1R.1
Keynote Talk: Recent Advances in the Use of Millimeter-Wavelength Radars for Atmospheric Research
B. A. Albrecht, Univ. of Miami/RSMAS, Miami, FL
During the past 20 years there has been substantial progress on the development and application of mm-wavelength radars (radars frequency at 35- and 94-GHz) from various platforms (e.g., ground-based, airborne, ship-borne and space-borne) for a wide range of studies requiring observations of cloud microphysics and dynamics. Initially, millimeter wavelength radars were introduced as a new tool for cloud physics research, primary for the observation of low radar reflectivity clouds. Studies with these radars have ranged from detailed process studies to long-term monitoring activities that strive to improve our understanding of cloud processes on a wide range of space and time scales.
Due to their short wavelength, millimeter radars are capable of detecting very small droplets with diameters of tens of microns. In addition to their high sensitivity, millimeter radars can be configured to have excellent temporal and spatial resolution and can operate with antennas that have a very narrow beamwidth. These factors result in sampling volumes that are very small compared with those of longer wavelength radars. This reduced sampling volume decreases the effects of the Doppler spectrum broadening due to turbulence. The capability of mm-wave radars for cloud detection and their portability make them a good tool for studying cloud microphysics and dynamics of boundary layer clouds and cirrus. Because of the deep Mie backscattering oscillations occurring in the raindrop particle size range, the 94-GHz radars are also an attractive choice for vertical air motion and drop size distribution measurements in rain, particularly when used in conjunction with centimeter wavelength Doppler radars.
This paper will provide an overview of recent activities involving the development of cloud radars and associated retrieval techniques and a review of results from process studies and long-term monitoring projects where mm-wavelength radar observations play a critical role in improving our understanding of cloud and precipitation processes.
Recorded presentation
Session 1R, Mm-wave radar and CloudSat
Monday, 24 October 2005, 10:30 AM-12:15 PM, Alvarado ABCD
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