An Unattended Cloud-Profiling Radar for Use in Climate Research

Moran, K. P.; Martner, Brooks E.; Post, Madison J.; Kropfli, R. A.; Welsh, D. C.; Widener, Kevin B.

doi:10.1175/1520-0477(1998)079<0443:aucprf>2.0.co;2

Cited by 327 publications

(274 citation statements)

References 27 publications

(26 reference statements)

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“…Cloud radars now operate routinely or quasiroutinely at a number of surface sites worldwide (e.g., Moran et al 1998). These millimeter-wavelength radars operate at wavelengths of approximately 3 or 8 mm (or frequencies of 94 or 35 GHz, respectively) and are currently deployed on various research aircraft.…”

Section: The Cloudsat Radarmentioning

confidence: 99%

The Cloudsat Mission and the a-Train

Stephens

Vane

Boain

et al. 2002

Bull. Amer. Meteor. Soc.

1,915

968

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Section: The Cloudsat Radarmentioning

confidence: 99%

The Cloudsat Mission and the a-Train

Stephens

Vane

Boain

et al. 2002

Bull. Amer. Meteor. Soc.

1,915

968

View full text Add to dashboard Cite

“…Since its first days in the early 1990s, the ARM program has invested heavily (both financially and intellectually) in the development of remote sensing instrumentation and methods to retrieve parameters of atmospheric water vapor and clouds in both ice and liquid phases. The K a -band (34.6 GHz) millimeter wavelength cloud radar (MMCR; Moran et al 1998) designed by the National Oceanic and Atmospheric Administration's Environmental Technology Laboratory (NOAA/ETL) has been one of the most successful ARM instruments for collecting vertically resolved cloud information. Long records of MMCR measurements are available from Cloud and Radiation Test bed (CART) sites located in the key areas over the globe, including Oklahoma, Alaska, Australia, and islands of the Pacific Ocean.…”

Section: Introductionmentioning

confidence: 99%

Rainfall Profiling Using Atmospheric Radiation Measurement Program Vertically Pointing 8-mm Wavelength Radars

Matrosov

May

Shupe

2006

Journal of Atmospheric and Oceanic Technology

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An attenuation-based method to retrieve vertical profiles of rainfall rate from vertically pointing K a -band radar measurements has been refined and adjusted for use with the U.S. Department of Energy's cloud radars deployed at multiple Atmospheric Radiation Program (ARM) test bed sites. This method takes advantage of the linear relationship between the rainfall rate and the attenuation coefficient, and can account for a priori information about the vertical profile of nonattenuated reflectivity. The retrieval method is applied to a wide variety of rainfall events observed at different ARM sites ranging from stratiform events with low-to-moderate rainfall rates (ϳ5 mm h Ϫ1 ) to heavy convective rains with rainfall rates approaching 100 mm h Ϫ1 . The K a -band attenuation-based retrieval results expressed in both instantaneous rainfall rates and in rainfall accumulations are compared to available surface data and measurements of a scanning C-band precipitation polarimetric radar located near the Darwin, Australia, ARM test bed site. The K a -band retrievals are found to be in good agreement with the C-band radar estimates, which are based both on conventional radar reflectivity approaches and on polarimetric differential phase shift measurements. Typically, the C-band-K a -band radar estimate differences are within the expected retrieval uncertainties. The magnitude of the K a -band rainfall-rate estimate error depends on the retrieval resolution, rain intensity, and uncertainties in the profiles of nonattenuated reflectivity. It is shown that reasonable retrieval accuracies (ϳ15%-40%) can be achieved for a large dynamic range of observed rainfall rates (4-100 mm h Ϫ1 ) and the effective vertical resolution of about 1 km. The potential enhancements of the K a -band attenuation-based method by including a priori information on vertical profiles of nonattenuated reflectivity and increasing the height range of the retrievals by using K a -band polarization measurements are also discussed. The addition of the precipitation products to the suite of ARM hydrometeor retrievals can enhance the overall characterization of the vertical atmospheric column.

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“…The transmitters for 36 GHz radars are usually based on conventional magnetrons or travelling-wave tubes (TWT). The magnetron transmitters, however, often suffer from a low reliability of conventional magnetrons for this frequency band [7]. The application of TWTs makes it necessary to use a pulse compression technique, since such tubes have typically a low level of the peak power, but they can operate with a high value of the duty factor [7].…”

Section: Radar Ttransmittersmentioning

confidence: 99%

“…During the last decade, there are growing activities related both with the development and applications of the millimeter-wave radar systems [4][5][6][7]. Such activities have been stimulated by several international programs aimed at investigating the global climate change.…”

Section: Introductionmentioning

confidence: 99%

Millimeter-Wave Radars for Environmental Studies

et al. 2004

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A review is given of recent activities undertaken in the Institute of Radio Astronomy of the National Academy of Sciences of Ukraine for the development of millimeter-wave radars. The radars constructed include cloud radars and a side-looking airborne radar system. They are capable to perform real-time, high-resolution measurements in the frequency bands of 36 and 95 GHz. The setup of these instruments, the novel technical solutions, and the signal processing technique introduced are discussed. The results obtained with such instruments during measurement campaigns are presented as well.

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An Unattended Cloud-Profiling Radar for Use in Climate Research

Cited by 327 publications

References 27 publications

The Cloudsat Mission and the a-Train

The Cloudsat Mission and the a-Train

Rainfall Profiling Using Atmospheric Radiation Measurement Program Vertically Pointing 8-mm Wavelength Radars

Millimeter-Wave Radars for Environmental Studies

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