A numerical minimization scheme for the complex Helmholtz equation

A numerical minimization scheme for the complex Helmholtz equation

We use the work of Milton, Seppecher, and Bouchitté on variational principles for waves in lossy media to formulate a finite element method for solving the complex Helmholtz equation that is based entirely on minimization. In particular, this method results in a finite element matrix that is symmetr...

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Veröffentlicht in:ESAIM. Mathematical modelling and numerical analysis 2012-01, Vol.46 (1), p.39-57
Hauptverfasser: Richins, Russell B., Dobson, David C.
Format: Artikel
Sprache:eng
Schlagworte:
35A15
65N30
Boundary conditions
Calculus of variations and optimal control
Differential equations
Exact sciences and technology
Finite element method
finite element methods
Global analysis, analysis on manifolds
Helmholtz equation
Helmholtz equations
Mathematical analysis
Mathematical models
Mathematics
Methods
Minimization
Numerical analysis
Numerical analysis. Scientific computation
Numerical linear algebra
Optimization
Partial differential equations
Principles
Sciences and techniques of general use
Studies
Topology. Manifolds and cell complexes. Global analysis and analysis on manifolds
Variables
Variational methods
Variational principles
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Zusammenfassung:We use the work of Milton, Seppecher, and Bouchitté on variational principles for waves in lossy media to formulate a finite element method for solving the complex Helmholtz equation that is based entirely on minimization. In particular, this method results in a finite element matrix that is symmetric positive-definite and therefore simple iterative descent methods and preconditioning can be used to solve the resulting system of equations. We also derive an error bound for the method and illustrate the method with numerical experiments.
ISSN:0764-583X
1290-3841
DOI:10.1051/m2an/2011017