Determination of Integral Microphysical Parameters of Multicomponent Aerosols from Data of Atmospheric Sensing by Lidars Based on an Nd:YAG Laser

M. M. Kugeiko; S. A. Lisenko

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Determination of Integral Microphysical Parameters of Multicomponent Aerosols from Data of Atmospheric Sensing by Lidars Based on an Nd:YAG Laser

机译：基于Nd：YAG激光的激光雷达大气传感数据确定多组分气溶胶的整体微物理参数

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A statistical model of an atmospheric aerosol is used to analyze the informativeness of lidar measurements of the optical characteristics of an aerosol at wavelengths of an Nd:YAG laser in order to obtain integral microphysical aerosol parameters. Regression equations are derived to reconstruct microphysical parameters of multicomponent aerosols from the data of joint measurements of the aerosol extinction coefficients at lambda velence 0.355 and 0.532 (mu)m and backscattering coefficients at lambda velence 0.355 and 1.064 (mu)m. The equations obtained are tested using the AERONET data array.

机译：大气气溶胶的统计模型用于分析激光雷达在Nd：YAG激光波长下测量气溶胶光学特性的信息，以便获得完整的微物理气溶胶参数。根据联合测定的数据，得出回归方程，以复数λvelence分别为0.355和0.532μm的气溶胶消光系数以及λvelence分别为0.355和1.064μm的后向散射系数。使用AERONET数据数组测试获得的方程式。

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《Optics and Spectroscopy》 |2009年第1期|共7页
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M. M. Kugeiko; S. A. Lisenko;
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中图分类光学;
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1. Determination of Integral Microphysical Parameters of Multicomponent Aerosols from Data of Atmospheric Sensing by Lidars Based on an Nd:YAG Laser [J] . M. M. Kugeiko, S. A. Lisenko Optics and Spectroscopy . 2009,第1期

机译：基于Nd：YAG激光的激光雷达大气传感数据确定多组分气溶胶的整体微物理参数
2. Determination of Stratospheric Aerosol Parameters from Two-Wavelength Lidar Sensing Data [J] . V. A. Korshunov, D. S. Zubachev Izvestiya Atmospheric and Oceanic Physics . 2013,第2期

机译：利用两波长激光雷达数据确定平流层气溶胶参数
3. Analysis of Atmospheric Aerosol Optical Properties in the Northeast Brazilian Atmosphere with Remote Sensing Data from MODIS and CALIOP/CALIPSO Satellites, AERONET Photometers and a Ground-Based Lidar [J] . Aline M. de Oliveira, Cristina T. Souza, Nara P. M. de Oliveira, Atmosphere . 2019,第10期

机译：从Modis和Caliop / Calipso卫星，AERONET光度计和地面LIDAR的遥感数据分析了东北巴西大气中的大气气雾剂光学性质。
4. VARIATIONS OF MICROPHYSICAL AND OPTICAL CHARACTERISTICS OF ATMOSPHERIC AEROSOL IN TRANSITION ZONE 'LAND-OCEAN' BASED ON DATA OF LIDAR SENSING [C] . Shmirko K.A, Lisitsa V.Va, Pavlov A.N., 24th International Symposium on Atmospheric and Ocean Optics: Atmospheric Physics . 2018

机译：基于激光感测数据的过渡带“陆地-海洋”大气气溶胶的物理，光学特性变化
5. Retrieval of optical and microphysical properties of aerosols from a hybrid multiwavelength lidar dataset [D] . Sawamura, Patricia. 2013

机译：从混合多波长激光雷达数据集中检索气溶胶的光学和微物理特性
6. Current Research in Lidar Technology Used for the Remote Sensing of Atmospheric Aerosols [O] . Adolfo Comerón, Constantino Muñoz-Porcar, Francesc Rocadenbosch, 2017

机译：激光雷达技术在大气气溶胶遥感中的最新研究
7. Aerosol Microphysical Particle Parameter Inversion and Error Analysis Based on Remote Sensing Data [O] . Huige Di, Qiyu Wang, Hangbo Hua, 2018

机译：基于遥感数据的气溶胶微物理粒子参数反转与误差分析
8. Determination of the Aerosol Microphysical Characteristics in the Lower Part of the Marine Atmospheric Boundary Layer from Lidar Data and Accompanying Measurements [R] . Zolotov, I. G. 2005

机译：从激光雷达数据和伴随测量确定海洋大气边界层下部的气溶胶微物理特征

Determination of Integral Microphysical Parameters of Multicomponent Aerosols from Data of Atmospheric Sensing by Lidars Based on an Nd:YAG Laser

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