International audienceAccurate determination of thermodynamic cloud phase is critical for establishing the radiative impact of clouds on climate and weather. Depolarization of the Cloud-Aerosol Lidar with Orthogonal Polarization (CALIOP) 532 nm signal provides an independent piece of information for determining cloud phase, a critical addition to other methods of thermodynamic phase discrimination that rely on temperature, cloud top altitude or a temperature-based cloud phase climatology. The CALIOP phase algorithm primarily uses layer-integrated depolarization and attenuated backscatter to determine the dominant thermodynamic phase of hydrometeors present in a vertical cloud layer segment, at horizontal resolutions varying between 333 m an...
The cloud thermodynamic phase is a crucial parameter to understand the Earth’s radiation budge...
International audienceData products from the Cloud-Aerosol Lidar with Orthogonal Polarization (CALIO...
International audienceThe global spatial and diurnal distribution of cloud properties is a key issue...
International audienceAccurate determination of thermodynamic cloud phase is critical for establishi...
International audienceCloud phase recognition is important for cloud studies. Ice crystals correspon...
Determining cloud thermodynamic phase is a critical factor in studies of Earth's radiation budget. H...
International audienceLevel 1 measurements, including cross-polarized backscatter, from the Cloud-Ae...
Accurate measurements of cloud properties are necessary to document the full range of cloud conditio...
The unambiguous retrieval of cloud phase from polarimetric lidar observations is dependent on the as...
Cloud thermodynamic phase (e.g., ice, liquid) classification is an important first step for cloud re...
The Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Operations (CALIPSO) mission released vers...
The French–German Arctic research base AWIPEV (the Alfred Wegener Institute Helmholtz Centre for Pol...
International audienceCloud thermodynamic phase (ice, liquid, undetermined) classification is an imp...
International audienceTwo different cloud climatologies have been derived from the same NASA-Cloud-A...
The cloud thermodynamic phase is a crucial parameter to understand the Earth’s radiation budge...
International audienceData products from the Cloud-Aerosol Lidar with Orthogonal Polarization (CALIO...
International audienceThe global spatial and diurnal distribution of cloud properties is a key issue...
International audienceAccurate determination of thermodynamic cloud phase is critical for establishi...
International audienceCloud phase recognition is important for cloud studies. Ice crystals correspon...
Determining cloud thermodynamic phase is a critical factor in studies of Earth's radiation budget. H...
International audienceLevel 1 measurements, including cross-polarized backscatter, from the Cloud-Ae...
Accurate measurements of cloud properties are necessary to document the full range of cloud conditio...
The unambiguous retrieval of cloud phase from polarimetric lidar observations is dependent on the as...
Cloud thermodynamic phase (e.g., ice, liquid) classification is an important first step for cloud re...
The Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Operations (CALIPSO) mission released vers...
The French–German Arctic research base AWIPEV (the Alfred Wegener Institute Helmholtz Centre for Pol...
International audienceCloud thermodynamic phase (ice, liquid, undetermined) classification is an imp...
International audienceTwo different cloud climatologies have been derived from the same NASA-Cloud-A...
The cloud thermodynamic phase is a crucial parameter to understand the Earth’s radiation budge...
International audienceData products from the Cloud-Aerosol Lidar with Orthogonal Polarization (CALIO...
International audienceThe global spatial and diurnal distribution of cloud properties is a key issue...