Add to ORKGatmospheric research, no radar bright band is observed at the melting layer. In this study, simulations of a vertical profile of melting particles and their scattering properties for a variety of melting particle models are used to capture the basic features of the radar reflectivity structure at 94 GHz in the melting layer. Observations of stratiform precipitation from vertically pointing 3 GHz and 94 GHz radars are used for comparison with the model results. The simulations show good agreement with the observations. The melting of precipitating particles results in an abrupt increase in the radar reflectivity at 94 GHz without a subsequent decrease at the base of the melting layer. The simulations also captured a small decrease in the rad...
Abstruct-A simple physical model of the melting layer of precipitation is presented. It is able to s...
International audienceMost civil aviation aircraft are equipped with meteorological radar working at...
Abstract The melting layer of precipitation has a major impact on remote sensing and telecommunicati...
The melting layer in precipitation is physically modeled and compared with high resolution Doppler r...
A model of the melting layer is employed on radar measurements to simulate the attenuation of radio ...
Comparing the reflectivity flux at the top and bottom of the melting layer (ML) reveals the overall ...
Attenuation and reflection of a melting layer are calculated using a meteorological model. The model...
The melting band has been a distinctive feature of the radar measurements of precipitation. It is pr...
The attenuation at X band caused by the melting layer of stratiformprecipitation is derived by compa...
Comparing the reflectivity flux at the top and bottom of the melting layer (ML) reveals the overall ...
A physically based method is developed to estimate the microphysical structure of the melting layer ...
The bright band is the enhanced radar echo associated with the melting of hydrometeors in stratiform...
Abstruct-A simple physical model of the melting layer of precipitation is presented. It is able to s...
International audienceMost civil aviation aircraft are equipped with meteorological radar working at...
Abstract The melting layer of precipitation has a major impact on remote sensing and telecommunicati...
The melting layer in precipitation is physically modeled and compared with high resolution Doppler r...
A model of the melting layer is employed on radar measurements to simulate the attenuation of radio ...
Comparing the reflectivity flux at the top and bottom of the melting layer (ML) reveals the overall ...
Attenuation and reflection of a melting layer are calculated using a meteorological model. The model...
The melting band has been a distinctive feature of the radar measurements of precipitation. It is pr...
The attenuation at X band caused by the melting layer of stratiformprecipitation is derived by compa...
Comparing the reflectivity flux at the top and bottom of the melting layer (ML) reveals the overall ...
A physically based method is developed to estimate the microphysical structure of the melting layer ...
The bright band is the enhanced radar echo associated with the melting of hydrometeors in stratiform...
Abstruct-A simple physical model of the melting layer of precipitation is presented. It is able to s...
International audienceMost civil aviation aircraft are equipped with meteorological radar working at...
Abstract The melting layer of precipitation has a major impact on remote sensing and telecommunicati...