Add to ORKGThe dataset collected during the Radar Snow Experiment (RadSnowExp) presents the first-ever airborne triple-frequency radar observations combined with almost perfectly co-located and coincident airborne microphysical measurements from a single platform, the National Research Council Canada (NRC) Convair-580 aircraft. The potential of this dataset is illustrated using data collected from one flight during an Arctic storm, which covers a wide range of snow habits from pristine ice crystals and low-density aggregates to heavily rimed particles with maximum size exceeding 10ĝmm. Three different flight segments with well-matched in situ and radar measurements were analyzed, giving a total of 49ĝmin of triple-frequency observations. The in situ p...
2015JD023156Recently published studies of triple-frequency radar observations of snowfall have demon...
High-latitude processes and polar cloud microphysics envelop research areas the furtherance of which...
By exploiting novel measurements from vertically pointing multi-frequency Doppler radars, this study...
The dataset collected during the Radar Snow Experiment (RadSnowExp) presents the first-ever airborne...
An algorithm based on triple-frequency (X, Ka, W) radar measurements that retrieves the size, water ...
Particle scattering models have shown that aggregates and spherical particles occupy distinct region...
The link between stratiform precipitation microphysics and multifrequency radar observables is thoro...
This paper describes a 2-month dataset of ground-based triple-frequency (X, Ka, and W band) Doppler ...
The accurate representation of ice particles is essential for both remotely sensed estimates of clou...
The OLYMPEX field campaign took place over the Olympic Peninsula of Washington during winter 2015-20...
Radar dual-wavelength ratio (DWR) measurements from the Stony Brook Radar Observatory Ka-band scanni...
The potential of multifrequency Doppler spectra to constrain precipitation microphysics has so far o...
MIT Lincoln Laboratory is tasked by the U.S. Federal Aviation Administration to investigate the use ...
We have developed an algorithm that retrieves the size, number concentration and density of falling ...
The dendritic growth layer (DGL), defined as the temperature region between -20 and -10 °C, plays an...
2015JD023156Recently published studies of triple-frequency radar observations of snowfall have demon...
High-latitude processes and polar cloud microphysics envelop research areas the furtherance of which...
By exploiting novel measurements from vertically pointing multi-frequency Doppler radars, this study...
The dataset collected during the Radar Snow Experiment (RadSnowExp) presents the first-ever airborne...
An algorithm based on triple-frequency (X, Ka, W) radar measurements that retrieves the size, water ...
Particle scattering models have shown that aggregates and spherical particles occupy distinct region...
The link between stratiform precipitation microphysics and multifrequency radar observables is thoro...
This paper describes a 2-month dataset of ground-based triple-frequency (X, Ka, and W band) Doppler ...
The accurate representation of ice particles is essential for both remotely sensed estimates of clou...
The OLYMPEX field campaign took place over the Olympic Peninsula of Washington during winter 2015-20...
Radar dual-wavelength ratio (DWR) measurements from the Stony Brook Radar Observatory Ka-band scanni...
The potential of multifrequency Doppler spectra to constrain precipitation microphysics has so far o...
MIT Lincoln Laboratory is tasked by the U.S. Federal Aviation Administration to investigate the use ...
We have developed an algorithm that retrieves the size, number concentration and density of falling ...
The dendritic growth layer (DGL), defined as the temperature region between -20 and -10 °C, plays an...
2015JD023156Recently published studies of triple-frequency radar observations of snowfall have demon...
High-latitude processes and polar cloud microphysics envelop research areas the furtherance of which...
By exploiting novel measurements from vertically pointing multi-frequency Doppler radars, this study...