[1] [1] Zhang Chengchang, Zhou Wenxian. Atmospheric aerosol tutorial［M］. Beijing: Meteorological Press, 1995.

[2] [2] Mao Jietai, Zhang Junhua, Wang Meihua. Summary comment on research of atmospheric aerosol in China［J］. Acta Meteorologica Sinica, 2002, 60(5): 625-634.

[3] [3] Wang Mingxing, Zhang Renjian. Frontier of atmospheric aerosols researches［J］. Climatic and Environmental Research, 2001, 6(1): 119-124.

[4] [4] Zhang Xiaoye. Aerosol over China and their climate effect［J］. Advances in Earth Science, 2007, 22(1): 12-16.

[5] [5] Bo Guangyu, Liu Dong, Wu Decheng, et al. Two-wavelength lidar for observation of aerosol optical and hygroscopic properties in fog and haze days［J］. Chinese J Lasers, 2014, 41(1): 0113001.

[6] [6] Zhang Hongyu, Fan Guihua, Zhang Tinghua, et al. Research on wavelet denoising for echo signal of lidar［J］. Foreign Electronic Measurement Technology, 2012, 31(5): 52-55.

[7] [7] Klett J D. Lidar inversion with variable backscatter/extinction ratios［J］. Applied Optics, 1985, 24(11): 1638-1643.

[8] [8] Fernald F G. Analysis of atmospheric lidar observation: Some comments［J］. Applied Optics, 1984, 23(5): 652-653.

[9] [9] Kovalev V A, Bristow M P. Compensational three-wavelength differential-absorption lidar technique for reducing the influence of differential scattering on ozone-concentration measurements［J］. Applied Optics, 1996, 35(24): 4790-4797.

[10] [10] Wang Xiangchuan, Rao Ruizhong. Lidar ratios for atmospheric aerosol and cloud particles［J］. Chinese J Lasers, 2005, 32(10): 1321-1325.

[11] [11] Doherty S L, Anderson T L, Charlson R J. Measurement of the lidar ratio for atmospheric aerosols with a 180°backscatter nephelometer［J］. Applied Optics, 1999, 38(9): 1823-1832.

[12] [12] Spinhirne J D, Reagan J A, Herman B M. Vertical distribution of aerosol extinction cross section and inference of aerosol imaginary index in the troposphere by lidar technique［J］. Journal of Applied Meteorology, 1980, 19(4): 426-438.

[13] [13] Xia Junrong. Lidar measurement of atmospheric aerosol radiative properties over Lanzhou［D］. Lanzhou: Lanzhou University, 2006.

[14] [14] Min Min, Wang Pucai, Zong Xuemei. Extinction to backscatter ratio of cirrus clouds retrieved by spaceborne lidar over China［J］. Chinese Journal of Atmospheric Sciences, 2010, 34(3): 506-512.

[15] [15] Wu Decheng, Liu Bo, Qi Fudi, et al.Tropospheric aerosols optical properties measured by a Raman-Mie lidar［J］. Journal of Atmospheric & Environmental Optics, 2011, 6(1): 18-26.

[16] [16] Bo Guangyu, Zhong Zhiqing, Liu Bo, et al. Design of optical receiver and signal detection unit for combined Rayleigh-Raman-Mie lidar［J］. Chinese J Lasers, 2009, 36(11): 3020-3025.

[17] [17] Klett J D. Stable analytical inversion solution for processing lidar returns［J］. Applied Optics, 1981, 20(2): 211-220.

[18] [18] Cao N W, Zhu C X, Kai Y F, et al. A method of background noise reduction in lidar data［J］. Applied Physics B, 2013, 113(1): 115-123.

[19] [19] Zhang Wenyu, Wang Yinqi, Song Jiayao, et al. Research on logarithmic k of aerosol backscatter extinction using lidar［J］. Plateau Meteorology, 2008, 27(5): 1083-1087.

[20] [20] Zhu Cunxiong, Cao Nianwen, Yang Fengkai, et al. Micro pulse lidar observations of aerosols in Nanjing［J］. Laser & Optoelectronics Progress, 2015, 52(5): 050101.

[21] [21] Huang Zhenting. Multi-point smooth extrapolation of measured data［J］. Radio Engineering, 1981, 11(4): 3-17.

[22] [22] Cao N W, Yang F K, Zhu C X. Improving the accuracy of aerosol extinction coefficient inversion［J］. Optics and Spectroscopy, 2014, 116(4): 699-703.

[23] [23] Sasano Y. Tropospheric aerosol extinction coefficient profiles derived from scanning lidar measurements over Tsukuba, Japan, from 1990 to 1993［J］. Applied Optics, 1996, 35(24): 4941-4952.

[24] [24] Cao Nianwen, Yan Peng. Aerosol classifications method by lidar measurements［J］. Acta Optica Sinica, 2014, 34(11): 1101003.