红外与毫米波学报, 2019, 38 (5): 621, 网络出版: 2019-11-19   

热红外光谱仪系统的内部杂散辐射定标与测量技术

Calibration and measurement of internal stray radiation in thermal infrared spectrometer system
彭俊 1,2何琦 1,2张营 1王佰海 3孙德新 1,2,3刘银年 1,2,3,*
作者单位
1 中国科学院上海技术物理研究所中国科学院红外探测与成像技术重点实验室,上海 200083
2 中国科学院大学,北京 100049
3 中国科学院上海技术物理研究所启东光电遥感中心,江苏启东 226200
摘要
提出了一种热红外光谱仪系统内部杂散辐射的测量方法,该方法基于探测器和热红外光谱仪系统的辐射定标.通过分别单独标定探测器对黑体辐射能量的全谱段输出响应曲线和光谱仪系统对黑体辐射能量分光后单一光谱通道的输出响应曲线,从而定量得出光谱仪的内部杂散辐射灰度值及辐射通量值且能计算出不同积分时间和光机温度时内部杂散辐射的灰度值及辐射通量.采用该方法对现有光谱仪内部杂散辐射进行了实验测量,并进行了对比实验,结果表明,对比实验值与理论预测值误差偏离小于 1%.该方法可操作性高,可用于测量热红外光谱仪内部杂散辐射在总输出 DN值中的占比、预测光谱仪制冷对内部杂散辐射的影响、测量其他内部杂散辐射抑制手段的效果等.
Abstract
Amethod for measuring internal stray radiation in thermal infrared spectrometer system was proposed in this paper,which is based on radiometric calibration of a detector and a thermal infrared spectrometer. The output response curves of detector and the spectrometer system to blackbody radia-tion energy of asingle spectral channelare calibrated separately. Therefore,the internalstray radiation grayvalueandradiation fluxvalueofthespectrometer can be obtained andthegrayvalueand radiation flux of the internal stray radiation at different integration times and temperatures in the system can also be calculated. The proposed method was used to measure the internal stray radiation of an existing spectrometer,and comparative experiments were carried out. Results show that the error between the experimental results and the theoretical predicted values is less than 1%. The proposed method has high maneuverability and can be used to measure the proportion of internal stray radiation in total out-put DN value of the system,predict the influence of refrigeration on internal stray radiation of spec-trometer, and measure the inhibition effect of other internal stray radiation suppression methods.

彭俊, 何琦, 张营, 王佰海, 孙德新, 刘银年. 热红外光谱仪系统的内部杂散辐射定标与测量技术[J]. 红外与毫米波学报, 2019, 38(5): 621. PENG Jun, HE Qi, ZHANG Ying, WANG Bai-Hai, SUN De-Xin, LIU Yin-Nian. Calibration and measurement of internal stray radiation in thermal infrared spectrometer system[J]. Journal of Infrared and Millimeter Waves, 2019, 38(5): 621.

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