Optical-mechanical system design, installation and performance test of lidar with small-field and high-repetition frequency

Lu Li; Chenbo Xie; Kunming Xing; Bangxin Wang; Ming Zhao; Liangliang Cheng

doi:10.3788/IRLA20210046

[1] Huige Di, Dengxin Hua. Research status and progress of Lidar for atmosphere in China (Invited). Infrared and Laser Engineering, 50, 20210032(2021).

[2] Lu Li, Chenbo Xie, Peng Zhuang, et al. Opto-mechanical system structure and research progress of space-borne lidar for cloud-aerosol. Infrared and Laser Engineering, 49, 20190501(2020).

[3] S Lolli, G Vivone, J R Lewis, et al. Overview of the new version 3 NASA Micro-Pulse Lidar Network (MPLNET) automatic precipitation detection algorithm. Remote Sensing, 12, 71(2019).

[4] S Lolli, Adderio Leo D’, J Campbell, et al. Vertically resolved precipitation intensity retrieved through a synergy between the ground-based NASA MPLNET lidar network measurements, surface disdrometer datasets and an analytical model solution. Remote Sensing, 10, 1102(2018).

[5] J R Lewis, J R Campbell, E J Welton, et al. Overview of MPLNET version 3 cloud detection. Journal of Atmospheric and Oceanic Technology, 33, 2113-2134(2016).

[6] M Mcqill, D Hlavka, W Hart, et al. Cloud physics lidar: Instrument description and initial measurement results. Applied Optics, 41, 3725-3734(2002).

[7] M Storm, G Stevenson, F Hovis, et al. Lidar and laser technology for NASA’S Cloud-Aerosol Transport System (CATS) payload on the international space station (JEM-EF). EPJ Web of Conferences, 119, 04002(2016).

[8] Yks J E, Mcgill M J, Nowottnick E P. Near real time vertical profiles of clouds aerosols from the CloudAerosol Transpt System (CATS) on the international space station[C]AGU Fall Meeting, 2015.

[9] 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 & Oceanic Technology, 31, 2482-2497(2014).

[10] Shasha Chen, Qingshan Xu, Chidong Xu, et al. Calculation of whole atmospheric aerosol optical depth based on micro-pulse lidar. Acta Optica Sinica, 37, 0701002(2017).

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

[12] Hui Li, Zhangjun Wang, Haoyue Wang, et al. Combined observation of aerosol vertical structure using micro-pulse lidar and compact optical backscatter aerosol detector. Laser & Optoelectronics Progress, 56, 132801(2019).

[13] Jing Luo, Dong Liu, Zihao Huang, et al. Polarization properties of receiving telescopes in atmospheric remote sensing polarization lidar. Applied Optics, 56, 6837-6845(2017).