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Instrumentation, Measurement and Metrology
摘要
To measure the global atmospheric three-dimensional distribution and change of temperature and humidity is one of the key areas in atmospheric remote sensing detection; it is also a new research and development direction in the field of meteorological satellite application. As a main element of China second generation of geostationary meteorological satellite Fengyun 4 (FY-4), which was launched on Dec. 11, 2016, the Geostationary Interferometric Infrared Sounder (GIIRS) is the first interferometric infrared sounder working on geostationary orbit internationally. It is used for vertical atmospheric sounding and gains atmospheric temperature, humidity, and disturbances. The combination of Fourier transform spectrometer technology and infrared detectors makes GIIRS have high spectral resolution and large coverage over spatial areas. With this kind of instrument, meteorological satellites can improve the capabilities for severe weather event monitoring and numerical weather prediction. Here a concise review of the GIIRS development project, including its history, missions and functions, technical design, key technologies, system integration, calibration and in-orbit operation status, etc., is presented.
Chinese Optics Letters
2018, 16(11): 111203
Fiber optics and optical communications
摘要
Chinese Optics Letters
2014, 12(s1): 010603
Instrumentation, measurement, and metrology
Qinghua Yang  
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摘要
Chinese Optics Letters
2014, 12(3): 031201
Vision, color, and visual optics
摘要
Chinese Optics Letters
2014, 12(2): 023302
Instrumentation, measurement, and metrology
Limin Xu  Wenhui Fan  Jia Liu  
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摘要
Chinese Optics Letters
2013, 11(8): 081201
Instrumentation, measurement, and metrology
摘要
Chinese Optics Letters
2013, 11(6): 061202
Instrumentation, measurement, and metrology
摘要
Chinese Optics Letters
2013, 11(2): 021202
Instrumentation, measurement, and metrology
摘要
Chinese Optics Letters
2012, 10(8): 081201
摘要
Chinese Optics Letters
2007, 5(s1): 105
           [ ... ]      
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摘要
本文基于色偏振干涉原理,提出了一种测量石英波片厚度的光谱测量方法。由某一波片的偏振分辨透射率光谱曲线(PRTS)可以确定出该波片在光谱范围从200-2000nm之间任意波长处的延迟量。通过对长波段区间的PRTS曲线上的极值波长的精确判断,可以计算出该石英波片的厚度。文中给出了测量实例及详细的误差分析,发现厚度的测量精度主要由光谱仪的分辨率决定。
Chinese Optics Letters
2006, 4(12): 705
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