红外傅里叶光谱仪的仪器线形函数及工程应用

提出了利用定量化的仪器线形函数对面阵傅里叶光谱仪像元进行光谱修正的方法。系统介绍了傅里叶光谱仪的仪器线形函数,结合仪器的自身特征建立了仪器线形函数模型,并利用MATLAB进行了仿真计算。通过理论计算给出了中心像元和边缘像元的激光光谱波峰之间的差值,其同实际值的相对误差均值仅为4.21%,修正后的边缘像元光谱准确度达到10-5量级。得到的结果从理论角度证明了利用仪器线形函数对面阵型傅里叶光谱仪进行光谱修正的有效性。最后从实际工程应用的角度出发,提出了针对面阵傅里叶光谱仪非中心像元光谱修正的方法。实验显示该方法具有很强的普适性,可在保证较高光谱准确度的基础上极大地提高光谱定标的效率,降低光谱定标的工作量。

Instrument line shape of infrared Fourier transform spectrometer and its engineer applications

A spectral correction method was proposed for an infrared space-borne Fourier transform spectrometer by using Instrument Line Shape(ILS). The ILS of the Fourier transform spectrometer was introduced systematically. An ILS model was established based on the instrument characteristics, and the simulation and calculation were carried out by using the MATLAB. The laser spectral peak value difference between the center detector and the edge one was calculated in theory, and the relative error between theoretical calculation value and actual value is just 4.21% and the accuracy of the corrected spectrum by the edge detector reaches 10^-5 magnitude. The results verify the validity of the spectrum correction of the plane array Fourier transform spectrometer by using ILS in the theory. Finally, a method was proposed to correct the non-central pixels' spectrum of the plane array Fourier transform spectrometer for engineer applications. The experiments show that the method has stronger universality and both guarantees high spectrum accuracy and improves the efficiency of spectral calibration. Moreover it reduces the workload of spectral calibration.