2018
DOI: 10.5194/acp-18-6721-2018
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Observation of Kelvin–Helmholtz instabilities and gravity waves in the summer mesopause above Andenes in Northern Norway

Abstract: Abstract. We present observations obtained with the Middle Atmosphere Alomar Radar System (MAARSY) to investigate short-period wave-like features using polar mesospheric summer echoes (PMSEs) as a tracer for the neutral dynamics. We conducted a multibeam experiment including 67 different beam directions during a 9-day campaign in June 2013. We identified two Kelvin–Helmholtz instability (KHI) events from the signal morphology of PMSE. The MAARSY observations are complemented by collocated meteor radar wind dat… Show more

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Cited by 23 publications
(36 citation statements)
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“…2. We note that clear signatures of KH instabilities were observed in wintertime using this radar by Reid et al (1987), and more recently in PMSE over Andøya by Stober et al (2018).…”
Section: Snr Radial Velocities and Spectra Widthssupporting
confidence: 52%
“…2. We note that clear signatures of KH instabilities were observed in wintertime using this radar by Reid et al (1987), and more recently in PMSE over Andøya by Stober et al (2018).…”
Section: Snr Radial Velocities and Spectra Widthssupporting
confidence: 52%
“…It results in ice spheres from 5 to ∼ 35 nm from the altitude range of 90 down to 82 km and a rapid decrease to a few nanometres at the lower altitudes. Observations sometimes show the NLC with the ice particles in 100 nm (von Cossart et al, 1999). Therefore the second scenario considers the extreme size distribution of ice grains from 10 to 100 nm at the above-mentioned altitudes.…”
Section: Discussionmentioning
confidence: 99%
“…Using phased arrays with electronic beam steering, modern atmospheric radars also provide horizontal information using a multibeam approach (e.g., Fukao et al, 1985;Latteck et al, 2012;Sato et al, 2014). Although the horizontal coverage is extended with this approach, the relatively long correlation time of atmospheric targets, the effects of a truncated antenna aperture, and the way electronic phasing is done (i.e., from pulse to pulse), the achieved angular and temporal resolutions have not been good enough to resolve atmospheric structures in the scales of kilometer-and minute-resolution, at least in the mesosphere (e.g., Stober et al, 2018). Besides the multibeam approach, in-beam radar imaging of ionospheric and atmospheric irregularities has been implemented.…”
Section: High-resolution Four-dimensional Radar Observationsmentioning
confidence: 99%