Laboratory and in situ evidence for the presence of ice particles in a PMSE region

Laboratory and in situ evidence for the presence of ice particles in a PMSE region

An interpretation is made of rocket data obtained from an electric field mill (EFM) sensor during the international rocket‐radar campaign NLC‐91. The interpretation is based on a laboratory study of the interaction of a water particle beam with the EFM recovered after the rocket flight. Both rocket...

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Veröffentlicht in:Geophysical research letters 1997-04, Vol.24 (8), p.841-844
Hauptverfasser: Zadorozhny, A. M., Vostrikov, A. A., Witt, G., Bragin, O. A., Dubov, D. Yu, Kazakov, V. G., Kikhtenko, V. N., Tyutin, A. A.
Format: Artikel
Sprache:eng
Schlagworte:
Altitude
Data processing
Electric fields
Ice
Microparticles
Mills
Noctilucent clouds
Perturbation methods
Q1
Rocket flight
Rockets
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Zusammenfassung:An interpretation is made of rocket data obtained from an electric field mill (EFM) sensor during the international rocket‐radar campaign NLC‐91. The interpretation is based on a laboratory study of the interaction of a water particle beam with the EFM recovered after the rocket flight. Both rocket and laboratory data show that the field mill is sensitive to ice microparticle impacts and that perturbations in the EFM signal observed in the vicinity of noctilucent clouds and an enhanced radar echo (PMSE) layer are caused not only by atmospheric electric fields but also by the impact of solid particles. The altitude range of the impact signatures suggests the presence of ice particles in the PMSE region above the height of the optically detected noctilucent clouds. The analysis of the rocket data on the basis of the laboratory results allows us to estimate sizes of these PMSE particles to be 13–40 nm.
ISSN:0094-8276
1944-8007
DOI:10.1029/97GL50866