Frequency domain interferometry mode observations of PMSE using the EISCAT VHF radar

During the summer of 1997 investigations into the nature of polar mesosphere summer echoes (PMSE) were conducted using the European incoherent scatter (EISCAT) VHF radar in Norway. The radar was operated in a frequency domain interferometry (FDI) mode over a period of two weeks to study the frequenc...

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Published in:Annales Geophysicae
Main Authors: P. B. Chilson, S. Kirkwood, I. Häggström
Format: Article in Journal/Newspaper
Language:English
Published: Copernicus Publications 2000
Subjects:
Science
Q
Physics
QC1-999
Geophysics. Cosmic physics
QC801-809
Norway
EISCAT
Online Access:https://doi.org/10.1007/s00585-001-1599-8
https://doaj.org/article/c2722c55e2d746c0b2442b457262554d
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author P. B. Chilson
S. Kirkwood
I. Häggström
author_facet P. B. Chilson
S. Kirkwood
I. Häggström
author_sort P. B. Chilson
collection Directory of Open Access Journals: DOAJ Articles
container_issue 12
container_start_page 1599
container_title Annales Geophysicae
container_volume 18
description During the summer of 1997 investigations into the nature of polar mesosphere summer echoes (PMSE) were conducted using the European incoherent scatter (EISCAT) VHF radar in Norway. The radar was operated in a frequency domain interferometry (FDI) mode over a period of two weeks to study the frequency coherence of the returned radar signals. The operating frequencies of the radar were 224.0 and 224.6 MHz. We present the first results from the experiment by discussing two 4-h intervals of data collected over two consecutive nights. During the first of the two days an enhancement of the FDI coherence, which indicates the presence of distinct scattering layers, was found to follow the lower boundary of the PMSE. Indeed, it is not unusual to observe that the coherence values are peaked around the heights corresponding to both the lower- and upper-most boundaries of the PMSE layer and sublayers. A Kelvin-Helmholtz mechanism is offered as one possible explanation for the layering structure. Additionally, our analysis using range-time-pseudocolor plots of signal-to-noise ratios, spectrograms of Doppler velocity, and estimates of the positions of individual scattering layers is shown to be consistent with the proposition that upwardly propagating gravity waves can become steepened near the mesopause. Key words: Ionosphere (polar ionosphere) · Meteorology and Atmospheric Dynamics (middle atmosphere dynamics) · Radio Science (Interferometry)
format Article in Journal/Newspaper
genre EISCAT
genre_facet EISCAT
geographic Norway
geographic_facet Norway
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doi:10.1007/s00585-001-1599-8
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spelling ftdoajarticles:oai:doaj.org/article:c2722c55e2d746c0b2442b457262554d 2025-01-16T21:42:05+00:00 Frequency domain interferometry mode observations of PMSE using the EISCAT VHF radar P. B. Chilson S. Kirkwood I. Häggström 2000-12-01T00:00:00Z https://doi.org/10.1007/s00585-001-1599-8 https://doaj.org/article/c2722c55e2d746c0b2442b457262554d EN eng Copernicus Publications https://www.ann-geophys.net/18/1599/2000/angeo-18-1599-2000.pdf https://doaj.org/toc/0992-7689 https://doaj.org/toc/1432-0576 doi:10.1007/s00585-001-1599-8 0992-7689 1432-0576 https://doaj.org/article/c2722c55e2d746c0b2442b457262554d Annales Geophysicae, Vol 18, Pp 1599-1612 (2000) Science Q Physics QC1-999 Geophysics. Cosmic physics QC801-809 article 2000 ftdoajarticles https://doi.org/10.1007/s00585-001-1599-8 2022-12-31T11:23:50Z During the summer of 1997 investigations into the nature of polar mesosphere summer echoes (PMSE) were conducted using the European incoherent scatter (EISCAT) VHF radar in Norway. The radar was operated in a frequency domain interferometry (FDI) mode over a period of two weeks to study the frequency coherence of the returned radar signals. The operating frequencies of the radar were 224.0 and 224.6 MHz. We present the first results from the experiment by discussing two 4-h intervals of data collected over two consecutive nights. During the first of the two days an enhancement of the FDI coherence, which indicates the presence of distinct scattering layers, was found to follow the lower boundary of the PMSE. Indeed, it is not unusual to observe that the coherence values are peaked around the heights corresponding to both the lower- and upper-most boundaries of the PMSE layer and sublayers. A Kelvin-Helmholtz mechanism is offered as one possible explanation for the layering structure. Additionally, our analysis using range-time-pseudocolor plots of signal-to-noise ratios, spectrograms of Doppler velocity, and estimates of the positions of individual scattering layers is shown to be consistent with the proposition that upwardly propagating gravity waves can become steepened near the mesopause. Key words: Ionosphere (polar ionosphere) · Meteorology and Atmospheric Dynamics (middle atmosphere dynamics) · Radio Science (Interferometry) Article in Journal/Newspaper EISCAT Directory of Open Access Journals: DOAJ Articles Norway Annales Geophysicae 18 12 1599 1612
spellingShingle Science
Q
Physics
QC1-999
Geophysics. Cosmic physics
QC801-809
P. B. Chilson
S. Kirkwood
I. Häggström
Frequency domain interferometry mode observations of PMSE using the EISCAT VHF radar
title Frequency domain interferometry mode observations of PMSE using the EISCAT VHF radar
title_full Frequency domain interferometry mode observations of PMSE using the EISCAT VHF radar
title_fullStr Frequency domain interferometry mode observations of PMSE using the EISCAT VHF radar
title_full_unstemmed Frequency domain interferometry mode observations of PMSE using the EISCAT VHF radar
title_short Frequency domain interferometry mode observations of PMSE using the EISCAT VHF radar
title_sort frequency domain interferometry mode observations of pmse using the eiscat vhf radar
topic Science
Q
Physics
QC1-999
Geophysics. Cosmic physics
QC801-809
topic_facet Science
Q
Physics
QC1-999
Geophysics. Cosmic physics
QC801-809
url https://doi.org/10.1007/s00585-001-1599-8
https://doaj.org/article/c2722c55e2d746c0b2442b457262554d

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