多层结构中超声透射系数的级数展开

IF 0.6 4区物理与天体物理 Q4 ACOUSTICS

Archives of Acoustics Pub Date : 2023-07-20 DOI:10.24425/aoa.2023.144262

A. Chitnalah, N. Aouzale, H. Jakjoud

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引用次数: 0

摘要

为了计算超声波在多层介质中的传输系数，提出了一种新的方法，将其扩展到德拜级数中。使用这种形式，传输系数可以用共振项级数的形式表示。从这个角度来看，考虑到每个界面上所有可能的反射和折射，透射波的相对振幅可以被视为项的有限总和。然后，我们的模型被用来研究超声平面波和N平面层结构之间的相互作用。显然，根据一定程度的准确性，必须将最终的有限总和减少到有限总和。然后，将使用精确表达式（等式（1））对传输系数的数值估计与我们在两个或三个平面层结构的情况下的方法进行比较。还研究了有限和阶数对传输系数计算值的影响。最后，我们提出的方法可以用于将圆形源产生的压力场分解为高斯光束，绘制通过多层结构传输的压力场的3D图像。

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Series Expanding of the Ultrasound Transmission Coefficient Through a Multilayered Structure

To calculate the transmission coeﬃcient of ultrasonic waves through a multi-layered medium, a new approach is proposed by expanding it into Debye’s series. Using this formalism, the transmission coeﬃcient can be put in the form of resonance terms series. From this point of view, the relative amplitude of the transmitted wave can be considered as an inﬁnite summation of terms taking into account all possible reﬂections and refractions on each interface. Our model is then used to investigate interaction between the ultrasonic plane wave and the N -plane-layer structure. Obviously, the resulting inﬁnite summation has to be reduced to a ﬁnite one, according to some level of accuracy. The numerical estimation of the transmission coeﬃcient using the exact expression (Eq. (1)) is then compared to the one of our method in the case of two or three plane-layer structure. The eﬀect of the order of the ﬁnite summation on the calculated value of the transmission coeﬃcient is, as well, studied. Finally, our proposed method may be used, with the decomposition into Gaussian beams of a pressure ﬁeld created by a circular source, to draw a 3D image of the pressure ﬁeld transmitted through a multilayered structure.

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来源期刊

Archives of Acoustics 物理-声学

CiteScore

1.80

自引率

11.10%

发文量

审稿时长

6-12 weeks

期刊介绍： Archives of Acoustics, the peer-reviewed quarterly journal publishes original research papers from all areas of acoustics like: acoustical measurements and instrumentation, acoustics of musics, acousto-optics, architectural, building and environmental acoustics, bioacoustics, electroacoustics, linear and nonlinear acoustics, noise and vibration, physical and chemical effects of sound, physiological acoustics, psychoacoustics, quantum acoustics, speech processing and communication systems, speech production and perception, transducers, ultrasonics, underwater acoustics.