Underwater acoustic surface waves on a periodically perforated metal plate
Graham, TJ; Hibbins, AP; Sambles, JR; et al.Starkey, TA
Date: 26 December 2019
Journal
The Journal of the Acoustical Society of America
Publisher
Acoustical Society of America (ASA)
Publisher DOI
Abstract
Acoustic surface waves are supported at the surface of appropriately structured elastic materials. Here the excitation and propagation of the lowest-order surface mode supported by a square array of open-ended cavities on a metal plate submerged in water is demonstrated. This mode, which has a half-wavelength character in the cavity, ...
Acoustic surface waves are supported at the surface of appropriately structured elastic materials. Here the excitation and propagation of the lowest-order surface mode supported by a square array of open-ended cavities on a metal plate submerged in water is demonstrated. This mode, which has a half-wavelength character in the cavity, arises due to inter-cavity interaction by evanescent diffraction of the pressure field, and forms a band from zero-frequency to an asymptotic limit frequency. The authors perform an acoustic characterization of the pressure field close to the surface of the perforated plate in the 60–100 kHz frequency range; sound is pulsed from a fixed point-like acoustic source, and the evolution of the acoustic field across the sample surface is measured as a
function of time and space with a traversing detector. Using Fourier analysis, the dispersion is imaged between points of high-symmetry (C; X; M) and at planes in momentum-space at fixed frequencies. Beaming of acoustic energy on the surface over a narrow frequency band was observed, caused by the anisotropic mode dispersion of the acoustic surface wave on the square lattice. The measured dispersion shows good agreement with the predictions of a numerical model.
Physics and Astronomy
Faculty of Environment, Science and Economy
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