Piecewise Linear Weighted Iterative Algorithm for Beam Alignment in Scanning Beam Interference Lithography

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摘要 To obtain a good interference fringe contrast and high fidelity,an automated beam iterative alignment is achieved in scanning beam interference lithography(SBIL).To solve the problem of alignment failure caused by a large beam angle(or position)overshoot exceeding the detector range while also speeding up the convergence,a weighted iterative algorithm using a weight parameter that is changed linearly piecewise is proposed.The changes in the beam angle and position deviation during the alignment process based on different iterative algorithms are compared by experiment and simulation.The results show that the proposed iterative algorithm can be used to suppress the beam angle(or position)overshoot,avoiding alignment failure caused by over-ranging.In addition,the convergence speed can be effectively increased.The algorithm proposed can optimize the beam alignment process in SBIL.

作者 Ying SONG Bayanheshig Shuo LI Shan JIANG Wei WANG

机构地区 National Engineering Research Centre for Diffraction Gratings Manufacturing and Application

出处《Photonic Sensors》 SCIE EI CSCD 2019年第4期344-355,共12页 光子传感器（英文版）

基金 The research was supported by the National Natural Science Foundation of China(NSFC)(Grant No.61227901) Jilin Province Science&Technology Development Program Project in China(Grant No.20190103157JH).

关键词 Piecewise linear weighted iterative algorithm beam alignment scanning beam interference lithography(SBIL) overshoot suppression convergence speed

分类号 O17 [理学—基础数学]

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Piecewise Linear Weighted Iterative Algorithm for Beam Alignment in Scanning Beam Interference Lithography

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