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Table of Contents
Mentor: S. Redl
SNOHAT is installed permanently at Umweltforschungsstation Schneefernerhaus (UFS) for continuously monitoring cloud liquid water path (LWP) and water vapour (IWV) in a high alpine environment using 7 brightness temperature measurements between 22.235 and 31.4 GHz. The combination of these frequencies with the 90 and 150 GHz channels of the Dual Polarization Radiometer (DPR, also located at UFS) are specifically valuable for inferring super-cooled low LWP. Methods for combining both instruments are currently under development. Additionally 7 SNOHAT measurements between 51.26 and 58.0 GHz, along with an elevation scanning procedure (every 15 minutes), allow the retrieval of high-quality temperature profiles. For more information on the applied statistical retrievals see Crewell and Löhnert (2007).
SNOHAT (RPG HATPRO) at UFS, Zugspitze, Germany.
- If you are interested in receiving data please contact: S. Redl
The figure shows the relative humidity (RH, top row) and temperature (second row) of the environment as well as the Integrated Water Vapor (IWV, third row) and Liquid Water Path (LWP, last row) derived from SNOHAT.
|Receiver 1||water vapor and liquid water absorption|
|Frequencies [GHz]||22.24, 23.04, 23.84, 25.44, 26.24, 27.84, 31.40|
|Channel band-widths [MHz]||230, 230, 230, 230, 230, 230, 230|
|Optical Resolution (HPBW)||3.3°-3.7°|
|Receiver 2||oxygen absorption|
|Frequencies [GHz]||51.26, 52.28, 53.86, 54.94, 56.66, 57.30, 58.00|
|Channel band-widths [MHz]||230, 230, 230, 230, 600, 1000, 2000|
|Optical Resolution (HPBW)||2.2°- 2.5°|
|Side-lobe level||< -30 dBc|
|Size||630 mm x 360 mm x 900 mm|
|Power Consumption||<150 W (350 W peak) + dew blower|
|Temporal Resolution||1-2 sec|