Annales Geophysicae (Dec 2006)

Signatures of 3–6 day planetary waves in the equatorial mesosphere and ionosphere

  • H. Takahashi,
  • C. M. Wrasse,
  • D. Pancheva,
  • M. A. Abdu,
  • I. S. Batista,
  • L. M. Lima,
  • P. P. Batista,
  • B. R. Clemesha,
  • K. Shiokawa

DOI
https://doi.org/10.5194/angeo-24-3343-2006
Journal volume & issue
Vol. 24
pp. 3343 – 3350

Abstract

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Common periodic oscillations have been observed in meteor radar measurements of the MLT winds at Cariri (7.4° S, 36.5° W) and Ascension Island (7.9° S, 14.4° W) and in the minimum ionospheric virtual height, h'F, measured at Fortaleza (3.9° S, 38.4° W) in 2004, all located in the near equatorial region. Wavelet analysis of these time series reveals that there are 3–4-day, 6–8-day and 12–16-day oscillations in the zonal winds and h'F. The 3–4 day oscillation appeared as a form of a wave packet from 7–17 August 2004. From the wave characteristics analyzed this might be a 3.5-day Ultra Fast Kelvin wave. The 6-day oscillation in the mesosphere was prominent during the period of August to November. In the ionosphere, however, it was apparent only in November. Spectral analysis suggests that this might be a 6.5-day wave previously identified. The 3.5-day and 6.5-day waves in the ionosphere could have important roles in the initiation of equatorial spread F (plasma bubble). These waves might modulate the post-sunset E×B uplifting of the base of the F-layer via the induced lower thermosphere zonal wind and/or the E-region conductivity.