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TRANSPARENT BOUNDARY CONDITIONS BASED ON THE POLE CONDITION FOR TIME-DEPENDENT, TWO-DIMENSIONAL PROBLEMS

Please always quote using this URN:urn:nbn:de:0296-matheon-11206
  • The pole condition approach for deriving transparent boundary conditions is extended to the time-dependent, two-dimensional case. Non-physical modes of the solution are identified by the position of poles of the solution's spatial Laplace transform in the complex plane. By requiring the Laplace transform to be analytic on some problem dependent complex half-plane, these modes can be suppressed. The resulting algorithm computes a finite number of coefficients of a series expansion of the Laplace transform, thereby providing an approximation to the exact boundary condition. The resulting error decays super-algebraically with the number of coefficients, so relatively few additional degrees of freedom are sufficient to reduce the error to the level of the discretization error in the interior of the computational domain. The approach shows good results for the Schroedinger and the drift-diffusion equation but, in contrast to the one-dimensional case, exhibits instabilities for the wave and Klein-Gordon equation. Numerical examples are shown that demonstrate the good performance in the former and the instabilities in the latter case.

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Metadaten
Author:Daniel Ruprecht, Achim Schädle, Frank Schmidt
URN:urn:nbn:de:0296-matheon-11206
Referee:Peter Deuflhard
Document Type:Preprint, Research Center Matheon
Language:English
Date of first Publication:2012/03/15
Release Date:2012/03/15
Tag:Klein-Gordon equation; Schroedinger equation; drift-diffusion equation; pole condition; transparent boundary conditions; wave equation
Institute:Zuse Institute Berlin (ZIB)
MSC-Classification:65-XX NUMERICAL ANALYSIS / 65Mxx Partial differential equations, initial value and time-dependent initial- boundary value problems / 65M60 Finite elements, Rayleigh-Ritz and Galerkin methods, finite methods
Preprint Number:951
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