静态光谱偏振成像技术研究
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摘要
本论文研究了静态光谱偏振成像技术,首次提出一种静态光谱偏振成像仪设计方案,并对其关键技术进行了研究。主要内容包括:
对光谱偏振成像技术的发展现状进行了归纳总结,回顾了典型光谱偏振成像仪的设计方案,介绍了光谱偏振成像仪的主要应用。
研究了可实现斯托克斯光谱快照测量的光谱调制技术,分析了基于傅里叶变换方法的斯托克斯光谱解调原理及实现方法。分析了多级相位延迟器延迟量函数的参考光束测量和实时测量方法。搭建实验装置,对光谱调制斯托克斯光谱测量技术的调制和解调进行了验证。
研究了将光谱调制和傅里叶变换光谱技术相结合的斯托克斯光谱测量技术,推导了采用傅里叶变换光谱仪采集的调制光谱干涉图的解析表达式,分析了斯托克斯光谱复原算法,进行了光谱调制与解调过程数值仿真。根据傅里叶变换光谱技术的特点,提出了基于小双边干涉图数据采集的优化设计方案,给出了光谱调制模块参数设计方法。
研究了光栅光谱成像仪和萨尼亚克型空间调制傅里叶变换光谱成像仪的光谱调制传递函数,并从光谱调制传递函数的角度分析了光谱调制斯托克斯光谱测量的特点,得出萨尼亚克型空间调制傅里叶变换光谱成像仪更适合与光谱调制模块结合进行斯托克斯光谱测量的结论。提出了基于光谱调制模块的色散型光谱成像仪光谱调制传递函数测量方法。
提出了基于光谱调制模块和萨尼亚克型空间调制傅里叶变换光谱成像仪的静态光谱偏振成像仪设计方案。完成了关键参数设计和光机系统设计,并对系统进行了成像仿真,验证了方案的可行性。
In this thesis, the static spectropolarimetric imaging technique is studied, a designscheme of static spectropolarimetric imager is first proposed, and the key technqiesare studied. The main contents of the thesis including:
The state-of-the-art of the spectropolarimetric imaging technique is summarized,the design schemes of the typical spectropolarimetric imagers (SPI) are reviewed, andthe main applications of the SPI are introduced.
The the spectral modulation Stokes spectral measurement technique which hasthe snapshot character is studied deeply. The method of Fourier transform basedStokes spectral demodulation is analyzed. And the method of real time measurementand reference light measurement of the retardances of the high-order retarders arestudied. A testing apparatus is constructed, and the Stokes spectral modulation anddemodulation technique is verificated expermentally.
The Stokes spectral measurement technique which combined the spectralmodulation and Fourier transform spectroscopy technique is studied, the analyticexpressions of the modulated spectrum’s interferogram are derived, and the Stokesspectrum recovery methods are analyzed, a numerical simulation of the spectralmodulation and demodulation is made. An optimal design based on the single sideinterferogram sampling and the parameters designing method of the spectralmodulation module is proposed.
The spectral modulatioin transform function (SMTF) of the grating dispersivespectral imager and Sagnac based spatial modulation Fourier transform spectralimager is studied. The characters of the spectral modulation Stokes spectralmeasurement is analysized from the SMTF viewpoint, and the result shows thatFourier transform spectral imager is better for Stokes spectral measurement. A SMTFmeasurement method for dispersive spectral imager is proposed.
A design scheme of static spectropolarimetric imager based on spectralmodulation module and Sagnac spatial modulation Fourier transform spectral imageris proposed, the key parameters,optical system and mechanical structure design ispresented, and the system imaging simulation is accomplished. The simulation resultsindicate that the design scheme is feasible.
对光谱偏振成像技术的发展现状进行了归纳总结,回顾了典型光谱偏振成像仪的设计方案,介绍了光谱偏振成像仪的主要应用。
研究了可实现斯托克斯光谱快照测量的光谱调制技术,分析了基于傅里叶变换方法的斯托克斯光谱解调原理及实现方法。分析了多级相位延迟器延迟量函数的参考光束测量和实时测量方法。搭建实验装置,对光谱调制斯托克斯光谱测量技术的调制和解调进行了验证。
研究了将光谱调制和傅里叶变换光谱技术相结合的斯托克斯光谱测量技术,推导了采用傅里叶变换光谱仪采集的调制光谱干涉图的解析表达式,分析了斯托克斯光谱复原算法,进行了光谱调制与解调过程数值仿真。根据傅里叶变换光谱技术的特点,提出了基于小双边干涉图数据采集的优化设计方案,给出了光谱调制模块参数设计方法。
研究了光栅光谱成像仪和萨尼亚克型空间调制傅里叶变换光谱成像仪的光谱调制传递函数,并从光谱调制传递函数的角度分析了光谱调制斯托克斯光谱测量的特点,得出萨尼亚克型空间调制傅里叶变换光谱成像仪更适合与光谱调制模块结合进行斯托克斯光谱测量的结论。提出了基于光谱调制模块的色散型光谱成像仪光谱调制传递函数测量方法。
提出了基于光谱调制模块和萨尼亚克型空间调制傅里叶变换光谱成像仪的静态光谱偏振成像仪设计方案。完成了关键参数设计和光机系统设计,并对系统进行了成像仿真,验证了方案的可行性。
In this thesis, the static spectropolarimetric imaging technique is studied, a designscheme of static spectropolarimetric imager is first proposed, and the key technqiesare studied. The main contents of the thesis including:
The state-of-the-art of the spectropolarimetric imaging technique is summarized,the design schemes of the typical spectropolarimetric imagers (SPI) are reviewed, andthe main applications of the SPI are introduced.
The the spectral modulation Stokes spectral measurement technique which hasthe snapshot character is studied deeply. The method of Fourier transform basedStokes spectral demodulation is analyzed. And the method of real time measurementand reference light measurement of the retardances of the high-order retarders arestudied. A testing apparatus is constructed, and the Stokes spectral modulation anddemodulation technique is verificated expermentally.
The Stokes spectral measurement technique which combined the spectralmodulation and Fourier transform spectroscopy technique is studied, the analyticexpressions of the modulated spectrum’s interferogram are derived, and the Stokesspectrum recovery methods are analyzed, a numerical simulation of the spectralmodulation and demodulation is made. An optimal design based on the single sideinterferogram sampling and the parameters designing method of the spectralmodulation module is proposed.
The spectral modulatioin transform function (SMTF) of the grating dispersivespectral imager and Sagnac based spatial modulation Fourier transform spectralimager is studied. The characters of the spectral modulation Stokes spectralmeasurement is analysized from the SMTF viewpoint, and the result shows thatFourier transform spectral imager is better for Stokes spectral measurement. A SMTFmeasurement method for dispersive spectral imager is proposed.
A design scheme of static spectropolarimetric imager based on spectralmodulation module and Sagnac spatial modulation Fourier transform spectral imageris proposed, the key parameters,optical system and mechanical structure design ispresented, and the system imaging simulation is accomplished. The simulation resultsindicate that the design scheme is feasible.
引文
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[1] Stephen H Jones, Frank J Iannarilli, Paul L Kebabian. Realization ofquantitative-grade fieldable snapshot imaging spectropolarimeter [J]. OpticsExpress,2004,12(26):6559~6573.
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[1] Michael W Kudenov, Nathan A Hagen, Haitao Luo, et al. Polarizationacquisition using a commercial Fourier transform spectrometer in the MWIR [J].Proc of SPIE,2006,6295:62950A.
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