====== Microwave Radar/Radiometer for Arctic Clouds MiRAC ======
//Mentors: [[https://geomet.uni-koeln.de/institut/beschaeftigte/mech/|M. Mech]] //


===== Principle =====

MiRAC consists of an active and a passive remote sensing component: a 94 GHz Frequency Modulated Continuous Wave (FMCW) cloud radar (MiRAC-A) and a low-humidity profiler LHUMPRO-243-340 (MiRAC-P). MiRAC can be operated on an aircraft (nadir looking) or from the ground (zenith observations).\\

The cloud radar transmits saw tooth frequency chirps at 94 GHz. In this way, vertical profiles of reflectivity, Doppler velocity, Doppler spectral width are detected from 150 m to 10 km above ground. Given these measurements, information on the macrophysical (cloud boundaries, type of cloud particles) and microphysical (e.g., liquid and ice water content) properties of the detected cloud can be derived. The radar is operated in a vertically pointing mode. Additionally, the system is equipped with a passive radiometric channel at 89 GHz that is sensible to cloud liquid water. Passive and active receivers are fed by the same antenna, i.e. a perfect beam overlap is accomplished.\\

The LHUMPRO-243-340 is a microwave radiometer which contains a set of passive high frequency channels at 183.31 GHz (6 channels), at 243 GHz, and at 340 GHz. The measured brightness temperatures can be used to gain information on the humidity profile - in particular in conditions with low humidity as in the Arctic - and to gain information on the integrated ice water content.


===== Instrument =====
{{:instruments:mirac:mirac.jpg?400|MiRAC}}

MiRAC ([[http://www.radiometer-physics.de/|RPG]]) at [[http://www.awipev.eu|AWIPEV]] on the roof of the Atmospheric Observatory. Cloud radar (left) and radiometer (right).

===== Data =====

  * If you are interested in receiving data please contact [[kebell@meteo.uni-koeln.de|Kerstin Ebell]]

  * [[http://atmos.meteo.uni-koeln.de/~hatpro/dataBrowser/dataBrowser1.html?site=Ny-Alesund&date=0&UpperLeft=Mirac-A_Overview | Quicklook archive]]

Current measurements:

<html>
      <a href="http://atmos.meteo.uni-koeln.de/~hatpro/nya/mirac-a/level1/latest_nya_l1_mirac-a.png" target="_blank">
      <img src="http://atmos.meteo.uni-koeln.de/~hatpro/nya/mirac-a/level1/latest_nya_l1_mirac-a.png" width=300>
      </a> click to enlarge
</html> 

The figure shows the brightness temperature from the passive 89 GHz channel of MiRAC-A as well as radar reflectivity factor, Doppler velocity and Doppler spectral width of the MiRAC-A measurements.\\
Gray areas indicate no data.


===== History =====
^  Period  ^ Device ^  Place  ^  Project  ^
| 23/06/2022 - 02/03/2023 | MiRAC-A | [[http://www.awipev.eu/|AWIPEV Ny-Ålesund]], Svalbard | [[http://www.ac3-tr.de/|(AC)3]] |
| 15/12/2020 - 29/11/2021 | MiRAC-A | [[http://www.fz-juelich.de/|Research Center Jülich]], Germany | JOYCE |
| 03/2020 - 04/2020 | MiRAC-A | Polar 5, Svalbard |  |
| 31/05/2019 - 08/01/2020  | MiRAC-A | [[http://www.fz-juelich.de/|Research Center Jülich]], Germany | JOYCE |
| 20/09/2019 - 02/10/2020 | MiRAC-P | RV Polarstern during [[https://www.mosaic-expedition.org/|MOSAiC]], Central Arctic | [[http://www.ac3-tr.de/|(AC)3]] |
| 03/2019 - 04/2019 | MiRAC-A & -P | Polar 5, [[http://www.ac3-tr.de/overview/observations/aflux-2019/|AFLUX campaign]], Svalbard | [[http://www.ac3-tr.de/|(AC)3]] |
| 28/07/2017 - 08/10/2018 | MiRAC-A & -P | [[http://www.awipev.eu/|AWIPEV Ny-Ålesund]], Svalbard | [[http://www.ac3-tr.de/|(AC)3]] |
| 05/2017 - 07/2017 | MiRAC-A & -P | Polar 5, [[http://www.ac3-tr.de/news/acloud-campaign/|ACLOUD campaign]], Svalbard | [[http://www.ac3-tr.de/|(AC)3]] |


