Scanning imaging system with ultrasonic phase conjugator

K. Yamamoto, E. Ohnok, A. Kokubo, K. Sakai, K. Takagi
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Abstract

The phase conjugate waves of ultrasound were generated with PZT ceramics through the nonlinear piezoelectric interaction between elastic field of incident ultrasound at /spl omega/ and electric field applied at 2/spl omega/. The amplitude reflectivity of the phase conjugation was shown to be as high as 30% for incidence at 10 MHz. The stroboscopic schlieren technique was used to visualize their behavior in water: the slow-motion video visually confirmed their time-reversal property. The phase conjugator of PZT was installed in a system of scanning acoustic imaging. A metal plate with letter-shaped holes as a target was put in an artificial disturber of sound waves and imaged. Normal images were also taken without the phase conjugator for comparison, which were seriously distorted and superimposed on a ghost due to the disturber. The image reconstructed of the phase conjugate reflection yielded clear figure of the targets in spite of the disturber. The usefulness of the phase conjugation phenomenon applied to the ultrasonic imaging was shown.
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超声相位共轭器扫描成像系统
以PZT陶瓷为材料,通过入射超声在/spl ω /处的弹性场与外加电场在2/spl ω /处的非线性压电相互作用,产生超声相位共轭波。相位共轭的振幅反射率在10 MHz时高达30%。频闪纹影技术被用来可视化它们在水中的行为:慢动作视频从视觉上证实了它们的时间反转特性。将相位共轭器安装在扫描声成像系统中。将带有字母形孔的金属片作为靶片放入人工声波干扰器中成像。在没有相位共轭器的情况下拍摄的正常图像也会由于干扰而严重失真并叠加在鬼影上。对相位共轭反射图像进行重构,尽管存在干扰,但仍能获得清晰的目标图像。说明了相位共轭现象在超声成像中的应用。
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