The Measurement of Tropospheric Temperature Profiles using Rayleigh-Brillouin Scattering: Results from Laboratory and Atmospheric Studies

The Measurement of Tropospheric Temperature Profiles using Rayleigh-Brillouin Scattering: Results from Laboratory and Atmospheric Studies

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. I...

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Main Authors: Witschas Benjamin, Reitebuch Oliver, Lemmerz Christian, Kableka Pau Gomez, Kondratyev Sergey, Gu Ziyu, Ubachs Wim
Format: Article
Language:English
Published: EDP Sciences 2016-01-01
Series:EPJ Web of Conferences
Online Access:http://dx.doi.org/10.1051/epjconf/201611927004
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spelling doaj-db2ae64130bb4718abc1a388b2140abf2021-08-02T10:20:25ZengEDP SciencesEPJ Web of Conferences2100-014X2016-01-011192700410.1051/epjconf/201611927004epjconf_ilrc2016_27004The Measurement of Tropospheric Temperature Profiles using Rayleigh-Brillouin Scattering: Results from Laboratory and Atmospheric StudiesWitschas Benjamin0Reitebuch Oliver1Lemmerz Christian2Kableka Pau Gomez3Kondratyev Sergey4Gu Ziyu5Ubachs Wim6German Aerospace Center (DLR), Institute of Atmospheric PhysicsGerman Aerospace Center (DLR), Institute of Atmospheric PhysicsGerman Aerospace Center (DLR), Institute of Atmospheric PhysicsGerman Aerospace Center (DLR), Institute of Atmospheric PhysicsAngstrom Ltd.Department of Physics and Astronomy, LaserLaB, VU UniversityDepartment of Physics and Astronomy, LaserLaB, VU UniversityIn 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.http://dx.doi.org/10.1051/epjconf/201611927004
collection DOAJ
language English
format Article
sources DOAJ
author Witschas Benjamin
Reitebuch Oliver
Lemmerz Christian
Kableka Pau Gomez
Kondratyev Sergey
Gu Ziyu
Ubachs Wim
spellingShingle Witschas Benjamin
Reitebuch Oliver
Lemmerz Christian
Kableka Pau Gomez
Kondratyev Sergey
Gu Ziyu
Ubachs Wim
The Measurement of Tropospheric Temperature Profiles using Rayleigh-Brillouin Scattering: Results from Laboratory and Atmospheric Studies
EPJ Web of Conferences
author_facet Witschas Benjamin
Reitebuch Oliver
Lemmerz Christian
Kableka Pau Gomez
Kondratyev Sergey
Gu Ziyu
Ubachs Wim
author_sort Witschas Benjamin
title The Measurement of Tropospheric Temperature Profiles using Rayleigh-Brillouin Scattering: Results from Laboratory and Atmospheric Studies
title_short The Measurement of Tropospheric Temperature Profiles using Rayleigh-Brillouin Scattering: Results from Laboratory and Atmospheric Studies
title_full The Measurement of Tropospheric Temperature Profiles using Rayleigh-Brillouin Scattering: Results from Laboratory and Atmospheric Studies
title_fullStr The Measurement of Tropospheric Temperature Profiles using Rayleigh-Brillouin Scattering: Results from Laboratory and Atmospheric Studies
title_full_unstemmed The Measurement of Tropospheric Temperature Profiles using Rayleigh-Brillouin Scattering: Results from Laboratory and Atmospheric Studies
title_sort measurement of tropospheric temperature profiles using rayleigh-brillouin scattering: results from laboratory and atmospheric studies
publisher EDP Sciences
series EPJ Web of Conferences
issn 2100-014X
publishDate 2016-01-01
description 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.
url http://dx.doi.org/10.1051/epjconf/201611927004
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