Spectral analysis and correction of the structure of computer-generated fan-out Dammann gratings at their fabrication

Interexpo GEO-Siberia Pub Date : 2022-05-18 DOI:10.33764/2618-981x-2022-8-1-9-16

V. Korolkov, A. Sedukhin, R. Kuts, A. R. Sametov, A. Malyshev, V. Cherkashin

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Abstract

A technique for quickly finding the optimal time of liquid etching the amplitude masks of two-dimensional Dammann gratings, the structure of which is synthesized by direct laser writing in a polar coordinate system, is studied theoretically and experimentally. Thin chromium films are used as the recording material for laser writing, which are oxidized during laser writing and form an amplitude mask during their liquid etching (when using the thermochemical technology for their processing). The change in the etching time here occurs in the form of etching and displacement of the edges of the exposed zones. To find the optimal etching time for chromium films, it is proposed to use a procedure of measuring the spectra of amplitude gratings, by quick operational measurement and analysis of the intensity distribution of high diffraction orders, and by minimization of the root-mean-square deviation of these intensities. It is shown that higher diffraction orders in the spectra of binary-amplitude structures correlate well with the same orders of binary-phase structures. This conclusion can be effectively used to determine the moment when the optimum zone size is reached during liquid etching.

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计算机生成的扇形达曼光栅在制作过程中的光谱分析和结构校正

本文从理论和实验两方面研究了在极坐标系下激光直接写入合成二维达曼光栅振幅掩模的快速液相刻蚀最佳时间。采用薄铬薄膜作为激光写入的记录材料，在激光写入过程中被氧化，在液体蚀刻过程中形成振幅掩膜(当使用热化学技术进行加工时)。在这里，蚀刻时间的变化是以曝光区边缘的蚀刻和位移的形式发生的。为了找到铬膜的最佳刻蚀时间，提出了一种测量振幅光栅光谱的方法，通过快速测量和分析高衍射阶的强度分布，并通过最小化这些强度的均方根偏差。结果表明，二元振幅结构的衍射阶数越高，其与二元相结构的衍射阶数越高。这一结论可以有效地用于确定液体刻蚀过程中达到最佳区尺寸的时刻。

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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Interexpo GEO-Siberia

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