Influence of Atmospheric Transmission on the Accuracy of Lidar Measurements of the Mie Scattering Power by Aerosol Particles

The current issue of improving the lidar measurements accuracy has been considered. For a monostatic aerosol lidar, the degree of influence of atmospheric transmission at the selected laser radiation wavelengths on the lidar signal error has been estimated. Numerical simulation of the lidar equation...

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Veröffentlicht in:	Measurement techniques 2022-04, Vol.65 (1), p.33-37
Hauptverfasser:	Privalov, V. E., Cherbachi, Yu. V., Shemanin, V. G.
Format:	Artikel
Sprache:	eng
Schlagworte:	Aerosols Analytical Chemistry Atmospheric boundary layer Atmospheric physics Characterization and Evaluation of Materials Error analysis Lidar Measurement Measurement Science and Instrumentation Mie scattering Numerical analysis Optical radar Optophysical Measurements Physical Chemistry Physics Physics and Astronomy Planetary boundary layer Radiation Remote sensing Wavelengths
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description	The current issue of improving the lidar measurements accuracy has been considered. For a monostatic aerosol lidar, the degree of influence of atmospheric transmission at the selected laser radiation wavelengths on the lidar signal error has been estimated. Numerical simulation of the lidar equation for Mie scattering by atmospheric aerosol particles during vertical remote sensing of the atmospheric boundary layer up to 1500 m has been carried out. It has been shown that taking into account the measurement error of the extinction coefficient at the selected laser radiation wavelengths leads to limitation of the ranging distances to ensure the specified measurement error of the lidar signal. The results obtained can be applied to the development of new aerosol lidars.
doi_str_mv	10.1007/s11018-022-02052-1
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subjects	Aerosols Analytical Chemistry Atmospheric boundary layer Atmospheric physics Characterization and Evaluation of Materials Error analysis Lidar Measurement Measurement Science and Instrumentation Mie scattering Numerical analysis Optical radar Optophysical Measurements Physical Chemistry Physics Physics and Astronomy Planetary boundary layer Radiation Remote sensing Wavelengths
title	Influence of Atmospheric Transmission on the Accuracy of Lidar Measurements of the Mie Scattering Power by Aerosol Particles
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