大气与环境光学学报 ›› 2020, Vol. 15 ›› Issue (1): 48-54.

• ”海洋光学技术及应用“专辑 • 上一篇    下一篇

大气海洋高光谱分辨率激光雷达鉴频特性研究

刘东1,周雨迪1,朱小磊2,陈扬1,徐沛拓1,刘崇1,王南朝1,沈雪1   

  1. 1浙江大学光电科学与工程学院现代光学仪器国家重点实验室, 浙江杭州 310027;
    2中国科学院上海光学精密机械研究所, 上海 201800
  • 出版日期:2020-01-28 发布日期:2020-01-19

Investigation on Discrimination Characteristics of Atmospheric and Oceanic High-Spectral-Resolution Lidar

LIU Dong1, ZHOU Yudi1, ZHU Xiaolei2, CHEN Yang1, XU Peituo1,LIU Chong1, WANG Nanchao1, SHEN Xue1   

  1. 1State Key Laboratory of Modern Optical Instrumentation, College of Optical Science and Engineering, 
    Zhejiang University, Hangzhou 310027, China;
    2 Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, Shanghai 201800, China
  • Published:2020-01-28 Online:2020-01-19

摘要: 统一分析大气海洋高光谱分辨率激光雷达(HSRL)的鉴频性能,能够为大气海洋的联合探测研究提供帮助。
提出了一种基于视场展宽迈克尔逊干涉仪(FWMI)鉴频器的大气海洋HSRL系统和算法,用于反演海水和
大气颗粒的180°体积散射系数。该系统的核心在于采用混合-分子双通道接收信号,其中分子通道
利用FWMI鉴频器滤除颗粒信号,透过分子信号。研究表明,反演误差会随着颗粒散射比(总180°体积散射
系数与分子180°体积散射系数之比)增大而线性增大,而光谱分离比(分子与颗粒透过率之比)的提高能够显
著抑制误差的增长趋势。因为海洋的分子散射与颗粒散射在光谱上更加分离,因此FWMI在海洋HSRL上的鉴频
能力高于大气HSRL。所提的基于FWMI的HSRL系统能够工作于水体和大气中,对大气海洋激光雷达的性能提升有重要的意义。

关键词: 光学遥感, 高光谱分辨率激光雷达, 大气遥感, 海洋遥感, 视场展宽迈克尔逊干涉仪

Abstract: The combined analysis of the discrimination performance of the atmospheric and oceanic 
high-spectral-resolution lidar (HSRL) can help the joint atmospheric and oceanic observation 
research. An atmospheric and oceanic HSRL system based on the field-widened Michelson 
interferometer (FWMI) discriminator is proposed in this work, which can be used to 
retrieve the 180-degree volume scattering function of oceanic and atmospheric 
particles. The core of the system is the combined-molecular dual channel, 
in which the molecular channel uses FWMI discriminator to  filter the particle 
signal but transmit the molecular signal. It is shown that the retrieval error 
will increase proportionally with the particulate scattering ratio (the ratio of 
the total 180-degree volume scattering function to that of molecular), while the  
enhancing of the spectral discrimination ratio (the ratio of the molecular 
transmittance to the particulate transmittance) can  significantly suppress 
the growth trend of the retrieval error. Because molecular  scattering and particulate scattering 
are separated in the spectrum of oceanic HSRL, FWMI has a better discriminating 
characteristics in the oceanic HSRL than in the atmospheric HSRL. The proposed HSRL 
system based on FWMI can work in water and atmosphere, which is  of great significance 
to the performance improvement of atmospheric and oceanic lidar.

Key words: optical remote sensing, high-spectral-resolution lidar, atmospheric remote sensing; 
oceanic remote sensing,
field-widened Michelson interferometer

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