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Table of Contents
Micro Rain Radar
Principle
The Micro Rain Radar (MRR) is a vertical pointing FM-CW (frequency modulated –continuous wave) Doppler radar operating at 24.1 GHz (K-band, 12.4 mm wavelength). The emitted radar signal (only 50 mW transmitting power) is backscattered by falling hydrometeors (rain, graupel, snow). From the Doppler spectra the radar reflectivity factor (Ze) and the terminal fall velocity distribution can be derived.
In case of rain the Doppler spectra can be used to derive vertical profiles of microphysical rain properties like drop size distribution and rain rate.
The MRR system was also studied for its potential to observe snowfall (Kneifel et al., 2011). Also, an improved MRR algorithm most suitable for snowfall observations has been developed at IGMK (Maahn and Kollias, 2012). It is freely available on Github.
Measurement modes
- Vertically pointing observations with integration times from 10 to 3600 seconds.
- The range resolution can be varied from 10 to 200 m which determines together with the 30 range gates the system's maximum height range of 300 to 6000 m.
JOYCE-CF Standard Operation Procedures
- Temporal resolution 10 seconds
- Vertical resolution 35 meters (max. range = 1085 m)
Calibrations and data quality assurance procedures
* ImProToo features a noise removal based on recognition of the most significant peak and a dynamic dealiasing routine which allows observations even if the Nyquist velocity range is exceeded.
Data availability
Some of the following data products are provided via Cloudnet ACTRIS cloudnet website with a temporal resolution of 30 seconds. If you would like to have additional data with better resolution or raw Doppler spectra please fill the data request sheet and send it to info@joyce.cloud
Dataset | Temporal resolution | File size | Filename | Remarks |
---|---|---|---|---|
Radar reflectivity factor | 30 seconds | 1 file per day (30-50 MB) | YYYYMMDD_juelich_categorize.nc | available via Cloudnet |
Doppler velocity | 30 seconds | 1 file per day (30-50 MB) | YYYYMMDD_juelich_categorize.nc | available via Cloudnet |
Spectral width | 30 seconds | 1 file per day (30-50 MB) | YYYYMMDD_juelich_categorize.nc | available via Cloudnet |
Linear depolarization ratio | 30 seconds | 1 file per day (30-50 MB) | YYYYMMDD_juelich_categorize.nc | available via Cloudnet |
Profiles of horizontal wind | 30 minutes | 1 file per day (30-50 MB) | YYYYMMDD_joyrad35_wind_profile.nc | |
Radar moments | 2 seconds | variable size (up to 30 MB/hour in case of thick clouds) | YYYYMMDD_HHMM.mmclx.gz | zipped NetCDF file |
Doppler spectra, Radar moments | 2 seconds | variable size (up to 2 GB/hour in case of thick clouds) | YYYYMMDD_HHMM.znc | NetCDF file |
Doppler spectra | 2 seconds | variable size (up to 1 GB/hour in case of thick clouds) | YYYYMMDD_HHMM.zspc | Binary file |
Link to current observations
Data quicklooks can be found in the JOYCE quicklook archive and in the METEK archive
Measurement examples
JOYRAD-35 History
Period | Place | Project |
---|---|---|
2017 | Instrument upgrade | |
09/03/2012 - today | Research Center Jülich, Germany | JOYCE |
08/11/2011 - 08/03/2012 | Munich Airport, Germany | iPort campaign |
03/2011 - 07/11/2011 | Research Center Jülich, Germany | JOYCE |
Technical Specifications
Parameter | Specification |
---|---|
Frequency | 24.1 GHz |
Wavel | 12.4 mm |
Radar Type | FM-CW |
Transmit Power | 50 mW |
Receiver | Single Polarization |
Power consumption (radar) | 25 W |
Total power cons. incl heating | 525 W |
Max. range | 6 km |
Range Resolution | 10-200 m |
No. of range gates | 30 |
Temporal resolution | 10 s |
Antenna diameter | 0.5 m |
Beam width (2-way, 6 dB) | 1.5° |
Manufacturer | Metek |