Assessment of the three-frequency pulse alternation method for simultaneously troposphere wind and aerosol profiling retrieval in a direct detection lidar.

IF 3.3 2区物理与天体物理 Q2 OPTICS

Optics express Pub Date : 2025-06-02 DOI:10.1364/OE.559646

Yimai Jing, Guangyao Dai, Xiangcheng Chen, Kangwen Sun, Wenrui Long, Bingyi Liu, Qichao Wang, Jiaping Yin, Shengguang Qin, Xitao Wang, Rongzhong Li, Songhua Wu

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引用次数: 0

Abstract

The direct detection Doppler wind lidar, which is capable of detecting Rayleigh and Mie scattering signals synchronously and achieving the atmospheric wind field profile detection from the surface to the top of the troposphere, has become an important tool for the meteorology measurements. It is divided into two measurement mechanisms, including the edged technique and the fringe-imaging technique. The single-edge measurement method with use of iodine vapor filter is one of the traditional edge detection methods. The existing iodine molecular filter wind profile retrieval algorithms are based on the precise measurement of aerosol backscatter ratio R_b and sensitivity S, which bring certain wind speed errors. In order to improve the wind retrieval accuracy and measurement sensitivity, this paper proposes a retrieval algorithm based on the three-frequency pulse alternation (TFPA) method by using Rayleigh-Mie scattering, realizing the simultaneous retrieval of wind profile and R_b in the troposphere. Simulation experiments were carried out under different atmospheric conditions to evaluate the effectiveness and applicability of the algorithm and to analyze the main factors that affecting wind speed accuracy. The simulation results show that the TFPA method is mainly suitable for the wind profile retrieval where the aerosol exists in the atmosphere with R_b > 0.1. Compared with the direct measurement sensitivity method, the TFPA method reduced the radial wind speed error by 50%, decreased the standard deviation of the horizontal wind speed from the true value by 71.6%. The radial wind speed error caused by temperature and pressure uncertainties are small, which can to be ignored. Under stable atmospheric conditions, the effect of vertical wind velocity is also slight.

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直接探测激光雷达对流层风和气溶胶剖面同步反演的三频脉冲交替方法评价。

直接探测多普勒风激光雷达能够同步探测瑞利和米氏散射信号，实现从对流层表面到对流层顶部的大气风场廓线探测，已成为气象测量的重要工具。它分为两种测量机制，即边缘技术和条纹成像技术。利用碘蒸气过滤器的单边缘测量方法是传统的边缘检测方法之一。现有的碘分子过滤风廓线检索算法基于气溶胶后向散射比Rb的精确测量和灵敏度S，带来一定的风速误差。为了提高风廓线的反演精度和测量灵敏度，本文提出了一种基于三频脉冲交替（TFPA）法的反演算法，利用瑞利-米散射，实现对流层风廓线和Rb的同步反演。通过不同大气条件下的模拟实验，评估了算法的有效性和适用性，分析了影响风速精度的主要因素。模拟结果表明，TFPA方法主要适用于Rb值为0.1的大气中存在气溶胶的风廓线反演。与直接测量灵敏度法相比，TFPA法将径向风速误差降低50%，将水平风速与真实值的标准差降低71.6%。温度和压力不确定性引起的径向风速误差很小，可以忽略不计。在稳定的大气条件下，垂直风速的影响也很小。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Optics express 物理-光学

CiteScore

6.60

自引率

15.80%

发文量

5182

审稿时长

2.1 months

期刊介绍： Optics Express is the all-electronic, open access journal for optics providing rapid publication for peer-reviewed articles that emphasize scientific and technology innovations in all aspects of optics and photonics.