The thermal and dynamical state of the atmosphere during polar mesosphere winter echoes

In January 2005, a total of 18 rockets were launched from the Andøya Rocket Range in Northern Norway (69° N) into strong VHF radar echoes called "Polar Mesosphere Winter Echoes" (PMWE). The echoes were observed in the lower and middle mesosphere during large solar proton fluxes. In general...

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Main Authors: Lübken, F.-J., Strelnikov, B., Rapp, M., Singer, W., Latteck, R., Brattli, A., Hoppe, U.-P., Friedrich, M.
Format: Article in Journal/Newspaper
Language:English
Published: München : European Geopyhsical Union 2006
Subjects:
ddc:550
in situ measurement
mesosphere
thermodynamic property
turbulence
Andøya
Northern Norway
Online Access:https://oa.tib.eu/renate/handle/123456789/779
https://doi.org/10.34657/1352
id fttibhannoverren:oai:oa.tib.eu:123456789/779
record_format openpolar
spelling fttibhannoverren:oai:oa.tib.eu:123456789/779 2024-09-15T17:39:27+00:00 The thermal and dynamical state of the atmosphere during polar mesosphere winter echoes Lübken, F.-J. Strelnikov, B. Rapp, M. Singer, W. Latteck, R. Brattli, A. Hoppe, U.-P. Friedrich, M. 2006 application/pdf https://oa.tib.eu/renate/handle/123456789/779 https://doi.org/10.34657/1352 eng eng München : European Geopyhsical Union DOI:https://doi.org/10.5194/acp-6-13-2006 https://doi.org/10.34657/1352 https://oa.tib.eu/renate/handle/123456789/779 CC BY-NC-SA 2.5 Unported https://creativecommons.org/licenses/by-nc-sa/2.5/ frei zugänglich ddc:550 in situ measurement mesosphere thermodynamic property turbulence status-type:publishedVersion doc-type:Article doc-type:Text 2006 fttibhannoverren https://doi.org/10.34657/135210.5194/acp-6-13-2006 2024-06-26T23:32:42Z In January 2005, a total of 18 rockets were launched from the Andøya Rocket Range in Northern Norway (69° N) into strong VHF radar echoes called "Polar Mesosphere Winter Echoes" (PMWE). The echoes were observed in the lower and middle mesosphere during large solar proton fluxes. In general, PMWE occur much more seldom compared to their summer counterparts PMSE (typical occurrence rates at 69° N are 1–3% vs. 80%, respectively). Our in-situ measurements by falling sphere, chaff, and instrumented payloads provide detailed information about the thermal and dynamical state of the atmosphere and therefore allow an unprecedented study of the background atmosphere during PMWE. There are a number of independent observations indicating that neutral air turbulence has caused PMWE. Ion density fluctuations show a turbulence spectrum within PMWE and no fluctuations outside. Temperature lapse rates close to the adiabatic gradient are observed in the vicinity of PMWE indicating persistent turbulent mixing. The spectral broadening of radar echoes is consistent with turbulent velocity fluctuations. Turbulence also explains the mean occurrence height of PMWE (~68–75 km): viscosity increases rapidly with altitude and destroys any small scale fluctuations in the upper mesosphere, whereas electron densities are usually too low in the lower mesosphere to cause significant backscatter. The seasonal variation of echoes in the lower mesosphere is in agreement with a turbulence climatology derived from earlier sounding rocket flights. We have performed model calculations to study the radar backscatter from plasma fluctuations caused by neutral air turbulence. We find that volume reflectivities observed during PMWE are in quantitative agreement with theory. Apart from turbulence the most crucial requirement for PMWE is a sufficiently large number of electrons, for example produced by solar proton events. We have studied the sensitivity of the radar echo strength on various parameters, most important electron number density and turbulence ... Article in Journal/Newspaper Andøya Northern Norway Renate - Repositorium für Naturwissenschaften und Technik (TIB Hannover)
institution Open Polar
collection Renate - Repositorium für Naturwissenschaften und Technik (TIB Hannover)
