Diffraction of a spherical acoustic wave due to the coupling of pressure release and absorbing half planes in a moving fluid

Bashir Ahmad

doi:10.1016/j.amc.2006.11.051

$Diffraction of a spherical acoustic wave due to the coupling of pressure release and absorbing half planes in a moving fluid$

Journal article

Peer reviewed

Diffraction of a spherical acoustic wave due to the coupling of pressure release and absorbing half planes in a moving fluid

Bashir Ahmad

Applied mathematics and computation, Vol.188(2), pp.1897-1907

15/05/2007

DOI: https://doi.org/10.1016/j.amc.2006.11.051

Abstract

Coupling of half planes

Diffraction

Wiener–Hopf technique

We investigate the diffraction of a spherical acoustic wave (emanating due to a point source) from the coupling of a pressure release half plane characterized by zero impedance (soft half plane) and an absorbing (locally reacting) half plane satisfying Myers’ impedance condition in a moving fluid. Myers’ condition (a generalization of Ingard’s impedance condition) is now the accepted form of the boundary condition for impedance barriers with flow and yields a correct form of the diffracted field. The method of solution is based on the Wiener–Hopf technique and asymptotic approximation methods.

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Title: Diffraction of a spherical acoustic wave due to the coupling of pressure release and absorbing half planes in a moving fluid
Creators - without role: Bashir Ahmad - King Abdulaziz University
Publication Details: Applied mathematics and computation, Vol.188(2), pp.1897-1907
Publisher: Elsevier Inc
Identifiers: 9934709908331
Academic Unit: King Abdulaziz University
Language: English
Resource Type: Journal article