Lidar stratospheric ozone measurements at the observatoire de Haute Provence (France)
Abstract
Strastospheric ozone monitoring is of particular importance to confirm present day theories predicting a maximal ozone depletion, due to chlorofluorocarbon emission, in the 35 to 45 km altitude range. Measurements presently rely on both ground based and satellite-borne passive experiments. Such systems have been recently shown to have intrinsic limitations mainly due to atmospheric aerosol presence and calibration problems. During the last few years, active lidar profiling of the ozone vertical distribution by the Differential Absorption Laser technique (DIAL) in the UV wavelength range has been developed using two different laser sources: a Nd-YAG pumped dye laser which enables a large tuning range of the UV emitted wavelengths; and exciplex laser sources using xenon chloride as an active medium and emitting at 308 nm, the off wavelength being usually generated by Raman shifting techniques. Advantages and limitations of using both of these systems are briefly discussed.
- Publication:
-
In NASA. Langley Research Center 13th International Laser Radar Conference 4 p (SEE N87-10263 01-35
- Pub Date:
- August 1986
- Bibcode:
- 1986lara.confQ....G
- Keywords:
-
- Aerosols;
- Halocarbons;
- Optical Radar;
- Ozone;
- Ozone Depletion;
- Stratosphere;
- Dye Lasers;
- Laser Pumping;
- Vertical Distribution;
- Xenon Chloride Lasers;
- Yag Lasers;
- Geophysics