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Proceedings Paper

Meteorological water vapor Raman lidar: advances
Author(s): T. Dinoev; P. Ristori; Y. Arshinov; S. Bobrovnikov; I. Serikov; B. Calpini; H. van den Bergh; V. Simeonov
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Paper Abstract

We present the design and preliminary results of a water vapor Raman lidar, developed explicitly for meteorological applications. The lidar was designed for Meteoswiss as a fully automated, eye-safe instrument for routine water vapor measurements in the troposphere. The lidar is capable of day and nighttime vertical profiling of the tropospheric water vapor with 15 to 30 min temporal resolution. The daytime operation is achieved by decreasing the solar background employing the narrow field-of-view, narrow-band technique. The daytime vertical operational range exceeds 4 km, while the nighttime range is above 7.5 km. The lidar receiver is built on a compact multi-telescope configuration coupled with fibers to a grating polychromator used for spectral separation and partial background suppression. An additional "near range" fiber in one of the telescopes increases the signal level in the near range and allows water vapor retrieval starting from 100 m. The water vapor mixing ratio is retrieved using the ratio of the water vapor and the nitrogen Raman signals. An additional detection channel for oxygen Raman signal is used for aerosol correction.

Paper Details

Date Published: 3 October 2006
PDF: 9 pages
Proc. SPIE 6367, Lidar Technologies, Techniques, and Measurements for Atmospheric Remote Sensing II, 63670C (3 October 2006); doi: 10.1117/12.692451
Show Author Affiliations
T. Dinoev, Swiss Federal Institute of Technology (Switzerland)
P. Ristori, Swiss Federal Institute of Technology (Switzerland)
Y. Arshinov, Institute of Atmospheric Optics (Russia)
S. Bobrovnikov, Institute of Atmospheric Optics (Russia)
I. Serikov, Swiss Federal Institute of Technology (Switzerland)
B. Calpini, MeteoSwiss (Switzerland)
H. van den Bergh, Swiss Federal Institute of Technology (Switzerland)
V. Simeonov, Swiss Federal Institute of Technology (Switzerland)


Published in SPIE Proceedings Vol. 6367:
Lidar Technologies, Techniques, and Measurements for Atmospheric Remote Sensing II
Upendra N. Singh, Editor(s)

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