激光诱导生物气溶胶荧光雷达的设计与数值仿真
饶志敏, 华灯鑫, 何廷尧, 乐静. 激光诱导生物气溶胶荧光雷达的设计与数值仿真[J]. 光学学报, 2015, 35(10): 1028001.
Rao Zhimin, Hua Dengxin, He Tingyao, Le Jing. Design and Simulation of Laser Induced Bio-Aerosols Fluorescence Lidar[J]. Acta Optica Sinica, 2015, 35(10): 1028001.
[1] 兰天鸽, 熊伟, 方勇华, 等. 生物气溶胶红外光谱信号预处理算法研究[J]. 光学学报, 2010, 30(9): 2742-2747.
[2] 徐傲, 熊超, 张佩, 等. 基于本征荧光测量的双通道生物气溶胶检测技术研究[J]. 光学学报, 2013, 33(8): 0812005.
[3] 张佩, 赵永凯, 杨巍, 等. 亚微米粒子虚拟冲击器的研制[J]. 中国激光, 2014, 41(1): 0116002.
[4] Després V R, Alex Huffman J, Burrows S M, et al.. Primary biological aerosol particles in the atmosphere: a review[J]. Tellus B, 2012, 64(1): 145-153.
[5] Feng Chunxia, Hung Lihua, Wang Jianbo, et al.. Theoretical studies on bioaerosol particle size and shape measurement from spatial scattering profiles[J]. Chin Opt Lett, 2011, 9(9): 092901.
[6] Pan Y L, Hill S C, Pinnick R G, et al.. Fluorescence spectra of atmospheric aerosol particles measured using one or two excitation wavelengths: Comparison of classification schemes employing different emission and scattering results[J]. Opt Express, 2010, 18(12): 12436-12457.
[7] 贺岩, 吴东. 机载海洋激光雷达测量叶绿素a浓度、悬移质浓度和浅海深度的性能估计[J]. 中国海洋大学学报, 2004, 34(4): 649-654.
He Yan, Wu Dong. Performance evaluation of airborne ocean lidar for measuring chlorophyll-a, suspended matter and coastal water depth in the east china sea[J]. Periodical of Ocean University of China, 2004, 34(4): 649-654.
[8] 万文博, 华灯鑫, 乐静, 等. 激光诱导叶绿素荧光寿命的测量及其特征分析[J]. 物理学报, 2013, 62(19): 190601.
Wan Wenbo, Hua Dengxin, Le Jing, et al.. Laser-induced chlorophyll fluorescence lifetime measurement and characteristic analysis[J]. Acta Physica Sinica, 2013, 62(19): 190601.
[9] Eversole J D, Scotto C S, Spence M, et al.. Continuous bioaerosol monitoring using UV excitation fluorescence[C]. SPIE, 2003, 4829: 532-533.
[10] Pan Y L, Huang H, Chang R K. Clustered and intergrated fluorescence spectra from single atmospheric aerosol particles excited by a 263- and 351-nm laser at New Haven, CT, and Adelphi, MD[J]. Journal of Quantitative Spectroscopy & Radiative Transfer, 2012, 113(17): 2213-2221.
[11] Kaliszewski M, Trafny E A, Lewandowski R, et al.. A new approach to UVAPS data analysis towards detection of biological aerosol[J]. Journal of Aerosol Science, 2013, 58(4): 148-157.
[12] Fumikazu Taketani, Yugo Kanaya, Takayuki Nakamura, et al.. Measurement of fluorescence spectra from atmospheric single submicron particle using laser-induced fluorescence technique[J]. Journal of aerosol Science, 2013, 58: 1-8.
[13] Hill S C, Pinnick R G, Niles S, et al.. Real-time measurement of fluorescence spectra from signal airborne biological particles[J]. Field Analytical Chemistry and Technology, 1999, 3(4-5): 221-239.
[14] Davitt K, Song Y K, Patterson W R, et al.. 290 and 340 nm UVLED arrays for fluorescence detection from single airborne particles[J]. Opt Express, 2005, 13(10): 3583-3593.
[15] Mcndonsa R A. Lidar protects against biological warfare agents[J]. Photonics Spectra, 1997, 31(2): 20-25.
[16] Butler J C, Christesen S D, DeSha M S, et al.. UV fluorescence lidar detection of bioaerosols[C]. SPIE, 1994, 2222: 228-237.
[17] 蔡舒窈, 张佩, 朱玲琳, 等. 基于色氨酸本征荧光测量的生物气溶胶检测技术研究[J]. 光学学报, 2012, 32(5): 0512009.
[18] 冯春霞, 黄立华, 周光超, 等. 单分散生物气溶胶光散射特性的计算与分析[J]. 中国激光, 2010, 37(10): 2592-2598.
[19] 邹炳芳, 张寅超, 胡顺星. 探测有机气溶胶荧光激光雷达的设计研究[J]. 激光技术, 2008, 32(3): 287-289.
[20] 阴俊燕, 尹福昌, 陈明, 等. 影响激光大气传输因素分析[J]. 红外与激光工程, 2008, 37(suppl): 399-402.
Yin Junyan, Yin Fuchang, Chen Ming, et al.. Impact on laser transmission in atmosphere[J]. Infrared and Laser Engineering, 2008, 37(suppl): 399-402.
[21] Sivaprakasam V, Huston A L, Scotto C, et al.. Multiple UV wavelength excitation and fluorescence of bioaerosols[J]. Opt Express 2004, 12(19): 4457-4466.
[22] Faris G, Copeland R A, Mortelmans K, et al.. Spectrally resolved absolute fluorescence cross sections for bacillus spores[J]. Appl Opt, 1997, 36(4): 958-967.
[23] Bhattar S L, Kolekar G B, Patil S R. Spectroscopic studies on the molecular interaction between salicylic acid and riboflavin (B2) in micellar solution[J]. Journal of Luminescence, 2010, 130(3): 355-359.
[24] 戴阳, 催雪森, 伍玉梅, 等. 白天天空背景光变化特性的理论研究计算与实验测量[J]. 激光杂志, 2008, 29(5): 39-41.
Dai Yang, Cui Xuesen, Wu Yumei, et al.. Theoretical computation and experimental measurement on properties of scattering irradiance in daytime[J]. Laser Journal, 2008, 29(5): 39-41.
[25] Joshi D, Kumar D, Maini A K, et al.. Detection of biological warfare agents using ultra violet-laser induced fluorescence LIDAR[J]. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2013, 112: 446-456.
[26] 周倩婷, 危峻, 徐志鹏. 噪声特性对多次采样累加平均技术的影响[J]. 红外与激光工程, 2010, 39(5): 959-962.
Zhou Qianting, Wei Jun, Xu Zhipeng. Influence of noise feature on multiple sampling, accumulation and averaging technology[J]. Infrared and Laser Engineering, 2010, 39(5): 959-962.
[27] Pan Y, Hill S C, Santarpia J L. Spectrally-resolved fluorescence cross sections of aerosolized biological live agents and stimulants using five excitation wavelengths in a BSL-3 laborator[J]. Opt Express, 2014, 22(7): 8165-8189.
饶志敏, 华灯鑫, 何廷尧, 乐静. 激光诱导生物气溶胶荧光雷达的设计与数值仿真[J]. 光学学报, 2015, 35(10): 1028001. Rao Zhimin, Hua Dengxin, He Tingyao, Le Jing. Design and Simulation of Laser Induced Bio-Aerosols Fluorescence Lidar[J]. Acta Optica Sinica, 2015, 35(10): 1028001.