A Raman Lidar with a Deep Ultraviolet Laser for Continuous Water Vapor Profiling in the Atmospheric Boundary Layer

A Raman Lidar with a Deep Ultraviolet Laser for Continuous Water Vapor Profiling in the Atmospheric Boundary Layer

A Raman lidar with a deep ultraviolet laser was constructed to continuously monitor water vapor distributions in the atmospheric boundary layer for twenty-four hours. We employ a laser at a wavelength of 266 nm and detects the light separated into an elastic backscatter signal and vibrational Raman...

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Veröffentlicht in:EPJ Web of conferences 2020, Vol.237, p.3001
Hauptverfasser: Yabuki, Masanori, Kawano, Yuya, Tottori, Yusaku, Tsukamoto, Makoto, Takeuchi, Eiji, Tsuda, Toshitaka
Format: Artikel
Sprache:eng
Schlagworte:
Atmospheric boundary layer
Backscattering
Lasers
Lidar
Radiosondes
Temperature
Ultraviolet lasers
Water vapor
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Zusammenfassung:A Raman lidar with a deep ultraviolet laser was constructed to continuously monitor water vapor distributions in the atmospheric boundary layer for twenty-four hours. We employ a laser at a wavelength of 266 nm and detects the light separated into an elastic backscatter signal and vibrational Raman signals of oxygen, nitrogen, and water vapor. The lidar was encased in a temperature-controlled and vibration-isolated compact container, resistant to a variety of environmental conditions. Water vapor profile observations were made for twelve months from November 24, 2017, to November 29, 2018. These observations were compared with collocated radiosonde measurements for daytime and nighttime conditions.
ISSN:2100-014X
2101-6275
2100-014X
DOI:10.1051/epjconf/202023703001