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机构地区:[1]哈尔滨工业大学深圳研究生院电子与信息工程学科部激光信息技术研究中心,广东深圳518055
出 处:《光谱学与光谱分析》2007年第8期1653-1656,共4页Spectroscopy and Spectral Analysis
基 金:总装备部项目(51417080104HT0140)资助
摘 要:微小型光谱仪的设计制作可以采用多种方法,其结构特点和光谱分辨率也各不相同,目前实用高光谱分辨率微小型光谱仪采用的是光栅色散型光学系统。简要回顾了微小型光谱仪的发展过程,分析了典型的光栅色散型微小型光谱仪采用的光学系统,如基于罗兰圆的光学系统,基于Czerny-Turner的光学系统的特点,总结了提高微小型光栅光谱仪光谱分辨率采用的方法和技术,特别是解决光谱仪的微小型化和光谱分辨率之间的矛盾以及测量光谱范围和光谱分辨率之间的矛盾的方法,从而为新型微小型光谱仪的研制提供经验和借鉴。Many ways have been practiced in designing and fabricating micro spectrometer, each has its own characteristics distinguished by different spectral resolution and other performances. Micro spectrometers applied presently with high spectral resolution usually adopt optical systems with dispersive components being diffractive gratings. The development of micro spectrometer is reviewed briefly, and typical optical systems are analyzed and discussed, such as optical system based on Roland circle and that based on Czerny-Turner structure. The techniques and methods as well as the experiences of improving micro spectrometer's spectral resolution are summarized, especially the tradeoff between miniaturization and spectral resolution, and the balance between spectral range and spectral resolution are considered. This summary gives a outline of the optical systems' characteristic of dispersive micro-spectrometer, and it can be a reference for new micro spectrometer's designing.
关 键 词:微小型光谱仪 光谱分辨率 罗兰圆 Czerny-Turner光学系统
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