Retrieval of water cloud characteristic from active sensor data using the analytical solution of radiative transfer equation |
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Authors: | W Cai SK Gayen |
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Institution: | aInstitute for Ultrafast Spectroscopy and Lasers, Department of Physics, The City College and Graduate Center of City University of New York, New York, NY 10031, USA |
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Abstract: | An analytical forward model and numerical algorithm for retrieving the parameters of water cloud of earth atmosphere from optical measurements carried out by satellite-based lidars is presented. The forward model, based on the analytical solution of the radiative transfer equation, is used to fit the temporal profile of the laser light pulses backscattered from the cloud layers. The cloud parameters extracted from the analysis at each position on earth include the transport mean free path, the average radius of water drops, the density of drops, the scattering length, the scattering cross section, the anisotropy factor, and the altitude of top level of major clouds. Also estimated is the possible thickness of cloud layers. The efficacy of the approach is demonstrated by generating parameters of water cloud using the data collected by NASA's cloud-aerosol lidar and infrared pathfinder satellite observations (CALIPSO) satellite when it passed through North America on August 7, 2007. |
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Keywords: | Water cloud characteristic Active sensor data Radiative transfer |
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