[1] R M Huffaker, A V Jelalian, J A L Thompson. Laser-Doppler system for detection trailing vortices of aircraft. Proceedings of the IEEE, 58, 322-326(1970).
[2] T Okoshi, K Kikuchi. Frequency stabilization of semiconductor lasers for heterodyne-type optical communication systems. Electronics Letters, 16, 179-181(1980).
[3] M Courtney, R Wagner, P Lindelöw. Commercial lidar profilers for wind energy. A comparative guide(2008).
[4] Yuan LIU, Ji-Qiao LIU, Wei-Biao CHEN. An all-fiber single frequency laser for eye-safe coherent doppler wind lidar. Chinese Journal of Lasers, 36, 1857-1860(2009).
[5] Li-Tian FENG, Hong-Qi GUO, Yong CHEN et al. Experiment of all fiber Doppler lidar at 1.55 μm. Infrared and Laser Engineering, 40, 844-847(2011).
[6] Jia-Ping YIN. Research and observation of turbine wake and wind field of MABL by coherent Doppler wind lidar(2015).
[7] Hong-Wei ZHANG, Song-Hua WU, Jia-ping YIN et al. Airport low-level wind shear observation based on short-range CDL. Journal of Infrared and Millimeter Waves, 37, 468-476(2018).
[8] S H Wu, X C Zhai, BY Liu. Aircraft wake vortex and turbulence measurement under near-ground effect using coherent Doppler lidar. Optics Express, 27, 1142-1163(2019).
[9] C Weitkamp. Lidar: range-resolved optical remote sensing of the atmosphere. Springer Science & Business, 102(2006).
[10] J Bilbro, G Fichtl, D Fitzjarrald et al. Airborne Doppler lidar wind field measurements. Bulletin of the American Meteorological Society, 65, 348-359(1984).
[11] E W McCaul, H B Bluestein, R J Doviak. Airborne Doppler lidar techniques for observing severe thunderstorms. Applied optics, 25, 698-708(1986).
[12] J W Bilbro, C DiMarzio, D Fitzjarrald et al. Airborne Doppler lidar measurements. Applied optics, 25, 3952-3960(1986).
[13] G D Emmitt, C O’Handley, S Wood et al. TODWL: An airborne Doppler wind lidar for atmospheric research, 2005, P2.3(2005).
[14] G D Emmitt, S Grecoa, C O’Handley et al. The multiple uses of the Navy's Twin Otter Doppler Wind Lidar (TODWL) for atmospheric research(2016).
[15] Y Durand, E Chinal, M Endemann et al. ALADIN airborne demonstrator: a Doppler wind lidar to prepare ESA's ADM-Aeolus Explorer mission. Proc. SPIE Optics and Photonics, 6296, 6291-1D(2006).
[16] O Reitebuch, C Lemmerz, U Marksteiner et al. Airborne lidar observations supporting the ADM-Aeolus mission for global wind profiling, 2012, 759-762(2012).
[17] Z Li, C Lemmerz, U Paffrath et al. Airborne Doppler lidar investigation of sea surface reflectance at a 355-nm ultraviolet wavelength. Journal of Atmospheric and Oceanic Technology, 27, 693-704(2010).
[18] U Marksteiner, C Lemmerz, O Lux et al. Calibrations and wind observations of an airborne direct-detection wind LiDAR supporting ESA’s Aeolus mission. Remote Sensing, 10, 2056(2018).
[19] H Inokuchi, H Tanaka, T Ando. Development of a long range airborne Doppler Lidar, 2010, 10(2010).
[20] H Inokuchi, M Furuta, T Inagaki. High altitude turbulence detection using an airborne Doppler lidar, 2014(2014).
[21] B Gentry, H Chen, J Cervantes et al. Airborne testing of the TWiLiTE direct detection Doppler lidar, 20-24(2011).
[22] U Marksteiner, O Reitebuch, C Lemmerz et al. Airborne direct-detection and coherent wind lidar measurements over the North Atlantic in 2015 supporting ESA’s aeolus mission, 2018, 176, 02011(2018).
[23] J E Yorks, M J McGill, V S Scott et al. The airborne cloud–aerosol transport system: Overview and description of the instrument and retrieval algorithms. Journal of Atmospheric and Oceanic Technology, 31, 2482-2497(2014).
[24] J E Yorks, M J McGill, D L Hlavka. A new high spectral resolution lidar technique for direct retrievals of cloud and aerosol extinction, 2014, A13N-01(2014).
[25] C J Grund, S C Tucker. Optical autocovariance wind lidar (OAWL): A new approach to direct-detection Doppler wind profiling, 2011(2011).
[26] M Hardesty, S Tucker, S Baidar et al. Airborne tests of an OAWL Doppler lidar: Results and potential for space deployment, 2018, 176, 02004(2018).
[27] Yong CHEN, Bing-Zhi ZHOU, Jin TAN et al. Research and application of airborne laser Doppler wind lidars. Laser Technology, 35, 795-799(2011).
[28] Zhi-Gang LI, Ze-Zhong SUN, Zeng-Liang ZHAO et al. Wind retrieval of all fiber Doppler wind lidar and experimental verification. Journal of Applied Optics, 37, 765-771(2016).
[30] Xiao-Peng ZHU, Ji-Qiao LIU, Xin ZHANG et al. An Airborne all Fiber Coherent Doppler Lidar for Wind Sensing, 2017, 461-468(2017).
[31] S Wu, Q Wang, B Liu et al. UAV-borne coherent doppler lidar for marine atmospheric boundary layer observations, 2018, 176, 02012(2018).
[32] S Wu, Q Wang, J Liu et al. A UAV-borne Compact Coherent Doppler Lidar for Marine Boundary Layer Wind Remote Sensing, 2018, ET3A. 7(2018).
[33] U Marksteiner. Airborne wind lidar observations for the validation of the ADM-Aeolus instrument(2013).
[34] Zhi-Gang LI, Ze-Zhong SUN, Zeng-Liang ZHAO et al. Influence analysis and calibration of laser pointing for airborne Doppler lidar. LASER&INFRAFED, 46, 1467-1472(2016).
[35] Zhi-Gang Li, Zhi-Shen Liu, Jin-Shan Zhu et al. Wind Retrieval Algorithms For The Wind Products Of The Airborne Coherent Doppler Lidar, 2013(2013).
[36] Zong-Ming Tao, De-Cheng Wu, Dong Liu et al. Estimation of aerosol backscatter coefficient error in lidar data processing. Chinese Journal of Lasers, 38, 1214001(2011).
[37] Dong-Xiang WANG, Xiao-Quan SONG, Chang-Zhong FENG et al. Coherent Doppler lidar observation of marine atmospheric boundry layer height in the Bohai and Yellow sea. Acta Optica Sinica, 35, s101001(2015).