Add to ORKGClouds and associated precipitation are the largest source of uncertainty in current weather and future climate simulations. Observations of the microphysical, dynamical and radiative processes that act at cloud-scales are needed to improve our understanding of clouds. The rapid expansion of ground-based super-sites and the availability of continuous profiling and scanning multi-frequency radar observations at 35 and 94 GHz have significantly improved our ability to probe the internal structure of clouds in high temporal-spatial resolution, and to retrieve quantitative cloud and precipitation properties. However, there are still gaps in our ability to probe clouds due to large uncertainties in the retrievals. The present work discusses the ...
Ground-based radar systems have been used to observe clouds and precipitation since the 1940s. While...
Observations collected during the 25-February-2020 deployment of the Vapor In-Cloud Profiling Radar ...
The 94-GHz (W-band) Cloud Radar System (CRS) has been developed and flown on a NASA ER-2 high-altitu...
Clouds and associated precipitation are the largest source of uncertainty in current weather and f...
The first Doppler spectra ever acquired by an atmospheric radar at 200 GHz (G-band) are presented. T...
The first Doppler spectra ever acquired by an atmospheric radar at 200 GHz (G-band) are presented. T...
It is demonstrated that millimeter-wavelength radars that are designed primarily for cloud studies c...
High-resolution boundary-layer water vapor profile observations are essential for understanding the ...
The Eastern Pacific Cloud Aerosol Precipitation Experiment (EPCAPE) is a year-round campaign conduct...
International audienceDoppler cloud radars are amazing tools to characterize cloud and fog propertie...
Cloud measurements at millimeter-wave frequencies are affected by attenuation due to atmospheric gas...
For a long period of time FHR is developing millimetre wave radars for airborne remote sensing appli...
According to a report of the Intergovernmental Panel on Climate Change (IPCC, 2007) one of the large...
Ground-based radar systems have been used to observe clouds and precipitation since the 1940s. While...
Observations collected during the 25-February-2020 deployment of the Vapor In-Cloud Profiling Radar ...
The 94-GHz (W-band) Cloud Radar System (CRS) has been developed and flown on a NASA ER-2 high-altitu...
Clouds and associated precipitation are the largest source of uncertainty in current weather and f...
The first Doppler spectra ever acquired by an atmospheric radar at 200 GHz (G-band) are presented. T...
The first Doppler spectra ever acquired by an atmospheric radar at 200 GHz (G-band) are presented. T...
It is demonstrated that millimeter-wavelength radars that are designed primarily for cloud studies c...
High-resolution boundary-layer water vapor profile observations are essential for understanding the ...
The Eastern Pacific Cloud Aerosol Precipitation Experiment (EPCAPE) is a year-round campaign conduct...
International audienceDoppler cloud radars are amazing tools to characterize cloud and fog propertie...
Cloud measurements at millimeter-wave frequencies are affected by attenuation due to atmospheric gas...
For a long period of time FHR is developing millimetre wave radars for airborne remote sensing appli...
According to a report of the Intergovernmental Panel on Climate Change (IPCC, 2007) one of the large...
Ground-based radar systems have been used to observe clouds and precipitation since the 1940s. While...
Observations collected during the 25-February-2020 deployment of the Vapor In-Cloud Profiling Radar ...
The 94-GHz (W-band) Cloud Radar System (CRS) has been developed and flown on a NASA ER-2 high-altitu...