Atmospheric water vapor measurements with an infrared /10-micron/ differential-absorption lidar system (for air pollution monitoring)

The recent design, construction, and operation of the first infrared differential-absorption lidar system for remote range-resolved sensing of gaseous species are described. The target gas in the present case was water vapor, which was measured using several CO2 laser lines near 10.3 microns. Profil...

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Veröffentlicht in:	Applied physics letters 1976-05, Vol.28, p.542
Hauptverfasser:	Murray, E R, HAKE, R D, J R, VAN DER LAAN, J E, Hawley, J G
Format:	Artikel
Sprache:	eng
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container_title	Applied physics letters
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creator	Murray, E R HAKE, R D, J R VAN DER LAAN, J E Hawley, J G
description	The recent design, construction, and operation of the first infrared differential-absorption lidar system for remote range-resolved sensing of gaseous species are described. The target gas in the present case was water vapor, which was measured using several CO2 laser lines near 10.3 microns. Profiling of the concentration of many air pollutants to a horizontal range of at least 12 km appears feasible with commercially available components.
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title	Atmospheric water vapor measurements with an infrared /10-micron/ differential-absorption lidar system (for air pollution monitoring)
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