The Measurement of Tropospheric Temperature Profiles using Rayleigh-Brillouin Scattering

Authors :: Christian Lemmerz
Benjamin Witschas
Pau Gomez Kableka
Oliver Reitebuch
Ziyu Gu
Wim Ubachs
Sergey Kondratyev
Atoms, Molecules, Lasers
LaserLaB - Physics of Light
Source :: Witschas, B, Reitebuch, O, Lemmerz, C, Kableka, P G, Kondratyev, S, Gu, Z & Ubachs, W 2016, ' The Measurement of Tropospheric Temperature Profiles using Rayleigh-Brillouin Scattering : Results from Laboratory and Atmospheric Studies ', EPJ Web of Conferences, vol. 119, 27004 . https://doi.org/10.1051/epjconf/201611927004, EPJ Web of Conferences, 119:27004. EDP Sciences, EPJ Web of Conferences, Vol 119, p 27004 (2016)
Publication Year :: 2016
Publisher :: EDP Sciences, 2016.
Abstract: In this letter, we suggest a new method for measuring tropospheric temperature profiles using Rayleigh-Brillouin (RB) scattering. We report on laboratory RB scattering measurements in air, demonstrating that temperature can be retrieved from RB spectra with an absolute accuracy of better than 2 K. In addition, we show temperature profiles from 2 km to 15.3 km derived from RB spectra, measured with a high spectral resolution lidar during daytime. A comparison with radiosonde temperature measurements shows reasonable agreement. In cloud-free conditions, the temperature difference reaches up to 5 K within the boundary layer, and is smaller than 2.5 K above. The statistical error of the derived temperatures is between 0.15 K and 1.5 K.

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