Phase Retrieval Algorithm for Surface Topography Measurement Using Multi-Wavelength Scattering Spectroscopy

IF 0.9 Q4 AUTOMATION & CONTROL SYSTEMS International Journal of Automation Technology Pub Date : 2024-01-05 DOI:10.20965/ijat.2024.p0092
Satoshi Itakura, T. Uenohara, Yasuhiro Mizutani, Yasuhiro Takaya
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Abstract

We are currently developing a high-precision and wide-range in-process surface topography measurement system using the laser inverse scattering method. In the laser inverse scattering method, a monochromatic plane wave is illuminated perpendicular to the target surface and the surface topography is measured by retrieving the phase distribution of the reflected light. However, the dynamic range of this method is limited to the sub-micrometer range because of phase wrapping during phase retrieval. In this paper, we propose a laser inverse scattering method using a multi-wavelength light source based on the fact that the phase of light is inversely proportional to the wavelength with the propagation distance as a coefficient. We also constructed a surface profilometer based on the proposed method and measured the profile of a single rectangular groove with a width of 50 µm and a depth of 2 µm. The dimensions of the measured profiles agree well with the nominal dimensions of the rectangular groove.
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利用多波长散射光谱学测量表面地形的相位检索算法
我们目前正在利用激光反向散射法开发一种高精度、大范围的过程中表面形貌测量系统。在激光反向散射法中,垂直于目标表面照射单色平面波,通过检索反射光的相位分布来测量表面形貌。然而,由于相位检索过程中的相位缠绕,这种方法的动态范围仅限于亚微米级。在本文中,我们提出了一种使用多波长光源的激光反向散射方法,其依据是光的相位与波长成反比,传播距离为系数。我们还根据提出的方法建造了一个表面轮廓仪,并测量了宽度为 50 微米、深度为 2 微米的单个矩形凹槽的轮廓。测量到的轮廓尺寸与矩形凹槽的标称尺寸非常吻合。
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来源期刊
International Journal of Automation Technology
International Journal of Automation Technology AUTOMATION & CONTROL SYSTEMS-
CiteScore
2.10
自引率
36.40%
发文量
96
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