均匀大气中氧气 A带平均透过率快速计算模型

利用逐线积分方法，建立了一种均匀大气中氧气 A吸收带平均透过率快速计算模型。模型采用等波数间隔取样，能根据大气温度和压强自动选择谱线线形，并利用直和模型进行快速近似计算 Voigt线形函数。在不同大气模式下设置不同传输路径，利用该模型计算氧气 A带平均透过率与路径长度关系曲线，并将计算结果与 Modtran软件计算结果进行对比。从对比结果可知，不同路径下模型计算的平均氧气透过率最大相对误差均小于 2%，计算时间均小于 1s，具有较高的准确度和计算实时性。计算结果表明该模型能够在均匀大气中对氧气 A带平均透过率进行快速准确计算。

Abstract

A fast calculation model for the average transmission of the oxygen A absorption band in a homogeneous atmosphere is established using the line-by-line integration method. In this model, the sampling interval is set constant, the spectral line profile can be selected automatically according to the pressure and the temperature, and an analytical sum formula is used to approximate the Voigt profile, which improves the efficiency of the calculation significantly. To test the accuracy and adaptability of this proposed model, several different transmission paths are set in three different atmospheric modes, and the proposed model is used to calculate the relationship between the average transmission of the oxygen A absorption band and the path length. The results are compared with the calculations of modtran, which showed that the maximum relative error of the average transmission is less than 2%, and the calculation time is less than 1 s. These calculation results showed that this proposed model can quickly and accurately calculate the average transmission of the oxygen A absorption band in a homogeneous atmosphere.

参考文献

[1] YU Hao, LIU Bingqi, YAN Zongqun, et al. Passive ranging using a filter-based non-imaging method based on oxygen absorption[J]. Applied Optics, 2017, 56(28): 7803-7807.

[2] 闫宗群, 谢志宏, 陈剑, 等. 单目多光谱氧气吸收被动测距系统光谱通道参数分析[J].光学学报, 2017, 37(10): 1001002.

YAN Zongqun, XIE Zhihong, CHEN Jian, et al. Parametric Analysis of Spectral Channels in Monocular Multispectral Passive Ranging System Based on Oxygen Absorption[J]. Acta Optica Sinica, 2017, 37(10): 1001002.

[3] 魏合理, 戴聪明, 武鹏飞, 等. 用于被动测距的氧气 A带大气吸收仿真计算[J].安徽师范大学学报: 自然科学版, 2015, 38(5): 409-413.

WEI Heli, DAI Congming, WU Pongfei, et al. The calculation of the atmospheric absorption of oxygenA band for passive ranging[J]. Journal of Anhui Normal University: Natural Science, 2015, 38(5): 409-413.

[4] 余皓, 刘秉琦, 张瑜, 等. 氧气 A吸收带平均透过率的多光谱非成像测量[J].光学学报, 2017, 37(4): 0401003.

YU H, LIU B Q, ZHANG Y, et al. Multi-Spectral non-imaging measurement for average transmission of oxygen A absorption band[J]. Acta Optica Sinica, 2017, 37(4): 0401003.

[5] 张瑜, 刘秉琦, 闫宗群, 等. 背景辐射对被动测距精度影响分析及实验研究[J].物理学报, 2015, 64(3): 034216.

ZHANG Yu, LIU Bingqi, YAN Zongqun, et al. Influence of background radiation on the precision of passive ranging[J]. Acta Phys. Sin, 2015, 64(3): 034216.

[6] 李晋华, 王召巴, 王志斌, 等. 氧分子 A吸收带的随机 Malkmus被动测距[J]. 光学精密工程, 2017, 25(1): 28-33.

LI JinHua, WANG Zhaoba, WANG Zhibin, et al. Passive ranging using oxygen A-band and random Malkmus model[J]. Optics and Precision Engineering, 2017, 25(1): 28-33..

[7] 付小宁, 单兰鑫, 王蕊. 一个新的氧气吸收法被动测距公式 [J].光学学报, 2015, 35(12): 1201001.

FU Xiaoning, SHAN Lanxin, WANG Rui. A new ranging formula for oxygen absorption based passive ranging[J]. Acta Optica Sinica, 2015, 35(12): 1201001.

[8] 梅飞, 江勇, 陈世国, 等. 一种气体吸收的逐线计算模型及其实验验证[J].光学学报, 2012, 32(3): 0330002.

MEI Fei, JIANG Yong, CHEN Shiguo, et al. Experimental verification for line by line prediction model of gas absorption[J]. Acta Optica Sinica, 2012, 32(3): 0330002.

[9] WEI Heli, CHEN Xiuhong, RAO Ruizhong, et al. A moderate-spectral-resolution transmittance model based on fitting the line-by-line calculation[J]. Opt. Express, 2007, 15(13): 8360-8370.

[10] Safren H G. Computer code to calculate line by line atmospheric transmission spectra on a microcompute[R]. NASA-TM-100686, 1987.

[11] 陈芳芳, 耿蕊, 吕勇. 激光红外大气传输透过率模型研究 [J].红外技术, 2015, 37(6): 496-501.

CHEN Fangfang, GENG Rui, LV Yong. Research on the transmittance model of laser Infrared atmospheric transmission[J]. Infrared Technology, 2015, 37(6): 496-501.

[12] 方静, 刘文清, 张天舒. 逐线积分气体吸收模型及其在 NDIR气体检测中的应用[J].光谱学与光谱分析, 2008, 28(6): 1269-1271.

FANG Jing, LIU Wenqing, ZHANG Tianshu. A Line-by-Line trace gas absorption model and its application in NDIR gas detection technology[J]. Spectroscopy and Spectral Analysis, 2008, 28(6): 1269-1271.

[13] Gamache R R, Kennedy S, Hawkins R, et al. Total internal partition sums for molecules in the terrestrial atmosphere[J]. J. Molecular Structure, 2000, 517-518(16): 407-425.

[14] Hui A K, Armstrong B H, Wray A A. Rapid computation of the Voigt and complex error functions[J]. J. Quantit. Spectrosc. and Radiative Transfer, 1978, 19(5): 509-516.

[15] 林洁丽. 高分辨率（饱和）分子光谱谱线线型、线宽及其应用的研究 [D].武汉: 中国科学院武汉物理与数学研究所, 2000.

LIN Jieli. Research on spectral line profile and line width of high-resolution (saturation) molecular spectra and its application[D]. Wuhan: Institute of Physics and Mathematics the Chinese Academy of Science, 2000.

[16] Olivero J J, Longbothum R L. Empirical Fits to the Voigt Line Width: A Brief Review[J]. Quantit. Spectrosc. and Radiative Transfer, 1977, 17(2): 233-236.

刘秉琦, 余皓, 闫宗群, 张瑜, 陈一超, 张帅. 均匀大气中氧气 A带平均透过率快速计算模型[J]. 红外技术, 2018, 40(11): 1056. LIU Bingqi, YU Hao, YAN Zongqun, ZHANG Yu, CHEN Yichao, ZHANG Shuai. A Fast Calculation Model for Average Transmission of Oxygen A Absorption Band in Homogeneous Atmosphere[J]. Infrared Technology, 2018, 40(11): 1056.

均匀大气中氧气 A带平均透过率快速计算模型

关于本站 Cookie 的使用提示

全站搜索

均匀大气中氧气 A带平均透过率快速计算模型

相关论文

相关资讯

关于本站 Cookie 的使用提示

全站搜索