Study of interferometric signal correction methods in ultra-precision displacement measurement

IF 2.7 3区 工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY Measurement Science and Technology Pub Date : 2023-12-20 DOI:10.1088/1361-6501/ad179b
Zhangning Xie, Tao Jin, Lihua Lei, Zichao Lin, Yulin Yao, Dongbai Xue, Xiong Dun, Xiao Deng, Xinbin Cheng
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Abstract

The measurement of critical dimensions in the field of integrated circuits has moved from 7nm to 5nm. The existing chromium atomic lithography grating has a pitch period of 4700 l/mm and uniformity of picometre, and the interferometric signal period based on the above grating is as small as 106.4 nm, which brings new problems and challenges to the accurate processing of the signal. This paper investigates the error characteristics of ultra-high precision grating interferometric signals, establishes a Heydemann correction mathematical model for high inscribed line density grating interferometric signals, corrects the grating interferometer signals based on the random sample consensus (RANSAC), and verifies the effectiveness of the algorithm through simulation. By comparing the repeatability and linearity of the original algorithm and the self-traceable grating interferometric displacement measurement data processed by RANSAC, the conclusion that the standard deviation of the self-traceable grating interferometer repeat measurement after RANSAC is 1.60 nm in a 10,000 nm travel is obtained, and the purpose of improving the stability and uniformity of the signal solution with the algorithm of this paper is achieved, which is important for the study of laser interferometer and grating interferometer The results show that the stability and uniformity of the signal solution can be improved by the algorithm of this paper, which is of great significance for the study of the displacement solution of laser and grating interferometers.
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超精密位移测量中的干涉信号校正方法研究
集成电路领域的关键尺寸测量已从 7 纳米发展到 5 纳米。现有铬原子光刻光栅的间距周期为 4700 l/mm,均匀度为皮米,基于上述光栅的干涉信号周期小至 106.4 nm,这给信号的精确处理带来了新的问题和挑战。本文研究了超高精度光栅干涉信号的误差特性,建立了高刻线密度光栅干涉信号的海德曼校正数学模型,基于随机样本共识(RANSAC)对光栅干涉信号进行校正,并通过仿真验证了算法的有效性。通过比较原始算法和经 RANSAC 处理的自跟踪光栅干涉位移测量数据的重复性和线性,得出 RANSAC 后的自跟踪光栅干涉仪重复测量的标准偏差为 1.60 nm的行程,达到了用本文算法提高信号解的稳定性和均匀性的目的,这对激光干涉仪和光栅干涉仪的研究具有重要意义 结果表明,用本文算法可以提高信号解的稳定性和均匀性,这对激光干涉仪和光栅干涉仪位移解的研究具有重要意义。
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来源期刊
Measurement Science and Technology
Measurement Science and Technology 工程技术-工程:综合
CiteScore
4.30
自引率
16.70%
发文量
656
审稿时长
4.9 months
期刊介绍: Measurement Science and Technology publishes articles on new measurement techniques and associated instrumentation. Papers that describe experiments must represent an advance in measurement science or measurement technique rather than the application of established experimental technique. Bearing in mind the multidisciplinary nature of the journal, authors must provide an introduction to their work that makes clear the novelty, significance, broader relevance of their work in a measurement context and relevance to the readership of Measurement Science and Technology. All submitted articles should contain consideration of the uncertainty, precision and/or accuracy of the measurements presented. Subject coverage includes the theory, practice and application of measurement in physics, chemistry, engineering and the environmental and life sciences from inception to commercial exploitation. Publications in the journal should emphasize the novelty of reported methods, characterize them and demonstrate their performance using examples or applications.
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