Add to ORKGThe radar Doppler spectrum contains a wealth of information on cloud microphysical properties. Typically, radar-based cloud retrievals use only the zeroth or first moments of the Doppler spectrum – reflectivity and mea
A method for deriving vertical air motions from cloud radar Doppler spectrum measurements is intro-d...
The paper describes an original method that is complementary to the radar–lidar algorithm method to ...
Retrievals of ice-cloud properties from cloud-radar observations are challenging because the retriev...
In the early sixties, radar meteorologists acknowledged the potential of retrieving cloud and precip...
Radar-based retrievals are often employed to characterize the microphysical properties of cloud hydr...
Due to their short wavelength, millimeter radars are capable of detecting very small droplets. This ...
Towards the improvement of cloud microphysical retrievals using simultaneous Doppler and polarimetri...
Cloud Doppler radars are increasingly used to study cloud and precipitation microphysical processes....
The interaction of ice crystals with supercooled liquid droplets in mixed-phase clouds leads to an e...
Clouds and associated precipitation are the largest source of uncertainty in current weather and fut...
The purpose of the research reported in this paper is to develop a variational data analysis system ...
Understanding the onset of coalescence in warm clouds is key in our effort to improve cloud represen...
The paper describes an original method that is complementary to the radar–lidar algorithm method to ...
In the field of atmospheric research, ground-based radar systems are often employed to study ice/mix...
In many types of clouds, multiple hydrometeor populations can be present at the same time and height...
A method for deriving vertical air motions from cloud radar Doppler spectrum measurements is intro-d...
The paper describes an original method that is complementary to the radar–lidar algorithm method to ...
Retrievals of ice-cloud properties from cloud-radar observations are challenging because the retriev...
In the early sixties, radar meteorologists acknowledged the potential of retrieving cloud and precip...
Radar-based retrievals are often employed to characterize the microphysical properties of cloud hydr...
Due to their short wavelength, millimeter radars are capable of detecting very small droplets. This ...
Towards the improvement of cloud microphysical retrievals using simultaneous Doppler and polarimetri...
Cloud Doppler radars are increasingly used to study cloud and precipitation microphysical processes....
The interaction of ice crystals with supercooled liquid droplets in mixed-phase clouds leads to an e...
Clouds and associated precipitation are the largest source of uncertainty in current weather and fut...
The purpose of the research reported in this paper is to develop a variational data analysis system ...
Understanding the onset of coalescence in warm clouds is key in our effort to improve cloud represen...
The paper describes an original method that is complementary to the radar–lidar algorithm method to ...
In the field of atmospheric research, ground-based radar systems are often employed to study ice/mix...
In many types of clouds, multiple hydrometeor populations can be present at the same time and height...
A method for deriving vertical air motions from cloud radar Doppler spectrum measurements is intro-d...
The paper describes an original method that is complementary to the radar–lidar algorithm method to ...
Retrievals of ice-cloud properties from cloud-radar observations are challenging because the retriev...