2017
DOI: 10.1002/2017ja024446
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First observation of mesosphere response to the solar wind high‐speed streams

Abstract: We present a first analysis of 9 and 6.75 day periodic oscillations observed in the neutral mesospheric density in 2005 and 2006. Mesospheric densities near 90 km are derived using data from the Davis meteor radar (68.5°S, 77.9°E; magnetic latitude, 74.6°S), Antarctica. Spectral analysis indicates that the pronounced periodicities of 9 and 6.75 days observed in the mesosphere densities are associated with variations in solar wind high‐speed streams and recurrent geomagnetic activity. Neutral mesospheric winds … Show more

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Cited by 26 publications
(46 citation statements)
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“…A harmonic fit of annual, semiannual, terannual, and quadrennial components for peak heights shows a maximum in midwinter (i.e., January) of approximately 90 km and minimum in midsummer (i.e., July) at around 88.6 km. The peak height can be used as a proxy for the height of a constant neutral atmospheric density surface (e.g., Clemesha & Batista, ; Lima et al, ; Liu et al, ; Stober et al, , ; Yi, Reid, Xue, Younger, Murphy, et al, ; Yi, Reid, Xue, Younger, Spargo, et al, ; Yi et al, ), and this will be discussed in below.…”
Section: Instruments and Data Setsmentioning
confidence: 99%
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“…A harmonic fit of annual, semiannual, terannual, and quadrennial components for peak heights shows a maximum in midwinter (i.e., January) of approximately 90 km and minimum in midsummer (i.e., July) at around 88.6 km. The peak height can be used as a proxy for the height of a constant neutral atmospheric density surface (e.g., Clemesha & Batista, ; Lima et al, ; Liu et al, ; Stober et al, , ; Yi, Reid, Xue, Younger, Murphy, et al, ; Yi, Reid, Xue, Younger, Spargo, et al, ; Yi et al, ), and this will be discussed in below.…”
Section: Instruments and Data Setsmentioning
confidence: 99%
“…The results above show that the densities obtained from the KMMR and MSIS show similar annual variations; however, the KMMR densities exhibit more seasonal and intraseasonal variations than the MSIS model density. To determine whether KMMR‐derived densities are sufficiently reliable to study the climate and dynamics of the MLT region, we also compared KMMR densities with simultaneous observations of the meteor peak height by KMMR, which can be used to infer changes in neutral atmospheric density (e.g., Clemesha & Batista, ; Lima et al, ; Liu et al, ; Stober et al, , ; Yi, Reid, Xue, Younger, Murphy, et al, ; Yi, Reid, Xue, younger, Spargo, et al, ; Yi et al, ).…”
Section: Seasonal Variation Of the Neutral Atmospheric Density And Pementioning
confidence: 99%
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“…In response, Yi et al () have mentioned a Yi, Reid, Xue, Younger, Murphy, et al () paper which discussed a mechanism for the Yi, Reid, Xue, Younger, Spargo, et al () mesospheric effects. We agree with much of what Yi, Reid, Xue, Younger, Murphy, et al () have stated, but what is missing is that these are freshly injected ~10‐ to 100‐keV electrons into the magnetosphere (not trapped particles) and specifically ~20‐ to 50‐keV electron energies (not a “few kiloelectron volt to several megaelectron volt energies”).…”
Section: Commentsmentioning
confidence: 99%