摘要
为了在衍射光学元件设计中提高再现像光强分布均匀性,改善成像质量,利用光场传播过程中一定存在泄漏的现象,为目标图像增加了混合型振幅自由度,优化了设计算法,并设计了傅里叶变换型衍射光学元件,验证了方法的有效性.结果表明,增加振幅自由度后设计的元件的再现像光强不均匀性从14%左右降到了1%以下,均方误差从10%左右降到了0.1%以下.该方法对Gerchberg & Saxton(GS)算法和模拟退火算法均适用.
In order to improve the uniformity of intensity distribution of the reconstructed images and improve the imaging quality in the design of the diffractive optical elements, the design algorithm is optimized by adding a mixed amplitude degree of freedom to the target image due to the fact that there must be leakage in the light field propagation process, and the effectiveness of the method was verified by designing a Fourier transform type diffractive optical element. The simulation results show that, compared without amplitude degree of freedom, the reconstructed image' s intensity uniformity of the elements designed by this method is reduced from about 14% to less than 1%, and the mean square error is reduced from about 10% to less than 0. 1%, and the method is applicable to both Gerchberg & Saxton ( GS) algorithm and simulated annealing algorithm.
作者
孟妮妮
钱晓凡
刘滨
李昕颖
张亚萍
MENG Nini;QIAN Xiaofan;LIU Bin;LI Xinying;ZHANG Yaping(Laser Institute,Faculty of Science,Kunming University of Science and Technology,Kunming 650500,China)
出处
《激光技术》
CAS
CSCD
北大核心
2019年第6期855-862,共8页
Laser Technology
关键词
衍射
衍射光学元件
振幅自由度
均匀性
diffraction
diffractive optical element
amplitude degree of freedom
uniformity
