Title :
Polarimetric radar signatures of precipitation at S- and C-bands
Author :
Bringi, V.N. ; Chandrasekar, V. ; Meischner, P. ; Hubbert, J. ; Golestani, Y.
Author_Institution :
Dept. of Electr. Eng., Colorado State Univ., Fort Collins, CO, USA
fDate :
4/1/1991 12:00:00 AM
Abstract :
Time series data were obtained from three advanced radars: the National Center for Atmospheric Research (NCAR) CP-2 radar, the National Severe Storms Laboratory´s (NSSL) Cimarron radar, and the C-band Poldirad radar operated by the German Aerospace Research Establishment (DLR). Measurements of radar reflectivity, differential reflectivity ZDR, differential propagation phase φDP , and the crosscorrelation between horizontal and vertical polarised waves are derived from time series data in rain, rain mixed with ice, and in the stratiform ice phase of convective storms. Raindrops are modelled as oblate in shape with a gamma form for their size distribution. The gamma parameters (No, D o, m) are varied over an entire range encompassing a wide variety of rainfall types. The radar rain measurements are shown to be in good general agreement with the model rain simulations. By combining ZDR and φDP it is possible to identify regions of mixed particle types, e.g. raindrops and hail, or ice crystals and snowflakes
Keywords :
atmospheric precipitation; backscatter; radar clutter; remote sensing by radar; C-band; CP-2 radar; Cimarron radar; Poldirad radar; S-band; convective storms; differential propagation phase; differential reflectivity; gamma distribution; hail; horizontal polarised waves; ice crystals; polarimetric radar signatures; precipitation; radar reflectivity; rain; raindrops; size distribution; snowflakes; stratiform ice phase; time series data; vertical polarised waves;
Journal_Title :
Radar and Signal Processing, IEE Proceedings F
