大气海洋高光谱分辨率激光雷达鉴频特性研究
刘东, 周雨迪, 朱小磊, 陈扬, 徐沛拓, 刘崇, 王南朝, 沈雪. 大气海洋高光谱分辨率激光雷达鉴频特性研究[J]. 大气与环境光学学报, 2020, 15(1): 48.
LIU Dong, ZHOU Yudi, ZHU Xiaolei, CHEN Yang, XU Peituo, LIU Chong, WANG Nanchao, SHEN Xue. Investigation on Discrimination Characteristics of Atmospheric and Oceanic High-Spectral-Resolution Lidar[J]. Journal of Atmospheric and Environmental Optics, 2020, 15(1): 48.
[1] Balino B M, Fasham M J R, Bowles M C. Ocean biogeochemistry and global change: JGOFS research highlights 1988-2000[J].Igbp Science, 2001, 2: 1-32.
[2] Churnside J H. Review of profiling oceanographic lidar[J].Optical Engineering, 2014, 53(5): 051405.
[3] Liu D, Xu P, Zhou Y, et al. Lidar remote sensing of seawater optical properties: experiment and Monte Carlo simulation[J]. IEEE Transactions on Geoscience and Remote Sensing, 2019, 57(11): 9489-9498.
[4] Liu Q, Cui X, Chen W, et al. A semianalytic Monte Carlo radiative transfer model for polarized oceanic lidar: Experiment-based comparisons and multiple scattering effects analyses[J]. Journal of Quantitative Spectroscopy and Radiative Transfer, 2019, 237: 106638.
[5] Zhou Y, Chen W, Cui X, et al. Validation of the analytical model of oceanic lidar returns: comparisons with Monte Carlo simulations and experimental results[J]. Remote Sensing, 2019, 11(16): 1870.
[6] Hirschberg J, Byrne J. Rapid underwater ocean measurements using Brillouin scattering[C].Monterey:Ocean Optics VII, 1984: 270-276.
[7] Zhou Y, Liu D, Xu P, et al. Retrieving the seawater volume scattering function at the 180° scattering angle with a high-spectral-resolution lidar[J]. Optics Express, 2017, 25(10): 11813-11826.
[8] Fiocco G, DeWolf J. Frequency spectrum of laser echoes from atmospheric constituents and determination of the aerosol content of air[J].Journal of the Atmospheric Sciences, 1968, 25(3): 488-496.
[9] Esselborn M, Wirth M, Fix A, et al. Airborne high spectral resolution lidar for measuring aerosol extinction and backscatter coefficients[J]. Applied Optics, 2008, 47(3): 346-358.
[10] Hair J W, Hostetler C A, Cook A L, et al. Airborne high spectral resolution lidar for profiling aerosol optical properties[J]. Applied Optics, 2008, 47(36): 6734-6752.
[11] Sweeney H E, Titterton P, Leonard D A. Method of remotely measuring diffuse attenuation coefficient of sea water[P].Google Patents, 1991.
[12] Schulien J A, Behrenfeld M J, Hair J W, et al. Vertically-resolved phytoplankton carbon and net primary production from a high spectral resolution lidar[J]. Optics Express, 2017, 25(12): 13577-13587.
[13] Liu D, Zhou Y, Chen W, et al. Phase function effects on the retrieval of oceanic high-spectral-resolution lidar[J]. Optics Express, 2019, 27(12): A654-A668.
[14] Zhou Y, Chen W, Liu D, et al. Multiple scattering effects on the return spectrum of oceanic high-spectral-resolution lidar[J]. Optics Express, 2019, 27(21): 30204-30216.
[15] O’Connor C L, Schlupf J P. Brillouin scattering in water: the Landau-Placzek ratio[J].The Journal of Chemical Physics, 1967, 47(1): 31-38.
[16] Fabelinskii I L, Levine H B.Molecular Scattering of Light[M]. Berlin: Springer, 1968.
[17] Cheng Z, Liu D, Luo J, et al. Effects of spectral discrimination in high-spectral-resolution lidar on the retrieval errors for atmospheric aerosol optical properties[J]. Applied Optics, 2014, 53(20): 4386-4397.
[18] Cheng Z, Liu D, Luo J, et al. Field-widened Michelson interferometer for spectral discrimination in high-spectral-resolution lidar: theoretical framework[J]. Optics Express, 2015, 23(9): 12117-12134.
刘东, 周雨迪, 朱小磊, 陈扬, 徐沛拓, 刘崇, 王南朝, 沈雪. 大气海洋高光谱分辨率激光雷达鉴频特性研究[J]. 大气与环境光学学报, 2020, 15(1): 48. LIU Dong, ZHOU Yudi, ZHU Xiaolei, CHEN Yang, XU Peituo, LIU Chong, WANG Nanchao, SHEN Xue. Investigation on Discrimination Characteristics of Atmospheric and Oceanic High-Spectral-Resolution Lidar[J]. Journal of Atmospheric and Environmental Optics, 2020, 15(1): 48.
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