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The Pole Condition as Transparent Boundary Condition for Resonance Problems: Detection of Spurious Solutions

Zitieren Sie bitte immer diese URN:urn:nbn:de:0296-matheon-10580
  • When simulating isolated resonators, the application of transparent boundary conditions causes the approximated spectrum to be polluted with spurious solutions. Distinguishing these artificial solutions from solutions with a physical meaning is often difficult and requires a priori knowledge of the spectrum or the expected field distribution of resonant states. We present an implementation of the pole condition that distinguishes between incoming and outgoing waves by the location of the poles of their Laplace transform as transparent boundary condition. This implementation depends on one tuning parameter. We will use the sensitivity of the computed solutions to perturbations of this parameter as a means to identify spurious solutions. To obtain global statements, we will combine this technique with a convergence monitor for the boundary condition.

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Metadaten
Verfasserangaben:Benjamin Kettner
URN:urn:nbn:de:0296-matheon-10580
Gutachter*in:Alexander Mielke
Dokumentart:Preprint, Forschungszentrum Matheon
Sprache:Englisch
Datum der Erstveröffentlichung:25.04.2012
Datum der Freischaltung:25.04.2012
Freies Schlagwort / Tag:Helmholtz equation; pole condition; resonance problems; spurious solutions; transparent boundary condition
Institut:Zuse Institute Berlin (ZIB)
MSC-Klassifikation:15-XX LINEAR AND MULTILINEAR ALGEBRA; MATRIX THEORY / 15Axx Basic linear algebra / 15A18 Eigenvalues, singular values, and eigenvectors
35-XX PARTIAL DIFFERENTIAL EQUATIONS / 35Bxx Qualitative properties of solutions / 35B34 Resonances
35-XX PARTIAL DIFFERENTIAL EQUATIONS / 35Jxx Elliptic equations and systems [See also 58J10, 58J20] / 35J05 Laplacian operator, reduced wave equation (Helmholtz equation), Poisson equation [See also 31Axx, 31Bxx]
35-XX PARTIAL DIFFERENTIAL EQUATIONS / 35Qxx Equations of mathematical physics and other areas of application [See also 35J05, 35J10, 35K05, 35L05] / 35Q60 PDEs in connection with optics and electromagnetic theory
78-XX OPTICS, ELECTROMAGNETIC THEORY (For quantum optics, see 81V80) / 78Mxx Basic methods / 78M10 Finite element methods
Preprint-Nummer:952
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