基于光声光谱技术的1.5 μm波段NH3吸收谱线测量与分析
曹新丹, 刘先勇, 蒙瑰, 倪士虎. 基于光声光谱技术的1.5 μm波段NH3吸收谱线测量与分析[J]. 发光学报, 2012, 33(9): 1025.
CAO Xin-dan, LIU Xian-yong, MENG Gui, NI Shi-hu. Detection and Analysis of Ammonia Absorption Line at 1.5 μm Region Based on Photoacoustic Spectroscopy[J]. Chinese Journal of Luminescence, 2012, 33(9): 1025.
[1] Zheng J X, Guan Y C, Ran H L. Application and research progress of ammonia sensor [J]. New Chemical Materials (化工新型材料), 2010, 38(2):6-8,22 (in Chinese).
[2] Justo D, Mashav N, Arbel Y, et al. Increased erythrocyte aggregation in men with coronary artery disease and erectile dysfunction [J]. International Journal of Impotence Research, 2009, 21(3):192-197.
[3] Larsen M H, Hviid T V F. Human leukocyte antigen-G polymorphism in relation to expression, function, and disease [J]. Human Immunology, 2009, 70(12):1026-1034.
[4] Peng Y. Tunable Fiber Laser Based Photoacoustic Spectroscopy Technology for Trace Gas Detection [D]. Dalian: Dalian University of Technology, 2011(in Chinese).
[5] Wang J W, Zhang W, Liang L R, et al. Tunable fiber laser based photoacoustic spectrometer for multi-gas analysis [J]. Sensors and Actuators B, 2011, 160:1268-1272.
[6] Wang Q Y, Wang J W, Li L, et al. An all-optical photoacoustic spectrometer for trace gas detection [J]. Sensors and Actuators B, 2011, 153:214-218.
[7] Wang J, Zhang W, Li L, et al. Breath ammonia detection based on tunable fiber laser photoacoustic spectroscopy [J]. Appl. Phys. B, 2011, 103:263-269.
[9] Mroziewicz B. External cavity wavelength tunable semiconductor laser—a review [J]. Opto-Electronics Review, 2008, 16(4):347-366.
[10] Rothmana L S, Jacquemarta D, Barbeb A, et al. The HITRAN 2004 molecular spectroscopic database [J]. Journal of Quantitative Spectroscopy & Radiative Transfer, 2005, 96(2):139-204.
[11] Lins B, Pflaum F, Engelbrecht R, et al. Absorption line strengths of 15NH3 in the near infrared spectral region [J]. Applied Physics B, 2011, 102:293-301.
[12] Webber M E. Diode Laser Measurements of NH3 and CO2 for Combustion and Bioreactor Applications [D]. Stanford: Stanford University, 2001.
[13] Webber M E, Baer D S, Hanson R K. Ammonia monitoring near 1.5 μm with diode-laser absorption sensors [J]. Applied Optics, 2001, 40(12):2031-2042.
[14] Peeters R, Berden G, Apituley A, et al. Open-path trace gas detection of ammonia based on cavity-enhanced absorption spectroscopy [J]. Applied Physics B, 2000, 71:231-236.
[15] Claps R, Englich F V, Leleux D P, et al. Ammonia detection by use of near-infrared diode-laser-based overtone spectroscopy [J]. Applied Optics, 2001, 40(24):4387-4394.
曹新丹, 刘先勇, 蒙瑰, 倪士虎. 基于光声光谱技术的1.5 μm波段NH3吸收谱线测量与分析[J]. 发光学报, 2012, 33(9): 1025. CAO Xin-dan, LIU Xian-yong, MENG Gui, NI Shi-hu. Detection and Analysis of Ammonia Absorption Line at 1.5 μm Region Based on Photoacoustic Spectroscopy[J]. Chinese Journal of Luminescence, 2012, 33(9): 1025.
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