Some interesting features of spherical cap transducers

Interesting features of spherical caps have been identified and investigated as a result of the availability of large computers which has overcome the problem of poor convergence of the wave-harmonic series for spherical cap directivity at large ka. Caps which have radial velocity excitation exhibit...

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Veröffentlicht in:	The Journal of the Acoustical Society of America 1978-11, Vol.64 (S1), p.S168-S168
Hauptverfasser:	Monteith, Dwight, Moore, Virgil, Northrup, Branch, English, Earle
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Sprache:	eng ; jpn
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container_end_page	S168
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container_title	The Journal of the Acoustical Society of America
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creator	Monteith, Dwight Moore, Virgil Northrup, Branch English, Earle
description	Interesting features of spherical caps have been identified and investigated as a result of the availability of large computers which has overcome the problem of poor convergence of the wave-harmonic series for spherical cap directivity at large ka. Caps which have radial velocity excitation exhibit Fresnel diffraction effects for ka ⩾ 2π. The presence of these effects has been verified experimentally with a spherical transducer which shows an axial loss of sensitivity for conditions corresponding to the 2nd Fresnel half-period zone. Fresnel theory predicts the occurrence of directivity extrema for caps which are hemispherical or smaller. Data for prediction of diffraction effects for larger caps is presented for 2π ⩽ ka ⩽ 20π. Axially excited caps do not exhibit diffraction effects. The velocity coefficients for the wave-harmonic series for axial velocity excitation are developed. Axially excited hemispherical caps were observed to exhibit constant directivity index for ka ⩾ 0.8π. [Work partially supported by NAVSEA and NCSC.]
doi_str_mv	10.1121/1.2003996
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Caps which have radial velocity excitation exhibit Fresnel diffraction effects for ka ⩾ 2π. The presence of these effects has been verified experimentally with a spherical transducer which shows an axial loss of sensitivity for conditions corresponding to the 2nd Fresnel half-period zone. Fresnel theory predicts the occurrence of directivity extrema for caps which are hemispherical or smaller. Data for prediction of diffraction effects for larger caps is presented for 2π ⩽ ka ⩽ 20π. Axially excited caps do not exhibit diffraction effects. The velocity coefficients for the wave-harmonic series for axial velocity excitation are developed. Axially excited hemispherical caps were observed to exhibit constant directivity index for ka ⩾ 0.8π. 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source	AIP Acoustical Society of America
title	Some interesting features of spherical cap transducers
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