Designing Fully Populated Phased Arrays for Noninvasive Ultrasound Surgery with Controlled Degree of Irregularity in the Arrangement of Elements

When designing phased antenna arrays for use in noninvasive ultrasound surgery, it is desirable to provide the highest possible power for a given array dimensions. At the same time, it is necessary to take into account the limitations on the maximum allowable ultrasound intensity at the array elemen...

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Published in	Acoustical physics Vol. 66; no. 4; pp. 352 - 361
Main Authors	Rosnitskiy, P. B., Sapozhnikov, O. A., Gavrilov, L. R., Khokhlova, V. A.
Format	Journal Article
Language	English
Published	Moscow Pleiades Publishing 01.07.2020 Springer Nature B.V
Subjects	Acoustics Algorithms Antenna arrays Arrays Irregularities Iterative methods Phased arrays Physical Acoustics Physics Physics and Astronomy Surgery Tessellation Ultrasonic imaging Ultrasound Rayleigh integral medical acoustics high-intensity focused ultrasound multielement arrays
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ISSN	1063-7710 1562-6865
DOI	10.1134/S1063771020040090

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Abstract	When designing phased antenna arrays for use in noninvasive ultrasound surgery, it is desirable to provide the highest possible power for a given array dimensions. At the same time, it is necessary to take into account the limitations on the maximum allowable ultrasound intensity at the array elements and to ensure suppression of spurious diffraction maxima in the spatial structure of the emitted field. The problem can be solved by designing an irregular arrangement combined with the densest filling of the array surface with elements. This paper presents a modification of such a method for creating fully populated arrays with nonperiodic tessellation distribution of elements, based on the restriction of the relaxation mechanism in an iterative array design algorithm. A computer model that allows for controlling the degree of irregularity in distribution of the array elements was developed. The stability of maintaining the low level of acoustic intensity in unwanted grating lobes was tested for various random realizations of the element arrangements by analyzing a statistical ensemble of 500 model arrays. The advantages of the considered arrays in comparison with existing models of fully populated arrays are demonstrated.
AbstractList	When designing phased antenna arrays for use in noninvasive ultrasound surgery, it is desirable to provide the highest possible power for a given array dimensions. At the same time, it is necessary to take into account the limitations on the maximum allowable ultrasound intensity at the array elements and to ensure suppression of spurious diffraction maxima in the spatial structure of the emitted field. The problem can be solved by designing an irregular arrangement combined with the densest filling of the array surface with elements. This paper presents a modification of such a method for creating fully populated arrays with nonperiodic tessellation distribution of elements, based on the restriction of the relaxation mechanism in an iterative array design algorithm. A computer model that allows for controlling the degree of irregularity in distribution of the array elements was developed. The stability of maintaining the low level of acoustic intensity in unwanted grating lobes was tested for various random realizations of the element arrangements by analyzing a statistical ensemble of 500 model arrays. The advantages of the considered arrays in comparison with existing models of fully populated arrays are demonstrated.
Author	Gavrilov, L. R. Khokhlova, V. A. Rosnitskiy, P. B. Sapozhnikov, O. A.
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SubjectTerms	Acoustics Algorithms Antenna arrays Arrays Irregularities Iterative methods Phased arrays Physical Acoustics Physics Physics and Astronomy Surgery Tessellation Ultrasonic imaging Ultrasound
Title	Designing Fully Populated Phased Arrays for Noninvasive Ultrasound Surgery with Controlled Degree of Irregularity in the Arrangement of Elements
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