Airborne Lidar Observations of Wind, Water Vapor, and Aerosol Profiles During The NASA Aeolus Cal/Val Test Flight Campaign

Author:

Bedka Kristopher M.ORCID,Nehrir Amin R.,Kavaya Michael,Barton-Grimley Rory,Beaubien Mark,Carroll Brian,Collins James,Cooney John,Emmitt G. David,Greco Steven,Kooi Susan,Lee Tsengdar,Liu ZhaoyanORCID,Rodier Sharon,Skofronick-Jackson GailORCID

Abstract

Abstract. Lidars are uniquely capable of collecting high precision and high spatio-temporal resolution observations that have been used for atmospheric process studies from the ground, aircraft, and space for many years. The Aeolus mission, the first space-borne Doppler wind lidar, was developed by the European Space Agency and launched in August 2018. Its novel Atmospheric LAser Doppler INstrument (ALADIN) observes profiles of the component of the wind vector and aerosol/cloud optical properties along the instrument’s line-of-sight (LOS) direction on a global scale. Two airborne lidar systems have been developed at NASA Langley Research Center in recent years that collect measurements in support of several NASA Earth Science Division focus areas. The coherent Doppler Aerosol WiNd (DAWN) lidar measures vertical profiles of LOS velocity along selected azimuth angles that are combined to derive profiles of horizontal wind speed and direction. The High Altitude Lidar Observatory (HALO) measures high resolution profiles of atmospheric water vapor (WV), and aerosol and cloud optical properties. Because there are limitations in terms of spatial and vertical detail and measurement precision that can be accomplished from space, airborne remote sensing observations like those from DAWN and HALO are required to fill these observational gaps as well as to calibrate and validate space-borne measurements. Over a two-week period in April 2019 during their Aeolus Cal/Val Test Flight campaign, NASA conducted five research flights over the Eastern Pacific Ocean with the DC-8 aircraft. The purpose was to demonstrate: 1) DAWN and HALO measurement capabilities across a range of atmospheric conditions, 2) Aeolus Cal/Val flight strategies and comparisons of DAWN and HALO measurements with Aeolus to gain an initial perspective of Aeolus performance, and 3) how atmospheric dynamic processes can be resolved and better understood through simultaneous observations of wind, WV, and aerosol profile observations, coupled with numerical model and other remote sensing observations. This paper provides a brief description of the DAWN and HALO instruments, discusses the synergistic observations collected across a wide range of atmospheric conditions sampled during the DC-8 flights, and gives a brief summary of the validation of DAWN, HALO, and Aeolus observations and comparisons. 

Funder

National Aeronautics and Space Administration

Publisher

Copernicus GmbH

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