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大公差宽容度矩形孔准周期阵列实现对高阶衍射的有效抑制
引用本文:魏来, 陈勇, 王少义, 等. 大公差宽容度矩形孔准周期阵列实现对高阶衍射的有效抑制[J]. 强激光与粒子束, 2020, 32: 072002. doi: 10.11884/HPLPB202032.200117
作者姓名:魏来  陈勇  王少义  范全平  张强强  张众  王占山  曹磊峰
作者单位:1.同济大学 物理科学与工程学院 精密光学工程研究所,先进微结构材料教育部重点实验室,上海 200092;;2.中国工程物理研究院 激光聚变研究中心,等离子体物理重点实验室,四川 绵阳 621900
摘    要:传统光栅的基础研究和应用研究进展一直备受关注。然而,高阶衍射污染使传统光栅获得的光谱纯度受到严重影响。为了抑制高阶衍射贡献,人们提出了许多单级或准单级光栅的设计方案,但它们对高阶衍射的抑制效果不可避免地受到加工精度的限制。提出了一种准周期矩形孔阵列光栅,通过优化矩形孔的概率密度分布函数,获得了比以往设计更大的加工误差宽容度。对这种光栅的衍射特性进行了分析研究。理论计算表明,即使孔径相对误差超过20%,光栅也可以完全抑制二阶、三阶和四阶衍射,五阶衍射效率与一阶衍射效率之比小于0.01%,大大降低了对加工精度的要求。

关 键 词:单级衍射光栅   X射线   光谱仪   加工误差宽容度
收稿时间:2020-05-11
修稿时间:2020-06-23

Suppression of higher diffraction orders using quasiperiodic array of rectangular holes with large size tolerance
Wei Lai, Chen Yong, Wang Shaoyi, et al. Suppression of higher diffraction orders using quasiperiodic array of rectangular holes with large size tolerance[J]. High Power Laser and Particle Beams, 2020, 32: 072002. doi: 10.11884/HPLPB202032.200117
Authors:Wei Lai  Chen Yong  Wang Shaoyi  Fan Quanping  Zhang Qiangqiang  Zhang Zhong  Wang Zhanshan  Cao Leifeng
Affiliation:1. Key Laboratory of Advanced Micro-structured Materials MOE, Institute of Precision Optical Engineering, School of Physics Science and Engineering, Tongji University, Shanghai 200092, China;;2. Research Center of Laser Fusion, CAEP, Mianyang 621900, China
Abstract:Advances in basic and applied research of conventional grating have been attracting much attention from optical engineering community. However, the higher orders diffraction contamination degrades the spectral purity obtained by conventional gratings seriously. Many designs of single-order or quasi-single-order gratings have been proposed to suppress higher-order diffraction contributions, however, their inhibitive effects on the higher order diffractions are restrained by the processing accuracy unavoidably. In this paper, we propose a grating that incorporates a quasi-periodical array of rectangular holes, and achieves larger tolerance of processing errors compared with the previously designed gratings by optimizing the probability density distribution function of the holes. This paper describes an analytical study of the diffraction property of this grating. Theoretical calculations reveal that the grating completely suppresses the 2nd, 3rd, and 4th orders diffractions, and the ratio of the 5th order diffraction efficiency to that of the 1st is as low as 0.01% even if relative errors for hole sizes exceed 20%, which greatly decreases the required processing accuracy.
Keywords:single-order diffraction grating  X-ray  spectrometer  tolerance of processing errors
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