Perfectly Matched Layers for the Convected Helmholtz Equation

Perfectly Matched Layers for the Convected Helmholtz Equation

In this paper, we propose and analyze perfectly matched absorbing layers for a problem of time-harmonic acoustic waves propagating in a duct in the presence of a uniform flow. The absorbing layers are designed for the pressure field, satisfying the convected scalar Helmholtz equation. A difficulty,...

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Veröffentlicht in:SIAM journal on numerical analysis 2005-01, Vol.42 (1), p.409-433
Hauptverfasser: BECACHE, E, DHIA, A.-S. Bonnet-Ben, LEGENDRE, G
Format: Artikel
Sprache:eng
Schlagworte:
Acoustic ducts
Boundary conditions
Coefficients
Constant coefficients
Error rates
Euler equations
Exact sciences and technology
Group velocity
Mathematical analysis
Mathematics
Modeling
Numerical analysis
Numerical analysis. Scientific computation
Partial differential equations
Partial differential equations, boundary value problems
Pressure distribution
Sciences and techniques of general use
Waves
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Zusammenfassung:In this paper, we propose and analyze perfectly matched absorbing layers for a problem of time-harmonic acoustic waves propagating in a duct in the presence of a uniform flow. The absorbing layers are designed for the pressure field, satisfying the convected scalar Helmholtz equation. A difficulty, compared to the Helmholtz equation, comes from the presence of so-called inverse upstream modes which become unstable, instead of evanescent, with the classical Bérenger's perfectly matched layers (PMLs). We investigate here a PML model, recently introduced for time-dependent problems, which makes all outgoing waves evanescent. We then analyze the error due to the truncation of the domain and prove that the convergence is exponential with respect to the size of the layers for both the classical and the new PML models. Numerical validations are finally presented.
ISSN:0036-1429
1095-7170