Interpretation of radiation fields in terms of sub-beams
Two frequently employed measures of a statistical radiation field, i.e., the mutual coherence function and the acoustic-intensity angular spectral density, are considered as they apply to deterministi...
Two frequently employed measures of a statistical radiation field, i.e., the mutual coherence function and the acoustic-intensity angular spectral density, are considered as they apply to deterministi...
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Adjointness properties for differential systems with eigenvalue-dependent boundary conditions, with application to flow-duct acoustics
J. Acoust. Soc. Am. Volume 61, Issue 4, pp. 913-922 (April 1977)
Issue Date: April 1977
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When the boundary conditions at the two endpoints of a second-order differential system depend explicitly upon the eigenvalues such that the system becomes non-self-adjoint, a generalized condition of orthogonality which includes endpoint terms can be developed. The generalized orthogonality condition is used to determine modal coefficients for the expansion of arbitrary functions in series of eigenfunctions. The method is applied to the particular case of acoustic wave propagation in a rectangular duct with a uniform mean-flow profile and walls with finite acoustic impedance. The ability of the eigenfunction expansion to converge to a plane-wave acoustic pressure profile is demonstrated under a variety of flow, frequency, and wall-impedance conditions.
| Permalink: | http://dx.doi.org/10.1121/1.381383 |
PACS
- 43.20.Bi
Acoustics General linear acoustics Mathematical theory of wave propagation - 43.20.Ks
Acoustics General linear acoustics Standing waves, resonance, normal modes - 43.20.Mv
Acoustics General linear acoustics Waveguides, wave propagation in tubes and ducts - 43.28.Py
Acoustics Aeroacoustics, atmospheric sound Interaction of fluid motion and sound - YEAR: 1977
PUBLICATION DATA
0001-4966 (print)
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