op_collection_id fttibhannoverren
language English
topic ddc:550
in situ measurement
mesosphere
thermodynamic property
turbulence
spellingShingle ddc:550
in situ measurement
mesosphere
thermodynamic property
turbulence
Lübken, F.-J.
Strelnikov, B.
Rapp, M.
Singer, W.
Latteck, R.
Brattli, A.
Hoppe, U.-P.
Friedrich, M.
The thermal and dynamical state of the atmosphere during polar mesosphere winter echoes
topic_facet ddc:550
in situ measurement
mesosphere
thermodynamic property
turbulence
description In January 2005, a total of 18 rockets were launched from the Andøya Rocket Range in Northern Norway (69° N) into strong VHF radar echoes called "Polar Mesosphere Winter Echoes" (PMWE). The echoes were observed in the lower and middle mesosphere during large solar proton fluxes. In general, PMWE occur much more seldom compared to their summer counterparts PMSE (typical occurrence rates at 69° N are 1–3% vs. 80%, respectively). Our in-situ measurements by falling sphere, chaff, and instrumented payloads provide detailed information about the thermal and dynamical state of the atmosphere and therefore allow an unprecedented study of the background atmosphere during PMWE. There are a number of independent observations indicating that neutral air turbulence has caused PMWE. Ion density fluctuations show a turbulence spectrum within PMWE and no fluctuations outside. Temperature lapse rates close to the adiabatic gradient are observed in the vicinity of PMWE indicating persistent turbulent mixing. The spectral broadening of radar echoes is consistent with turbulent velocity fluctuations. Turbulence also explains the mean occurrence height of PMWE (~68–75 km): viscosity increases rapidly with altitude and destroys any small scale fluctuations in the upper mesosphere, whereas electron densities are usually too low in the lower mesosphere to cause significant backscatter. The seasonal variation of echoes in the lower mesosphere is in agreement with a turbulence climatology derived from earlier sounding rocket flights. We have performed model calculations to study the radar backscatter from plasma fluctuations caused by neutral air turbulence. We find that volume reflectivities observed during PMWE are in quantitative agreement with theory. Apart from turbulence the most crucial requirement for PMWE is a sufficiently large number of electrons, for example produced by solar proton events. We have studied the sensitivity of the radar echo strength on various parameters, most important electron number density and turbulence ...
format Article in Journal/Newspaper
author Lübken, F.-J.
Strelnikov, B.
Rapp, M.
Singer, W.
Latteck, R.
Brattli, A.
Hoppe, U.-P.
Friedrich, M.
author_facet Lübken, F.-J.
Strelnikov, B.
Rapp, M.
Singer, W.
Latteck, R.
Brattli, A.
Hoppe, U.-P.
Friedrich, M.
author_sort Lübken, F.-J.
title The thermal and dynamical state of the atmosphere during polar mesosphere winter echoes
title_short The thermal and dynamical state of the atmosphere during polar mesosphere winter echoes
title_full The thermal and dynamical state of the atmosphere during polar mesosphere winter echoes
title_fullStr The thermal and dynamical state of the atmosphere during polar mesosphere winter echoes
title_full_unstemmed The thermal and dynamical state of the atmosphere during polar mesosphere winter echoes
title_sort thermal and dynamical state of the atmosphere during polar mesosphere winter echoes
publisher München : European Geopyhsical Union
publishDate 2006
url https://oa.tib.eu/renate/handle/123456789/779
https://doi.org/10.34657/1352
genre Andøya
Northern Norway
genre_facet Andøya
Northern Norway
op_relation DOI:https://doi.org/10.5194/acp-6-13-2006
https://doi.org/10.34657/1352
https://oa.tib.eu/renate/handle/123456789/779
op_rights CC BY-NC-SA 2.5 Unported
https://creativecommons.org/licenses/by-nc-sa/2.5/
frei zugänglich
op_doi https://doi.org/10.34657/135210.5194/acp-6-13-2006
_version_ 1810479920106700800

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