声学显微镜的定量方法

G. Briggs, J. M. Rowe, A. Sinton, D. Spencer
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引用次数: 18

摘要

提供了当前方法的概述。两种成熟的定量分析方法是测量泄漏表面声波的速度和衰减的线聚焦光束系统,以及反演复值V(z)以得到反射函数。现在至少有三种其他方法可用。第一种方法是使用非常短的脉冲来分辨来自不同界面或来自与样品不同相互作用的回波。V(z)的傅里叶反演已经扩展到通过二极管检测器测量的信号,因此相位信息已经丢失。一种基于Gerchberg-Saxton算法的相位恢复方法能够仅从V(z)的模量重建复反射函数,并且结果似乎相当忠实地再现了瑞利角周围的相位变化。最后,将线聚焦光束系统的分析方法推广到球面透镜,得到了各向同性材料在1.5 GHz频率下的分析结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Quantitative methods in acoustic microscopy
An overview of current methods is provided. Two well-established methods of quantitative analysis are the line-focus-beam system for measuring the velocity and attenuation of leaky surface acoustic waves, and the inversion of the complex-valued V(z) to yield the reflectance function. Now at least three other methods are available. The first involves the use of very short pulses to resolve echoes from different interfaces or from different interactions with the specimen. The Fourier inversion of V(z) has been extended to signals measured through a diode detector, from which the phase information has therefore been lost. A phase retrieval method based on the Gerchberg-Saxton algorithm enables the complex reflectance function to be reconstructed from a modulus only V(z), and the results seem to reproduce the phase change around the Rayleigh angle rather faithfully. Finally, the analysis method used for the line-focus-beam system has been generalized for spherical lenses, and results have been obtained with isotropic materials at frequencies up to 1.5 GHz.<>
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