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Theory and experiment of Fourier-Bessel field calculation and tuning of a pulsed wave annular array

Theory and experiment of Fourier-Bessel field calculation and tuning of a pulsed wave annular array
Theory and experiment of Fourier-Bessel field calculation and tuning of a pulsed wave annular array
A one-dimensional (1D) Fourier–Bessel series method for computing and tuning (beamforming) the linear lossless field of flat pulsed wave annular arrays is developed and supported with both numerical simulation and experimental verification. The technique represents a new method for modeling and tuning the propagated field by linking the quantized surface pressure profile to a known set of limited diffraction Bessel beams propagating into the medium. This enables derivation of an analytic expression for the field at any point in space and time in terms of the transducer surface pressure profile. Tuning of the field then also follows by formulating a least-squares design for the transducer surface pressure with respect to a given desired field in space and time. Simulated and experimental results for both field computation and tuning are presented in the context of a 10-ring annular array operating at a central frequency of 2.5 MHz in water.
0001-4966
2412-2423
Fox, Paul D.
462039ef-2dd7-4dd0-8f4d-f853ffdf990a
Cheng, Jiqi
c9511f3c-99fe-4530-8ae8-a76268a1c5e7
Lu, Jian-Yu
e90fbc8d-a81c-4c34-8a70-416cf900f439
Fox, Paul D.
462039ef-2dd7-4dd0-8f4d-f853ffdf990a
Cheng, Jiqi
c9511f3c-99fe-4530-8ae8-a76268a1c5e7
Lu, Jian-Yu
e90fbc8d-a81c-4c34-8a70-416cf900f439

Fox, Paul D., Cheng, Jiqi and Lu, Jian-Yu (2003) Theory and experiment of Fourier-Bessel field calculation and tuning of a pulsed wave annular array. Journal of the Acoustical Society of America, 113 (5), 2412-2423. (doi:10.1121/1.1560211).

Record type: Article

Abstract

A one-dimensional (1D) Fourier–Bessel series method for computing and tuning (beamforming) the linear lossless field of flat pulsed wave annular arrays is developed and supported with both numerical simulation and experimental verification. The technique represents a new method for modeling and tuning the propagated field by linking the quantized surface pressure profile to a known set of limited diffraction Bessel beams propagating into the medium. This enables derivation of an analytic expression for the field at any point in space and time in terms of the transducer surface pressure profile. Tuning of the field then also follows by formulating a least-squares design for the transducer surface pressure with respect to a given desired field in space and time. Simulated and experimental results for both field computation and tuning are presented in the context of a 10-ring annular array operating at a central frequency of 2.5 MHz in water.

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Published date: 2003

Identifiers

Local EPrints ID: 28444
URI: http://eprints.soton.ac.uk/id/eprint/28444
DOI: doi:10.1121/1.1560211
ISSN: 0001-4966
PURE UUID: 645693d6-a805-4790-9328-f1e4b5beeaf5

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Date deposited: 02 May 2006
Last modified: 15 Mar 2024 07:25

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Contributors

Author: Paul D. Fox
Author: Jiqi Cheng
Author: Jian-Yu Lu

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