基于阵列矩形光纤的二维空间匀化器设计  被引量：1

作　　者：庄聆琳 杨子江 潘俏[1,2] 邹快盛 沈为民 Zhuang Linglin;Yang Zijiang;Pan Qiao;Zou Kuaisheng;Shen Weimin(School of Optoelectronic Science and Engineering,Soochow University,Suzhou 215006,Jiangsu,China;Key Lab of Modern Optical Technologies of Education Ministry,Key Lab of Advanced Optical Manufacturing Technologies of Jiangsu Province,Soochow University,Suzhou 215006,Jiangsu,China)

机构地区：[1]苏州大学光电科学与工程学院,江苏苏州215006 [2]苏州大学江苏省先进光学制造技术重点实验室,教育部现代光学技术重点实验室,江苏苏州215006

出　　处：《光学学报》2024年第12期263-270,共8页Acta Optica Sinica

基　　金：国家自然科学基金青年科学基金(62205229)。

摘　　要：受地表不同区域反照率的差异和大气辐射的非均匀性影响,星载成像光谱仪中的物理狭缝被非均匀照明,导致仪器光谱响应函数线性失真,表现为在获取的光谱信号中叠加随机误差,影响成像光谱仪对光谱的反演精度。为了提高大气温室气体浓度探测的时间分辨率和精度,单台温室气体成像光谱仪具有非常宽的空间视场和极高的光谱分辨率,光谱仪受辐射非均匀性的影响相对于普通成像光谱仪更明显。本文设计了针对温室气体监测成像光谱仪的二维空间匀化器,它可以在跨轨和沿轨两维对场景辐射实现匀化。二维空间匀化器由矩形光纤阵列组成,沿轨单根光纤的宽度由积分时间确定,跨轨单根光纤的尺寸表示仪器的空间采样宽度。本文研究了组成二维空间匀化器的矩形光纤的稳定性,对比了不同光纤长度、不同照明场景以及不同粗糙度等条件下光纤出射光斑的均匀度,结果表明:随着光纤长度的增加,尽管能量损耗相应增加,但是出射光斑均匀度也随之增加;非均匀照明场景下光纤出射光斑均匀度与均匀照明场景下光纤出射光斑均匀度基本一致,表明矩形光纤具有良好的匀化性能,也说明二维空间匀化器能有效地降低光谱仪对地球场景不均匀辐射的敏感性。此外,本文还研究了矩形光纤的焦比退化特性,结果表明,在输入F数为4的情况下,出射端采用F/3.5的光学系统接收时,光学效率能达到95%以上。Objective Affected by the difference of albedo in different regions of the surface and non-uniformity of atmospheric radiation,the physical slits in the satellite-borne imaging spectrometer are illuminated non-uniformly to result in linear distortion of the spectral response function of the instrument.This is manifested as the superposition of random errors in the acquired spectral signals,affecting the inversion accuracy of the imaging spectrometer.Meanwhile,a single greenhouse gas imaging spectrometer with a very wide spatial field of view and extremely high spectral resolution emerges to improve the temporal resolution and accuracy of atmospheric greenhouse gas concentration detection,with the influence of radiation non-uniformity being more obvious than that of ordinary imaging spectrometers.We design a two-dimensional spatial homogenizer for greenhouse gas monitoring imaging spectrometers to homogenize scene radiation in two dimensions of across-track and along-track.The two-dimensional spatial homogenizer consists of a rectangular fiber array,the width of a single fiber along the track is determined by the integration time,and the size of a single fiber across the track indicates the spatial sampling width of the instrument.The unique advantages of the two-dimensional spatial homogenizer can ensure not only the stability of the spectral response function of the spectrometer in the inhomogeneous scene of sharp contrast but also the spatial coregistration between different spectral channels.Methods To ensure the stability of the spectral response function of the spectrometer in non-uniform scenarios,we should consider the homogenization performance of the rectangular fiber in the design stage.Additionally,due to the influence of the internal microstructure and macroscopic bending of the optical fiber,the optical fiber inevitably has a focal ratio degradation effect,which will influence the quality of the outgoing beam and the design of the subsequent optical system.Therefore,we study the stability of the rect

关 键 词：成像光谱仪 二维空间匀化器 矩形光纤 匀化性 焦比退化 

分 类 号：O436[机械工程—光学工程]