Adaptive compensation for the nonlinearity error in a heterodyne interferometer

Kim P.; Kim K.; You K.

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Adaptive compensation for the nonlinearity error in a heterodyne interferometer

机译：外差干涉仪中非线性误差的自适应补偿

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Laser interferometry has been widely used in the field of nano-metrology due to its superior properties, such as its almost unlimited resolution and its flexible set up. In practical measurements with a heterodyne laser interferometer, however, some obstacles, such as environmental and nonlinearity errors, limit its measurement accuracy. In this paper, we compensate for nonlinearity errors by applying the recursive weighted least-squares method and the robust observer based Kalman filter algorithm, consecutively. To demonstrate the performance of the two proposed algorithms, we performed simulations and experiments. The experimental results show the improved accuracy obtained by using the proposed algorithms.

机译：由于其优越的性能，例如几乎无限的分辨率和灵活的设置，激光干涉术已被广泛应用于纳米计量学领域。但是，在使用外差激光干涉仪进行实际测量时，一些障碍（例如环境和非线性误差）会限制其测量精度。在本文中，我们通过连续应用递归加权最小二乘法和基于鲁棒观测器的卡尔曼滤波算法来补偿非线性误差。为了演示这两种算法的性能，我们进行了仿真和实验。实验结果表明，所提算法提高了精度。

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来源
《Journal of the Korean Physical Society》 |2012年第11期|共7页
作者
Kim P.; Kim K.; You K.;
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正文语种 eng
中图分类物理学;
关键词
Heterodyne laser interferometer; Measurement accuracy; Nonlinearity error; Observer based Kalman filter; Recursive weighted least-squares;

机译：外差式激光干涉仪;测量精度;非线性误差;基于观测器的卡尔曼滤波器;递归加权最小二乘;

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专利

1. Adaptive compensation for the nonlinearity error in a heterodyne interferometer [J] . Kim P., Kim K., You K. Journal of the Korean Physical Society . 2012,第11期

机译：外差干涉仪中非线性误差的自适应补偿
2. Polarization compensation: a passive approach to a reducing heterodyne interferometer nonlinearity [J] . Oliver P. Lay, Serge Dubovitsky Optics Letters . 2002,第10期

机译：极化补偿：减少外差干涉仪非线性的被动方法
3. Compensation of nonlinearity in a new optical heterodyne interferometer with doubled measurement resolution [J] . Jihua Guo, Yan Zhang, Shuai Shen Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter . 2000,第1a4期

机译：新型光学外差干涉仪中的非线性补偿，测量分辨率提高了一倍
4. Research on Phase Compensation of Nonlinearity Error in Heterodyne Interferometer [C] . Xiao Ren, Wenmei Hou International Conference on Information Technology and Management Innovation . 2013

机译：外差干涉仪非线性误差相位补偿研究
5. Investigation and compensation of periodic nonlinearities in heterodyne interferometry. [D] . Badami, Vivek Gopal. 1999

机译：外差干涉测量法中周期性非线性的研究和补偿。
6. Nonlinear Errors Resulting from Ghost Reflection and Its Coupling with Optical Mixing in Heterodyne Laser Interferometers [O] . Haijin Fu, Yue Wang, Pengcheng Hu, 2018

机译：外差式激光干涉仪中由幻影反射引起的非线性误差及其与光学混合的耦合
7. A NONLINEARITY ERROR COMPENSATION METHOD IN NANOMETROLOGY SYSTEM BASED ON DEVELOPED THREELONGITUDINAL MODE HETERODYNE INTERFEROMETER [O] . 2018

机译：基于开发的THRONGININTOME外差干涉仪的纳米术系统中的非线性误差补偿方法
8. Demonstration of sub-angstrom cyclic nonlinearity using wavefront-division sampling with a common-path laser heterodyne interferometer [R] . Zhao, F. 2001

机译：利用共路激光外差干涉仪进行波前分割采样的亚埃循环非线性演示

Adaptive compensation for the nonlinearity error in a heterodyne interferometer

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