Paper
13 August 2004 Multifrequency sounding with DF-laser-based lidar system: preliminary results
Vladimir Ya. Agroskin, Boris G. Bravy, Yurii A. Chernyshev, Vladimir I. Kirianov, Evgenii F. Makarov, Valerii G. Papin, Sergey A. Sotnichenko, German K. Vasiliev
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Abstract
Performance capabilities of the developed multifrequency lidar system based on the pulsed chain chemical DF laser are presented in the paper. The purpose of the research and development is the creation of a lidar for the detection and recognition of aerosol impurities in the atmosphere, and the main attention is paid to realization of these resources of the system. Based on the numerical modeling data, the restrictions to the statement of the recognition problem are formulated. It is shown that the lidar performance characteristics allow to detect and to recognize aerosol impurities in the atmosphere for distances of up to 10 - 15 km.
© (2004) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Vladimir Ya. Agroskin, Boris G. Bravy, Yurii A. Chernyshev, Vladimir I. Kirianov, Evgenii F. Makarov, Valerii G. Papin, Sergey A. Sotnichenko, and German K. Vasiliev "Multifrequency sounding with DF-laser-based lidar system: preliminary results", Proc. SPIE 5416, Chemical and Biological Sensing V, (13 August 2004); https://doi.org/10.1117/12.541313
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Cited by 4 scholarly publications.
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KEYWORDS
LIDAR

Aerosols

Atmospheric particles

Telescopes

Deuterium fluoride lasers

Mirrors

Clouds

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