Patrick Raberanto
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View article: The surface longwave cloud radiative effect derived from space lidar observations
The surface longwave cloud radiative effect derived from space lidar observations Open
Clouds warm the surface in the longwave (LW), and this warming effect can be quantified through the surface LW cloud radiative effect (CRE). The global surface LW CRE has been estimated over more than 2 decades using space-based radiometer…
View article: Comment on amt-2021-392
Comment on amt-2021-392 Open
Abstract. Clouds warm the surface in the longwave (LW), and this warming effect can be quantified through the surface LW cloud radiative effect (CRE). The global surface LW CRE has been estimated over more than 2 decades using space-based …
View article: The Surface Longwave Cloud Radiative Effect derived from Space Lidar Observations
The Surface Longwave Cloud Radiative Effect derived from Space Lidar Observations Open
Clouds warm the surface in the longwave (LW) and this warming effect can be quantified through the surface LW cloud radiative effect (CRE). The global surface LW CRE is estimated using long-term observations from space-based radiometers (2…
View article: Life cycle resolved observation of radiative properties of mesoscale convective systems
Life cycle resolved observation of radiative properties of mesoscale convective systems Open
The evolution of radiative properties (outgoing longwave radiation, OLR, and albedo at the top of the atmosphere) over Mesoscale Convective System (MCS) life cycle is assessed using five years of Scanner for Radiation Budget (ScaRaB) radio…
View article: Homogenization of Geostationary Infrared Imager Channels for Cold Cloud Studies Using Megha-Tropiques/ScaRaB
Homogenization of Geostationary Infrared Imager Channels for Cold Cloud Studies Using Megha-Tropiques/ScaRaB Open
International audience
View article: The Diurnal Cycles of Cloud Profiles and Water Vapor over Land and Ocean seen by the CATS Spaceborne Lidar and Megha-Tropiques Sensors
The Diurnal Cycles of Cloud Profiles and Water Vapor over Land and Ocean seen by the CATS Spaceborne Lidar and Megha-Tropiques Sensors Open
International audience
View article: Direct atmosphere opacity observations from CALIPSO provide new constraints on cloud‐radiation interactions
Direct atmosphere opacity observations from CALIPSO provide new constraints on cloud‐radiation interactions Open
The spaceborne lidar CALIPSO (Cloud‐Aerosol Lidar and Infrared Pathfinder Satellite Observation) directly measures atmospheric opacity. In 8 years of CALIPSO observations, we find that 69% of vertical profiles penetrate through the complet…
View article: The Megha-Tropiques mission: a review after three years in orbit
The Megha-Tropiques mission: a review after three years in orbit Open
International audience