[1] MAO Jie-tai, ZHANG Jun-hua, WANG Mei-hua. Summary comment on research of atmospheric aerosol in China［J］. Acta Meteorologica Sinica, 2002, 60(1): 625-634.

[2] ZHANG Xiao-ye. Aerosol over china and their climate effect［J］. Advances in Earth Science, 2007, 22(1): 12-16.

[3] STONE S S. Observation by lidar of linear depolarization ratios for hydrometeors［J］. Appllied Meteorology, 1971, 10(5): 1011-1017.

[4] PAL S R, CARSWELL A I. The polarization characteristics of lidar scattering from snow and ice crystals in the atmosphere［J］. Applied Meteorology, 1977, 16: 70-79.

[5] PAL S R, CARSWEEL A I. Polarization properties of lidar scattering from clouds 347 nm and 694 nm［J］. Applied Optics, 1978, 17(15): 2321-2328.

[6] IWASAKA Y, HAYASHIDA S. The effects of the vocanic eruption of St.Helens on the propertiesof tratospheric aerosol: lidar measurement at nagoya［J］. Meteorological Society of Japan, 1981, 59(4): 611-614.

[7] SASSEN K, ZHAO Hong-jie, CODD G C. Simulated polarizatio diversity lidar returns from water and precipitating mixed phase clouds［J］. Applied Optics, 1992, 31(15): 2914-2923.

[8] SUGIMOTO N, UNO I, NISHIKAWA M, et al. Record heavy asian dust in beijing in 2002: observations and model analysis of recent events［J］. Geophysical Research Letters, 2003, 30(12): 42-45.

[9] LIU Dong, QI Fu-di, Jin Chua-jia, et al. Polarization lidar observations of cirrus clouds and asian dust aerosols over hefei［J］. Chinese Journal of Atmospheric Sciences, 2003, 27(6): 1093-1100.

[10] DONG Xu-hui, QI Hui, REN Li-jun, et al. Application and data demonstration of lidar in sandstorm observation［J］. Research of Environmental Sciences, 2007, 20(2): 106-111.

[11] ZHU Ai-chun, LIU Zhi-shen, LI Zhi-gang, et al. Research and experiments of polarization lidar system［J］.Control and Automation, 2008, 24(1): 49-51.