Wavefront Computing in Solids: The Design Parameters and the Ideal Lens

Zaifeng Yang, E. Ng, K. Chai, Bui Viet Phuong, Z. Oo, C. Png, A. Lal
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引用次数: 3

Abstract

This paper presents a theoretical derivation for the design parameters of wavefront computing (WFC) system in solids including the aperture/transducer sizes, focal length, and the ideal lens. To achieve Fourier transform at the expected focal plane based on the wavefront computing system with ideal lens, the design parameters are derived for various transducers arrays from 4 by 4 to 32 by 32. Based on the theory in geometrical optics, the equations of ideal thick plano-concave lens are derived in solids for a given focal length and material properties. To validate the derived design parameters and the ideal lens, time domain simulation is used to show the propagation of the elastic waves in fused silica block. It can be observed that the waves excited by four piezoelectric transducers will get focused at the expected focal plane after the ideal lens.
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固体波前计算:设计参数和理想透镜
本文给出了固体介质中波前计算(WFC)系统设计参数的理论推导,包括孔径/换能器尺寸、焦距和理想透镜。为了实现理想透镜波前计算系统在期望焦平面上的傅里叶变换,推导了4 × 4 ~ 32 × 32不同换能器阵列的设计参数。根据几何光学理论,导出了给定焦距和材料性质的固体理想厚平凹透镜的方程。为了验证推导出的设计参数和理想透镜,采用时域仿真方法对弹性波在熔融石英块中的传播进行了模拟。可以观察到,四个压电换能器激发的波在理想透镜后会聚焦在预期焦平面上。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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