===== Specifications MiRAC-A (94 GHz FMCW cloud radar)=====
^ Parameter  ^ Specification  ^ Remark  ^
| Frequency | 94 GHz ± 100 MHz  | corresponds to wavelength of 3.19 mm; adjustable by software between 92.3 and 95.7 GHz |
|IF Range | 350 kHz to 3 MHz |  |
| Transmitter Power | ~ 2 W | solid state amplifier  |
| Antenna gain | 51.6 dB |  |
| Beam Width | 0.48° FWHM |  |
| Polarisation | V |  |
| System Noise Figure | 3 dB |  |
| Dynamic Range | -54 dBZe to +20 DBZe at 1km height, -45 dBZe to +20 dBZe at 3 km height, -36 dBZe to +20 dBZe at 10 km height |  |
| Ranging | 50 m to 18 km |  |
| Calibration | Transmitter power monitoring, Receiver Dicke switch (for radar and DD channels), Hot/Cold absolute receiver calibration | Accuracy 0.4 dB |
| A/D Sampling Rate | 8.2 MHz |  |
| Profile Sampling Rate | 0.2 s to 30 s |  |
| Vertical Resolution | 1 m to 100 m | (user selectable) |
| Doppler Resolution | ± 1.5 cm/s |  |
| Doppler Range | ± 18 m/s max. |  |
| Chirp Variations | 4 typical | 10 possible, re-programmable |
| Passive Channels | 89 GHz | for integral liquid water (LWP) detection (2 GHz BW)
| Data Products | Reflectivity, Doppler-velocity, Spectral Width, Higher Moments, Doppler Spectra, LWC profiles |  |
| Data Formats | proprietary binary, netCDF (conformity with CF convention), ASCII (only moment profiles) |  |
| Rain / Snow Mitigation System | Super blower for rec. / transm. radome (2000 m³/h each) |Optional heater modules (2 kW to 4 kW) |
| Weight | Radar main body: 100 kg, Table: 130 kg, Air conductors: 25 kg |  |
| Power Consumption | 220 V AC, 50-60 Hz, Radar: 400 W, Blowers: 1000 W |  |
| Manufacturer | [[http://www.radiometer-physics.de/|RPG]] | 


===== Specifications MiRAC-P (LHUMPRO-243-340) =====
^  Parameter                    ^  Specification                                  ^               
| Frequencies / GHz            | 183.31 GHz (6 double side-band channels: 183.31±0.6; ±1.5; ±2.5; ±3.5; ±5.0; ±7.5 GHz), 243 GHz, 340 GHz |
| Channel band-widths / MHz     | 200 MHz @ 183 GHz, 4 GHz @ 243 and 340 GHz |
| Optical Resolution (HPBW)     | HPBW 1.3°  | 
| Radiometric Resolution        | < 0.2 K RMS typical @183 and 243 GHz, < 0.4 K RMS typical @ 340 GHz (@1 s integration time) |    
| Temporal Resolution           | 1 to 2 seconds  |  
| Absolute brightness temperature accuracy | ±0.5 K |  
| Radiometric range | 0-800 K |                                
| Side-lobe level               | < -40dBz @183 GHz, < -50dBz @243 and 340 GHz  |
| Absolute calibration |with internal ambient & external cold load |
| Internal calibration | gain: with internal noise standard, gain + system noise: ambient temperature target + noise standard, abs. cal. of  humidity profiler: sky tipping calibration | 
| Size                          | 63 × 36 × 90 cm³|
| Power Consumption             | < 120 Watts average, 350 Watts peak for warming-up (without dew blower heater), blower: 130 Watts max.|
| Weight                        | 60 kg (without dew blower)  |
| Manufacturer                  | [[http://www.radiometer-physics.de|RPG]] |     

 




































|