Observations of gravity wave activity in the middle stratosphere on both sides of the Scandinavian mountains

S.301-306 Atmospheric gravity waves are frequently observed in the polar winter stratosphere. The existence of polar stratospheric clouds in the Arctic is closely connected to the occurrence of orographically generated gravity waves. Such waves modulate the atmospheric temperature profile. We measur...

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Main Authors: Blum, U., Hoppe, U.-P., Fricke, K.H.
Format: Conference Object
Language:English
Published: 2007
Subjects:
620
Arctic
Norway
Esrange
Alomar
Northern Norway
Northern Sweden
Online Access:https://publica.fraunhofer.de/handle/publica/357566
id ftfrauneprints:oai:publica.fraunhofer.de:publica/357566
record_format openpolar
spelling ftfrauneprints:oai:publica.fraunhofer.de:publica/357566 2023-05-15T15:07:55+02:00 Observations of gravity wave activity in the middle stratosphere on both sides of the Scandinavian mountains Blum, U. Hoppe, U.-P. Fricke, K.H. 2007 https://publica.fraunhofer.de/handle/publica/357566 en eng Symposium on European Rocket and Balloon Programmes and Related Research 2007 18th ESA Symposium on European Rocket and Balloon Programmes and Related Research. Proceedings https://publica.fraunhofer.de/handle/publica/357566 620 conference paper 2007 ftfrauneprints 2022-11-01T20:11:32Z S.301-306 Atmospheric gravity waves are frequently observed in the polar winter stratosphere. The existence of polar stratospheric clouds in the Arctic is closely connected to the occurrence of orographically generated gravity waves. Such waves modulate the atmospheric temperature profile. We measure temperature profiles in the middle atmosphere with the ALOMAR O3-lidar in northern Norway and the Bonn University lidar at Esrange in northern Sweden. Both instruments have been in operation for many years, resulting in a comprehensive data base. We have analysed the data from several winters with respect to atmospheric gravity waves. The gravity wave potential energy density is a measure for the wave activity, which can be derived from the lidar data. Gravity wave activity over ALOMAR is generally as strong as over Esrange. Both vary from year to year and during the year. The difference between gravity wave activities at ALOMAR and Esrange is strongest from December to February. We observe a strong dependence of gravity wave activity on the ground wind direction at ALOMAR while the distribution is isotropic at Esrange. A comparison of the excitation and propagation conditions for orographically excited gravity waves with the observed gravity wave potential energy density reveals that a large fraction of the observed gravity waves has other sources than orography. Conference Object Arctic Northern Norway Northern Sweden Publikationsdatenbank der Fraunhofer-Gesellschaft Arctic Norway Esrange ENVELOPE(21.117,21.117,67.883,67.883) Alomar ENVELOPE(-67.083,-67.083,-68.133,-68.133)
institution Open Polar
collection Publikationsdatenbank der Fraunhofer-Gesellschaft
op_collection_id ftfrauneprints
language English
topic 620
spellingShingle 620
Blum, U.
Hoppe, U.-P.
Fricke, K.H.
Observations of gravity wave activity in the middle stratosphere on both sides of the Scandinavian mountains
topic_facet 620
description S.301-306 Atmospheric gravity waves are frequently observed in the polar winter stratosphere. The existence of polar stratospheric clouds in the Arctic is closely connected to the occurrence of orographically generated gravity waves. Such waves modulate the atmospheric temperature profile. We measure temperature profiles in the middle atmosphere with the ALOMAR O3-lidar in northern Norway and the Bonn University lidar at Esrange in northern Sweden. Both instruments have been in operation for many years, resulting in a comprehensive data base. We have analysed the data from several winters with respect to atmospheric gravity waves. The gravity wave potential energy density is a measure for the wave activity, which can be derived from the lidar data. Gravity wave activity over ALOMAR is generally as strong as over Esrange. Both vary from year to year and during the year. The difference between gravity wave activities at ALOMAR and Esrange is strongest from December to February. We observe a strong dependence of gravity wave activity on the ground wind direction at ALOMAR while the distribution is isotropic at Esrange. A comparison of the excitation and propagation conditions for orographically excited gravity waves with the observed gravity wave potential energy density reveals that a large fraction of the observed gravity waves has other sources than orography.
format Conference Object
author Blum, U.
Hoppe, U.-P.
Fricke, K.H.
author_facet Blum, U.
Hoppe, U.-P.
Fricke, K.H.
author_sort Blum, U.
title Observations of gravity wave activity in the middle stratosphere on both sides of the Scandinavian mountains
title_short Observations of gravity wave activity in the middle stratosphere on both sides of the Scandinavian mountains
title_full Observations of gravity wave activity in the middle stratosphere on both sides of the Scandinavian mountains
title_fullStr Observations of gravity wave activity in the middle stratosphere on both sides of the Scandinavian mountains
title_full_unstemmed Observations of gravity wave activity in the middle stratosphere on both sides of the Scandinavian mountains
title_sort observations of gravity wave activity in the middle stratosphere on both sides of the scandinavian mountains
publishDate 2007
url https://publica.fraunhofer.de/handle/publica/357566
long_lat ENVELOPE(21.117,21.117,67.883,67.883)
ENVELOPE(-67.083,-67.083,-68.133,-68.133)
geographic Arctic
Norway
Esrange
Alomar
geographic_facet Arctic
Norway
Esrange
Alomar
genre Arctic
Northern Norway
Northern Sweden
genre_facet Arctic
Northern Norway
Northern Sweden
op_relation Symposium on European Rocket and Balloon Programmes and Related Research 2007
18th ESA Symposium on European Rocket and Balloon Programmes and Related Research. Proceedings
https://publica.fraunhofer.de/handle/publica/357566
_version_ 1766339343057682432

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