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Quasi‐biennial oscillation of the ionospheric wind dynamo
Author(s) -
Yamazaki Yosuke,
Liu Huixin,
Sun YangYi,
Miyoshi Yasunobu,
Kosch Michael J.,
Mlynczak Martin G.
Publication year - 2017
Publication title -
journal of geophysical research: space physics
Language(s) - English
Resource type - Journals
eISSN - 2169-9402
pISSN - 2169-9380
DOI - 10.1002/2016ja023684
Subject(s) - thermosphere , dynamo , ionosphere , quasi biennial oscillation , atmospheric sciences , latitude , stratosphere , oscillation (cell signaling) , environmental science , physics , climatology , geology , geophysics , astronomy , magnetic field , quantum mechanics , biology , genetics
The interannual variation of the ionospheric solar quiet ( S q ) current system is examined. A dense magnetometer network over Japan enables the accurate determination of the central position of the northern S q current loop or the S q current focus, during 1999–2015. It is found that the S q focus latitude undergoes an interannual variation of ±2° with a period of approximately 28 months, similar to the quasi‐biennial oscillation (QBO) in the tropical lower stratosphere. The QBO‐like variation of S q is particularly evident during 2005–2013. No corresponding interannual variability is found in solar extreme ultraviolet radiation. Comparisons with tidal winds, derived from a whole‐atmosphere model, reveal that the QBO‐like variation of the S q current focus is highly correlated with the amplitude variations of migrating and nonmigrating diurnal tides in the lower thermosphere. The results suggest that the stratospheric QBO can influence the ionospheric wind dynamo through the QBO modulation of tides.