Simultaneous observation of temporal and spatial distribution of atmospheric aerosol by means of slant-path and plan position indicator lidars

Asia-Pacific Remote Sensing Pub Date : 2018-10-24 DOI:10.1117/12.2324688

J. Aminuddin, N. Manago, N. Lagrosas, S. Okude, H. Kuze

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引用次数: 2

Abstract

The influence of aerosols to the atmosphere has been discussed in the context of the Earth radiation budget and global climate change. Therefore, precise monitoring of aerosol parameters is important for better understanding of their real characteristics and impacts on the environment. In this study, we report on a novel method of concurrent measurements of aerosol near the surface level by means of slant-path (SP) and plan position indicator (PPI) lidars. The SP lidar utilizes a diode-laser-pumped Nd:YAG laser operating at 532 nm, while the PPI is based on a Nd:YLF laser at 349 nm. The PPI system including the laser transmitter and telescope section is rotated over 360° for covering all the horizontal directions with the maximum observation range up to around 3 km. At the same time, the SP lidar is employed for monitoring the near surface region that cannot be covered by vertical observation lidars. Furthermore, the backscattered signals recorded by both PPI and SP lidars are analyzed using the Fernald method to retrieve aerosol extinction coefficient by employing lidar ratios for 349 and 532 nm. These values of lidar ratio are estimated by adjusting and fitting parameters in the Mie scattering calculation (mode radius, variance, and both real and imaginary parts of refractive index) to real data from ground-based sampling instruments, namely, the scattering coefficient, absorption coefficient, and size distribution observed with an integrating nephelometer, an aethalometer, and an optical particle counter, respectively. Real-time values of the extinction coefficient inside the atmospheric boundary-layer are derived as the summation of scattering and absorption coefficients. The results are then compared with those from a vertical lidar, operated by the National Institute of Environmental Studies (NIES) on the campus of Chiba University. We discuss the observed features of aerosol characteristics that vary both temporally and spatially.

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利用斜路和平面位置指示激光雷达同时观测大气气溶胶的时空分布

在地球辐射收支和全球气候变化的背景下讨论了气溶胶对大气的影响。因此，精确监测气溶胶参数对于更好地了解它们的真实特征和对环境的影响非常重要。在这项研究中，我们报告了一种利用斜路径(SP)和平面位置指示器(PPI)激光雷达同时测量近地表气溶胶的新方法。SP激光雷达采用二极管激光泵浦Nd:YAG激光器，工作波长为532 nm，而PPI激光雷达采用Nd:YLF激光器，工作波长为3449 nm。包括激光发射机和望远镜部分在内的PPI系统旋转360°以上，覆盖所有水平方向，最大观测范围可达3公里左右。同时利用SP激光雷达对垂直观测激光雷达无法覆盖的近地表区域进行监测。此外，利用ferald方法对PPI和SP激光雷达记录的后向散射信号进行分析，利用349和532 nm的激光雷达比反演气溶胶消光系数。这些激光雷达比值是通过调整和拟合米氏散射计算中的参数(模式半径、方差和折射率的实部和虚部)与地面采样仪器的实际数据，即散射系数、吸收系数和尺寸分布，分别由积分浊度计、浓度计和光学粒子计数器观测到。大气边界层内消光系数的实时值是散射系数和吸收系数的总和。然后将结果与垂直激光雷达的结果进行比较，垂直激光雷达由千叶大学校园内的国家环境研究所(NIES)操作。我们讨论了观测到的气溶胶特征在时间和空间上的变化。

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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Asia-Pacific Remote Sensing

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