We developed an airborne compact rotational Raman lidar (CRL) for use on the University of Wyoming King Air (UWKA) aircraft to obtain two-dimensional (2D) temperature distributions. It obtained fine-scale 2D temperature distributions within 3 km below the aircraft for the first time during the PECAN (Plains Elevated Convection At Night) campaign in 2015. The CRL provided nighttime temperature measurements with a random error of <0.5 K within 800 m below aircraft at 45 m vertical and 1000 m horizontal resolution. The temperatures obtained by the CRL and a radiosonde agreed. Along with water vapor and aerosol measurements, the CRL provides critical parameters on the state of the lower atmosphere for a wide range of atmospheric research.
Airborne compact rotational Raman lidar for temperature measurement
Wu, D., Z. Wang, P. Wechsler, N. Mahon, . Min, . Deng, B. Glover, M. Burkhart, W. Kuestner, and B. Heesen (2016), Airborne compact rotational Raman lidar for temperature measurement, Optics Express, 24, A1210, doi:10.1364/OE.24.0A1210.
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