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Airborne coherent wind lidar measurements of the momentum flux profile from orographically induced gravity waves

Authors :
Witschas, Benjamin
Gisinger, Sonja
Rahm, Stephan
Dörnbrack, Andreas
Fritts, David C.
Rapp, Markus
Publication Year :
2022
Publisher :
Copernicus GmbH, 2022.

Abstract

In the course of the GW-LCYCLE II campaign, conducted in Jan/Feb 2016 from Kiruna, Sweden, coherent Doppler wind lidar (2 µm DWL) measurements were performed from the DLR Falcon aircraft to investigate gravity waves induced by flow across the Scandinavian Alps. During a mountain wave event on 28 January 2016, a novel momentum flux (MF) scan pattern with fore and aft propagating laser beams was applied to the 2 µm DWL. This allows us to measure the vertical wind and the horizontal wind along the flight track simultaneously with a high horizontal resolution of ≈800 m and hence enables us to derive the horizontal MF profile for a broad wavelength spectrum from a few hundred meters to several hundred kilometers. The functionality of this method and the corresponding retrieval algorithm is validated using a comparison against in situ wind data measured by the High Altitude and Long Range (HALO) aircraft which was also deployed in Kiruna for the POLSTRACC (Polar Stratosphere in a Changing Climate) campaign. Based on that, the systematic and random error of the wind speeds retrieved from the 2 µm DWL observations are determined. Further, the measurements performed on that day are used to reveal significant changes in the horizontal wavelengths of the vertical wind speed and of the leg-averaged momentum fluxes in the tropopause inversion layer (TIL) region, which are likely to be induced by interfacial waves as recently presented by Gisinger et al. (2020).

Details

ISSN :
18678548
Database :
OpenAIRE
Accession number :
edsair.doi.dedup.....4d62f5e9708a1bcd22af4af39821129e
Full Text :
https://doi.org/10.5194/amt-2022-234