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Oxygen A-band is an ideal inversion channel. Absorption coefficient is one of the important parameters, its precision determines the accuracy of inversion result. The influence factor for the absorption of oxygen A-band is analyzed using HITRAN2012 database and temperature profiles of atmosphere. The temperature dependence is deduced for each influence factor, and then for the absorption coefficient. It is found that the influence of temperature on the coefficient is poor for HWHM (half width at half maximum) of the spectral line, but the HWHM of the line is greatly influenced by the temperature. The linetype function has two changes during the variation of temperature: The function value decreases with increasing temperature beyond the HWHM; it, however, slowly increases from the center frequency to HWHM of the line. The line intensity is strongly dependent on the temperature. Using the line by line integral algorithm, the absorption of oxygen A-band is calculated. The temperature dependences are considered to come from the pressure broadening effect, spectral line intensity, and HWHM. A conclusion is given that the temperature dependence of absorption of oxygen A-band comes from line intensity, and especially the center frequency. While, the temperature dependence of the linetype function with Lorentzian is not obvious. Finally, the absorption of oxygen A-band is measured at 63m using BRUKER spectrometer with 1 cm-1. The error is less than 0.83% as compared with that in theoretical model under the same condition. The correctness of the temperature calibration model is thus verified.
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Keywords:
- oxygen A-band /
- absorption coefficient /
- temperature dependence /
- line intensity
[1] Bréon F M, Bouffiés S 1996 Journal of Applied Meteorology 35 69
[2] Moroney C, Davies R, Muller J P 2002 Geoscience and Remote Sensing 40 1532
[3] Huitson C M, Sing D K, Vidal-Madjar A, Ballester G E, Lecavelier desEtangs A, Désert J M, Pont F 2012 Monthly Notices of the Royal Astronomical Society 422 2477
[4] Zhang Y, Duan M Z, Lv D R 2012 Remote Sensing Technology and Application 27 208 (in Chinese) [张岩, 段民征, 吕达仁 2012 遥感技术与应用 27 208]
[5] Kacenelenbogen M, Vaughan M A, Redemann J, Hoff R M, Rogers R R, Ferrare R A, Holben B N 2010 Atmospheric Chemistry and Physics Discussions 10 27967
[6] Vincent R A 2011 M. S. Dissertation (Air Force Inst. of Tech. Wright-Patterson AFB OH Graduate School of Engineering and Management)
[7] Wang Y, Li A, Xie P H 2013 Acta Phys. Sin. 62 180705 (in Chinese) [王杨, 李昂, 谢品华 2013 62 180705]
[8] Che L, Ding Y J, Peng Z M 2012 Chin. Phys. Lett. 29 067801
[9] Che L, Ding Y J, Peng Z M 2012 Chin. Phys. B 21 127803
[10] Hawks M R, Vincent R A, Martin J, Perram G P 2013 Applied Spectroscopy 67 513
[11] Rothman L S, Gordon I E, Babikov Y, Barbe A, Chris Benner D, Bernath P F, Wagner G 2013 Journal of Quantitative Spectroscopy and Radiative Transfer 130 4
[12] Ru J f, Xun Y L 1996 Chinese Journal Of Quantum Electronics 13 378 (in Chinese) [汝剑飞, 荀毓龙 1996 量子电子学 13 378]
[13] Wark D Q, Mercer D M 1965 Applied Optics 4 839
[14] Gao Z D, Guo G L 2004 Introduction to statistic thermodynamics (Beijing:Peking University Press) p134 (in Chinese) [高执棣, 郭国霖 2004 统计热力学导论 (北京: 北京大学出版社) 第134页]
[15] Zou M M, Fang Y H, Xiong W, Shi H L 2009 Acta Optica Sinica 29 1701 (in Chinese) [邹铭敏, 方勇华, 熊伟, 施海亮 2009 光学学报 29 1701]
[16] Cheng S Y, Xu L, Gao M G, Jin L, Li S, Feng S X, Liu J G, Liu W Q 2013 Acta Phys. Sin. 62 124206 (in Chinese) [程巳阳, 徐亮, 高闽光, 金岭, 李胜, 冯书香, 刘建国, 刘文清 2013 62 124206]
[17] Li J H, Wang Z B, Chen Y Y, Zong P F, Zhang P F 2013 Laser & Infrared 43 1142 (in Chinese) [李晋华, 王志斌, 陈媛媛, 宗鹏飞, 张鹏飞 2013 激光与红外 43 1142]
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[1] Bréon F M, Bouffiés S 1996 Journal of Applied Meteorology 35 69
[2] Moroney C, Davies R, Muller J P 2002 Geoscience and Remote Sensing 40 1532
[3] Huitson C M, Sing D K, Vidal-Madjar A, Ballester G E, Lecavelier desEtangs A, Désert J M, Pont F 2012 Monthly Notices of the Royal Astronomical Society 422 2477
[4] Zhang Y, Duan M Z, Lv D R 2012 Remote Sensing Technology and Application 27 208 (in Chinese) [张岩, 段民征, 吕达仁 2012 遥感技术与应用 27 208]
[5] Kacenelenbogen M, Vaughan M A, Redemann J, Hoff R M, Rogers R R, Ferrare R A, Holben B N 2010 Atmospheric Chemistry and Physics Discussions 10 27967
[6] Vincent R A 2011 M. S. Dissertation (Air Force Inst. of Tech. Wright-Patterson AFB OH Graduate School of Engineering and Management)
[7] Wang Y, Li A, Xie P H 2013 Acta Phys. Sin. 62 180705 (in Chinese) [王杨, 李昂, 谢品华 2013 62 180705]
[8] Che L, Ding Y J, Peng Z M 2012 Chin. Phys. Lett. 29 067801
[9] Che L, Ding Y J, Peng Z M 2012 Chin. Phys. B 21 127803
[10] Hawks M R, Vincent R A, Martin J, Perram G P 2013 Applied Spectroscopy 67 513
[11] Rothman L S, Gordon I E, Babikov Y, Barbe A, Chris Benner D, Bernath P F, Wagner G 2013 Journal of Quantitative Spectroscopy and Radiative Transfer 130 4
[12] Ru J f, Xun Y L 1996 Chinese Journal Of Quantum Electronics 13 378 (in Chinese) [汝剑飞, 荀毓龙 1996 量子电子学 13 378]
[13] Wark D Q, Mercer D M 1965 Applied Optics 4 839
[14] Gao Z D, Guo G L 2004 Introduction to statistic thermodynamics (Beijing:Peking University Press) p134 (in Chinese) [高执棣, 郭国霖 2004 统计热力学导论 (北京: 北京大学出版社) 第134页]
[15] Zou M M, Fang Y H, Xiong W, Shi H L 2009 Acta Optica Sinica 29 1701 (in Chinese) [邹铭敏, 方勇华, 熊伟, 施海亮 2009 光学学报 29 1701]
[16] Cheng S Y, Xu L, Gao M G, Jin L, Li S, Feng S X, Liu J G, Liu W Q 2013 Acta Phys. Sin. 62 124206 (in Chinese) [程巳阳, 徐亮, 高闽光, 金岭, 李胜, 冯书香, 刘建国, 刘文清 2013 62 124206]
[17] Li J H, Wang Z B, Chen Y Y, Zong P F, Zhang P F 2013 Laser & Infrared 43 1142 (in Chinese) [李晋华, 王志斌, 陈媛媛, 宗鹏飞, 张鹏飞 2013 激光与红外 43 1142]
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