近红外混叠吸收线光谱解析及线强测量方法研究
贾巍, 何莹, 张玉钧, 刘建国, 刘文清, 王敏, 张润梅. 近红外混叠吸收线光谱解析及线强测量方法研究[J]. 红外与毫米波学报, 2018, 37(1): 106.
JIA Wei, HE Ying, ZHANG Yu-Jun, LIU Jian-Guo, LIU Wen-Qing, WANG Min, ZHANG Run-Mei. Spectral analysis and line strength measurement method of near-infrared overlapped absorption lines[J]. Journal of Infrared and Millimeter Waves, 2018, 37(1): 106.
[1] Pantani M, Castagnoli F, D'Amato F, et al. Two infrared laser spectrometers for the in situ measurement of stratospheric gas concentration[J]. Infrared physics & technology, 2004,46(1):109-113.
[2] Barrass S, Gérard Y, Holdsworth R J, et al. Near-infrared tunable diode laser spectrometer for the remote sensing of vehicle emissions[J]. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2004,60(14): 3353-3360.
[3] Michopoulos P, Baloutsos G, Economou A, et al. Effects of nitrogen deposition on nitrogen cycling in an Aleppo pine stand in Athens, Greece[J]. Science of the Total Environment, 2004, 323: 211-218.
[4] Fenn M E, Baron J S, Allen E B, et al. Ecological effects of nitrogen deposition in the western United States[J]. BioScience, 2003, 53(4): 404-420.
[5] imecˇková M, Jacquemart D, Rothman L S, et al. Einstein A-coefficients and statistical weights for molecular absorption transitions in the HITRAN database[J]. Journal of Quantitative Spectroscopy and Radiative Transfer, 2006, 98(1):130-155.
[6] Fischer J, Gamache R R, Goldman A, et al. Total internal partition sums for molecular species in the 2000 edition of the HITRAN database[J]. Journal of Quantitative Spectroscopy and Radiative Transfer, 2003, 82(1): 401-412.
[7] Pogány A, Werhahn O, Ebert V. High-Accuracy Ammonia Line Intensity Measurements at 1.5 μm[C]. Laser Applications To Chemical, Security and Environmental Analysis, 2016.
[8] Bozóki Z, rpád Mohácsi, Szabó G, et al. Near-Infrared Diode Laser Based Spectroscopic Detection of Ammonia: A Comparative Study of Photoacoustic and Direct Optical Absorption Methods[J]. Applied Spectroscopy, 2002, 56(6): 715.
[9] Lundsberg-Nielsen L. Hegelund F, Nicolaisen F M. Analysis of the High-Resolution Spectrum of Ammonia (14NH3) in the Near-Infrared Region, 6400~6900 cm-1. Journal of Molecular Spectroscopy, 1993, 162: 230-245.
[10] Webber M E. Diode laser measurements of NH3 and CO2 for combustion and bioreactor applications [D]. Degree of Doctor of Philosophy, 2001, 18-27.
[11] Mihalcea R M, Baer D S, Hanson R K. Diode-Laser Absorption Measurements of CO2 Near 2.0 μm at Elevated Temperatures[J]. Applied Optics, 1998, 37(36): 8341-8347.
[12] Fan Qi-Bin. Wavelet Analysis[M]. Wuhan: Wuhan University Press (樊启斌. 小波分析[M]. 武汉大学出版社), 2008, 301-302.
[13] Li Jing-Song, Yu Ben-Li, Horst Fischer. Wavelet Transform Based on the Optimal Wavelet Pairs for Tunable Diode Laser Absorption Spectroscopy Signal Processing[J]. Applied Spectroscopy, 2015, 69(4):496-506.
[15] McLean A B, Mitchell C E J. Implementation of an efficient analytical approximation to the Voigt function for photoemission lineshape analysis[J]. Journal of Electron Spectroscopy and Related Phenomena, 1994, 69(2): 125-132.
贾巍, 何莹, 张玉钧, 刘建国, 刘文清, 王敏, 张润梅. 近红外混叠吸收线光谱解析及线强测量方法研究[J]. 红外与毫米波学报, 2018, 37(1): 106. JIA Wei, HE Ying, ZHANG Yu-Jun, LIU Jian-Guo, LIU Wen-Qing, WANG Min, ZHANG Run-Mei. Spectral analysis and line strength measurement method of near-infrared overlapped absorption lines[J]. Journal of Infrared and Millimeter Waves, 2018, 37(1): 106.
PDF全文
