[1] Liou K N, Schotland R M. Multiple backscattering and depolarization from water clouds for a pulsed lidar system[J]. J Atmos Sci, 1971, 28(5): 772-784.
[2] Liu Dong, Qi Fudi, Jin Chuanji, et al. Polarization lidar observations of cirrus clouds and Asian dust aerosols over Hefei[J]. Chinese Journal of Atmosphere Science, 2003, 27(6): 1093-1100. (in Chinese)
[3] Bissonnette L R, Roy G, Roy N. Multiple-scattering-based lidar retrieval: method and results of cloud probings[J]. Appl Optics, 2005, 44(26): 5565-5581.
[4] Liu D, Wang Z E, Liu Z Y, et al. A height resolved global view of dust aerosols from the first year CALIPSO lidar measurements[J]. Journal of Geophysical Research: Atmospheres, 2008, 113(D16): D16214.
[5] Donovan D P, Apituley A. Practical depolarization-ratio based inversion procedure: lidar measurements of the Eyjafjallajküll ash cloud over the Netherlands[J]. Appl Optics, 2013, 52(11): 2394-2415.
[6] Kim D, Lee J. Measuring cloud droplet effective radius and liquid water content using changes in degree of linear polarization along cloud depth[J]. Optics Letters, 2014, 39(12): 3378-3381.
[7] Ramella-Roman J, Prahl S, Jacques S. Three Monte Carlo programs of polarized light transport into scattering media: part I[J]. Optics Express, 2005, 13(12): 4420-4438.
[8] Weitkamp C. Lidar: Range-Resolved Optical Remote Sensing of the Atmosphere[M]. Heidelberg: Springer, 2005: 321.
[11] Hu Y X, Yang P, Lin B, et al. Discriminating between spherical and non-spherical scatterers with lidar using circular polarization: a theoretical study[J]. JQSRT, 2003, 79-80: 757-764.
[12] Hu Y X, Winker D, Yang P, et al. Identification of cloud phase from PICASSO-CENA lidar depolarization: a multiple scattering sensitivity study[J]. JQSRT, 2001, 70(4-6): 569-579.
[13] Deirmendjian D. Electromagnetic Scattering on Spherical Polydispersions[M]. Amsterdam: Elsevier, 1969: 218.