. We construct a numerical scheme based on semi-Lagrangian...

Numerical study of the Davey-Stewartson system

Christophe BesseNorbert J. MauserHans Peter Stimming — 2010

ESAIM: Mathematical Modelling and Numerical Analysis

We deal with numerical analysis and simulations of the Davey-Stewartson equations which model, for example, the evolution of water surface waves. This time dependent PDE system is particularly interesting as a generalization of the 1-d integrable NLS to 2 space dimensions. We use a time splitting spectral method where we give a convergence analysis for the semi-discrete version of the scheme. Numerical results are presented for various blow-up phenomena of the equation, including blowup of defocusing,...

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