[1] Shi Yuli, Yang Fengkai, Cao Nianwen. Study on inversion accuracy of aerosol optical depth with micropulse lidar in northern suburb of Nanjing [J]. Laser Technology, 2015, 39(3): 372-376. (in Chinese)
[2] Klett James D. Stable analytical inversion solution for processing lidar returns[J]. Appl Opt, 1981, 20(2): 211-220.
[3] Fernald F G. Analysis of atmospheric lidar observation: some comments [J]. Appl Opt, 1984, 23(5): 652-653.
[5] Wang Wei, Gong Wei, Mao Feiyue. et al. Long-term measurement for low-tropospheric water vapor and aerosol by Raman Lidar in Wuhan[J]. Atmosphere, 2015, 6: 521-533.
[6] Fiocco G, DeWolf J B. Frequency spectrum of laser echoes fromatmospheric constituents and determination of aerosol content ofair[J]. Journal of the Atmospheric Sciences, 1968, 25(3): 488-496.
[7] Tang Lei, Wu Haibin, Sun Dongsong, et al. Design and calibration of the Fabry-Perot etlon in Rayleigh backscattering Doppler wind lidar[J]. Laser Technology, 2014, 38(2): 283-288. (in Chinese)
[8] Zheng Jun, Dong Jihui, Zhao Ming, et al. Design and optimization of Fabry-Perot etalon in 532 nm Doppler lidar [J]. Journal of Atmospheric and Environmental Optics, 2014, 9(4): 316-322. (in Chinese)
[9] Liu Zhishen, Chen Zhen, Yu Cuirong, et al. Doppler wind Lidar: from vehicle-mounted to space-borne [J]. Journal of Atmospheric and Environmental Optics, 2015, 10(2): 126-138. (in Chinese)
[10] Huang Hanlu, Liu Dong, Yang Yongying, et al. Design of the high spectral resolution lidar filter based on a field-widened Michelson interferometer[J]. Chinese Journal of Lasers, 2014, 41(9): 0913003. (in Chinese)
[11] Gerstenkorn Sand Luc P. Atlas du spectred′absorption de la molecule d′iode, 14 800-20 000 cm-1 [M]. Paris: National Centre of the Scientific Research, 1978.
[12] YokoyamaShuko, YokoyamaToshiyuki, Araki Tsutomu, et al. A simple frequency lock of green YAG laser to Doppler-broadened spectrum of iodine molecules utilizing an acousto-optic frequency shifter[J]. Meas Sci Technol, 1998, 9(8): 1252-1258.