The potential of multifrequency Doppler spectra to constrain precipitation microphysics has so far only been exploited for dual-frequency spectra in rain. In this study, we extend the dual-frequency concept to triple-frequency Doppler radar spectra obtained during a snowfall event which included rimed and unrimed snow aggregates. A large selection of spectra obtained from low-turbulence regions within the cloud reveals distinctly different signatures of the derived dual spectral ratios. Due to the third frequency, a characteristic curve can be derived which is almost independent of the underlying particle size distribution and velocity-size relation. This approach provides new opportunities for validating existing and future snow scattering...
The accurate representation of ice particles is essential for both remotely sensed estimates of clou...
Quantitative precipitation estimation (QPE) of snowfall has generally been expressed in power-law fo...
With triple frequency radars becoming more and more popular both at ground-based facilities and on a...
The potential of multifrequency Doppler spectra to constrain precipitation microphysics has so far o...
This paper describes a 2-month dataset of ground-based triple-frequency (X, Ka, and W band) Doppler ...
By exploiting novel measurements from vertically pointing multi-frequency Doppler radars, this study...
Radar dual-wavelength ratio (DWR) measurements from the Stony Brook Radar Observatory Ka-band scanni...
An algorithm based on triple-frequency (X, Ka, W) radar measurements that retrieves the size, water ...
2015JD023156Recently published studies of triple-frequency radar observations of snowfall have demon...
International audienceThe use of meteorological radars to study snowfall microphysical properties an...
Particle scattering models have shown that aggregates and spherical particles occupy distinct region...
The dataset collected during the Radar Snow Experiment (RadSnowExp) presents the first-ever airborne...
International audienceThe use of meteorological radars to study snowfall microphysical properties an...
We have developed an algorithm that retrieves the size, number concentration and density of falling ...
This study investigates the link between rain and ice microphysics across the melting layer in strat...
The accurate representation of ice particles is essential for both remotely sensed estimates of clou...
Quantitative precipitation estimation (QPE) of snowfall has generally been expressed in power-law fo...
With triple frequency radars becoming more and more popular both at ground-based facilities and on a...
The potential of multifrequency Doppler spectra to constrain precipitation microphysics has so far o...
This paper describes a 2-month dataset of ground-based triple-frequency (X, Ka, and W band) Doppler ...
By exploiting novel measurements from vertically pointing multi-frequency Doppler radars, this study...
Radar dual-wavelength ratio (DWR) measurements from the Stony Brook Radar Observatory Ka-band scanni...
An algorithm based on triple-frequency (X, Ka, W) radar measurements that retrieves the size, water ...
2015JD023156Recently published studies of triple-frequency radar observations of snowfall have demon...
International audienceThe use of meteorological radars to study snowfall microphysical properties an...
Particle scattering models have shown that aggregates and spherical particles occupy distinct region...
The dataset collected during the Radar Snow Experiment (RadSnowExp) presents the first-ever airborne...
International audienceThe use of meteorological radars to study snowfall microphysical properties an...
We have developed an algorithm that retrieves the size, number concentration and density of falling ...
This study investigates the link between rain and ice microphysics across the melting layer in strat...
The accurate representation of ice particles is essential for both remotely sensed estimates of clou...
Quantitative precipitation estimation (QPE) of snowfall has generally been expressed in power-law fo...
With triple frequency radars becoming more and more popular both at ground-based facilities and on a...
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