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球形腔聚焦换能器的非线性声场建模
引用本文:耿昊, 邱媛媛, 章东. 球形腔聚焦换能器的非线性声场建模[J]. 声学学报, 2014, 39(3): 380-384. DOI: 10.15949/j.cnki.0371-0025.2014.03.013
作者姓名:耿昊  邱媛媛  章东
作者单位:1. 南京大学声学研究所 近代声学教育部重点实验室 南京 210093;
基金项目:国家科技部973计划(2011CB707900);国家自然科学基金(81127901,11374155,11174141,11204144,11161120324);江苏省自然科学基金(BE2011110,BK2012226);江苏高校优势学科建设工程项目资助
摘    要:球形腔聚焦换能器是一种特殊形式的聚焦换能器。为理论证实球形腔聚焦换能器能突破传统超声聚焦在聚焦精度和聚焦增益上的限制,采用Westervelt非线性方程并结合时域有限差分法,建立了球形腔聚焦换能器的非线性声场的数值模型。数值计算了直径为120 mm的0.6 MHz球形腔聚焦换能器的非线性声场,并与传统球壳形聚焦换能器进行了对比。当激励声压为100 kPa时,球形腔聚焦换能器与同尺寸壳形聚焦换能器相比,焦点正声压增益提高约8.5倍,且焦域精度更高,-6 dB聚焦区域在z方向减小约20倍,达到次波长尺度。研究表明球形腔聚焦换能器在高强度聚焦超声精细治疗上具有潜在的应用前景。

关 键 词:球形腔  壳形  非线性方程  高强度聚焦超声  数值模型  时域有限差分法  数值计算  壳式  驻波场  声强  
收稿时间:2012-12-13
修稿时间:2013-02-28

Modeling of the acoustic nonlinear field generated from a spherical cavity transducer
GENG Hao, QIU Yuanyuan, ZHANG Dong. Modeling of the acoustic nonlinear field generated from a spherical cavity transducer[J]. ACTA ACUSTICA, 2014, 39(3): 380-384. DOI: 10.15949/j.cnki.0371-0025.2014.03.013
Authors:GENG Hao  QIU Yuanyuan  ZHANG Dong
Affiliation:1. Key Lab of Modern Acoustics, MOE, Institute of Acoustics, Nanjing University Nanjing 210093;2. School of Electronics and Information, Nantong University Nantong 226019
Abstract:Spherical cavity transducer is a special focused ultrasound transducer. In order to theoretically prove that it could break through the limit of the dimension of focal region and focal gain in conventional focusing ultrasound, a numerical model is developed for describing the nonlinear acoustic field generated from the spherical cavity transducer using the finite difference time domain (FDTD) method to solve the nonlinear Westervelt equation. Numerical simulation is performed using a spherical cavity transducer with diameter 120ram working at 0.6 MHz, and results are compared with those obtained from the conventional curved transducer with the same configuration. Results indicate that as the exciting acoustic pressure is 100 kPa, the spherical cavity transducer could increase focusing gain by about 8.5 times and reduce -6 dB focal region by 20 times in z direction. This study suggests that the spherical cavity transducer will be promising in the application of High intensity focused ultrasound (HIFU) for precise treatment. 
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