Karlsruhe Institute of Technology

Institute for Meteorology and Climate Research
Atmospheric Environmental Research (IMK-IFU)
Atmospheric Aerosol Research (IMK-AAF)

Wasserdampf- Lidar
DIAL-Lidar in operation.
DIAL-Lidar in operation.

High-Power Lidar Sounding of Atmospheric Water Vapour and Temperature

Water vapour is the most important green-house gas, a consequence of its high concentration and its physical properties. Humidity changes have the largest impact on the climate and radiative forcing in the altitude range above 5 km, from where the infrared radiation can be emitted to space. The man-made warming increases the evaporation from the sea surface which covers 70% of the planet. The result would be an amplification of the green-house effect. On the other hand, the increasing water-vapour content leads to changes in precipitation and cloud formation that may counteract the global warming. Measuring water vapour at middle and higher altitudes is a difficult task.
KIT has developed a unique high-power differential-absorption lidar (DIAL) system that is operated at the Schneefernerhaus research station. The routine measurements, carried out up to the tropopause region even during daytime, impressively demonstrate the potential of this technique. The system performance considerably benefits from the high-altitude location of the laboratory outside the moist boundary layer. The DIAL ideally complements the other remote-sensing (lidar, FTIR, GPS) and in-situ instrumentation operated on the Zugspitze.
No operational sounding technique has yet been established for the lower stratosphere where water vapour, in spite of its low concentration, also plays an important role for both the chemistry and the radiative budget. Therefore, an extension of the water vapour soundings with a 300-W Raman lidar system is envisaged that is expected to yield nighttime measurements up to 30 km. This system also provides profiles of the atmospheric temperature to more than 80 km. Furthermore, spectrally highly resolved measurements of the thermal infrared atmospheric radiance, combined with the humidity and temperature profiles, as well as the other trace constituents measured in the Garmisch-Partenkirchen area, will provide a fully experimental approach to climate research.

 

Contact
Prof. Dr. Hans-Peter Schmid
KIT IMK-IFU
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Tel. +49 8821 183-100
Fax +49 8821 183-103

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Dr. Ralf Sussmann
KIT IMK-IFU
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Tel. ++49 (0)8821 183 159
Fax ++49 (0)8821 73573

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Dr. Thomas Trickl
KIT IMK-IFU
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Tel. +49 8821 183-209
Fax +49 8821 183-103

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Dr. Hannes Vogelmann
KIT IMK-IFU
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Tel. +49 8821 183-258
Fax +49 8821 183-108

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Most recently modified: April 2011