Modal analysis of the scattering coefficients of an open cavity in a waveguide

Tong, Yuhui

doi:10.1016/j.wavemoti.2016.11.001

Cited by 9 publications

(4 citation statements)

References 29 publications

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“…In quantum mechanics, Pichugin et al [4] formulated a waveguide-resonator system using normal modes of a closed system generated by imposing the Neumann or Dirichlet condition on the interface between the resonator and waveguide. Similar approaches have recently been proposed in the field of acoustics [5][6][7].…”

Section: Coupled-mode Theories Have Been Used For Investigating Wave ...mentioning

confidence: 84%

A coupled-mode theory for two-dimensional exterior Helmholtz problems based on the Neumann and Dirichlet normal mode expansion

Matsushima¹,

Noguchi²,

Yamada³

2022

Preprint

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This study proposes a novel coupled-mode theory for two-dimensional exterior Helmholtz problems. The proposed approach is based on the separation of the entire space R 2 into a fictitious disk and its exterior. The disk is allocated in such a way that it comprises all the inhomogeneity; therefore, the exterior supports cylindrical waves with a continuous spectrum. For the interior, we expand an unknown wave field using normal modes that satisfy some auxiliary boundary conditions on the surface of the disk. For the interior expansion, we propose combining the Neumann and Dirichlet normal modes. We show that the proposed expansion sacrifices L 2 orthogonality but significantly improve the convergence. Finally, we present some numerical verifications of the proposed coupled-mode theory.

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Section: Coupled-mode Theories Have Been Used For Investigating Wave ...mentioning

confidence: 84%

A coupled-mode theory for two-dimensional exterior Helmholtz problems based on the Neumann and Dirichlet normal mode expansion

Matsushima¹,

Noguchi²,

Yamada³

2022

Preprint

View full text Add to dashboard Cite

show abstract

“…It has attracted the attention of various investigators working in the field. [1][2][3][4] In particular, diffraction of sound by open-ended waveguide cavities is a significant topic in noise reduction and in radar target scattering. A lot of options for the reduction of noise have been discussed extensively in the literature.…”

Section: Introductionmentioning

confidence: 99%

Diffraction of sound waves by a lined cylindrical cavity

Tiryakioglu

2020

International Journal of Aeroacoustics

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In this paper, diffraction of sound waves through a lined cavity is analyzed rigorously. The inner–outer surfaces of the cavity and the base of the cavity are coated with three different absorbing linings. By using the Fourier transform technique in conjunction with the Mode-Matching method, the related boundary value problem is formulated as a Wiener–Hopf equation. In the solution, two infinite sets of unknown coefficients are involved that satisfy two infinite systems of linear algebraic equations. Numerical solution of this system is obtained for various values of the parameters of the problem. The graphical results are also presented which show that how efficiently the sound diffraction can be reduced by selection of problem parameters.

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“…Waveguide cavities is a well-known subject in acoustic, physics and electromagnetic. It has attracted the interest of investigators studying in this area [1][2][3][4]. Diffraction of sound by open ended cavities is significant topic in noise reduction.…”

Section: Introductionmentioning

confidence: 99%

Sound Wave Diffraction by a Cavity with Partial Lining

Tiryakioglu

2020

Mathematical Sciences and Applications E-Notes

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Diffraction of sound wave through a cavity with partial lining is analyzed rigorously. Fourier transform technique and Mode Matching method are used to obtain Wiener-Hopf(WH) equation and solution. The solution of the problem is found for various problem parameters numerically. The effect of the different parameters such as the lining length, cavity depth, etc. on the diffraction are illustrated graphically. The results are compared numerically with an existing study and found to be consistent.

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Modal analysis of the scattering coefficients of an open cavity in a waveguide

Cited by 9 publications

References 29 publications

A coupled-mode theory for two-dimensional exterior Helmholtz problems based on the Neumann and Dirichlet normal mode expansion

A coupled-mode theory for two-dimensional exterior Helmholtz problems based on the Neumann and Dirichlet normal mode expansion

Diffraction of sound waves by a lined cylindrical cavity

Sound Wave Diffraction by a Cavity with Partial Lining

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