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Observational Evidence of Nonlinear Wave-Wave Interaction Over Antarctic MLT Region

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Title
Observational Evidence of Nonlinear Wave-Wave Interaction Over Antarctic MLT Region
Other Titles
남극 MLT 지역에서의 비선형 wave-wave interaction에 대한 관측적 근거
Authors
Lee Jaewook
Kwak Young-Sil
Eswaraiah Sunkara
Kam Hosik
Kim Yong Ha
Lee, Changsup
Kim, Jeong-Han
Keywords
Antarctic MLT regionMeteor radar observationWave-wave interaction
Issue Date
2023
Citation
Lee Jaewook, et al. 2023. "Observational Evidence of Nonlinear Wave-Wave Interaction Over Antarctic MLT Region". JOURNAL OF GEOPHYSICAL RESEARCH-SPACE PHYSICS, 128(4): 1-17.
Abstract
Using meteor radar observations over King Sejong Station (62.22 degrees S, 58.78 degrees W) in the Antarctic Peninsula, we investigated the wave-wave interaction in the mesosphere and lower thermosphere (MLT) region. We analyzed hourly horizontal wind measurements at altitudes of 84-96 km from March 2016 through February 2017 and found that the MLT region is dominated by a semidiurnal tide (SDT) and the signature of planetary waves (PWs) with a period of similar to 8-27 days. The PW activity was substantially intensified during the winter. The day-to-day variability of SDT amplitudes are estimated and the higher-order spectral analysis of SDT amplitudes exhibits intermittent modulation of SDT at PW periods similar to 8 and 27 days in the zonal winds and periods of 8 and 16 days in the meridional winds. We observed an intense episode of tidal modulation from June through September 2016, during which a set of subsidiary spectral components around the SDT were found as a result of wave-wave interaction. Further, the bi-spectral analysis reveals that quadratic coupling (nonlinear interaction) occurred between SDT and PWs at a band period of 8-27 days, at above 90 km. We compared the spectral powers between the secondary waves created by the nonlinear interaction between the SDT and 16-day PWs. Further, we found that sum-secondary waves generated by the nonlinear interaction are stronger than the difference-secondary waves during austral winter 2016. We thus conclude that the non-linear interaction between the tides and PWs may play a major role in the short-term tidal variability in the MLT region during austral winter 2016.
URI
https://repository.kopri.re.kr/handle/201206/14861
DOI
http://dx.doi.org/10.1029/2022JA030738
Type
Article
Station
King Sejong Station
Indexed
SCIE
Appears in Collections  
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