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Variations in Thermosphere Composition and Ionosphere Total Electron Content Under “Geomagnetically Quiet” Conditions at Solar‐Minimum

Xuguang CaiHigh Altitude Observatory National Center for Atmospheric Research Boulder CO USAA. G. BurnsHigh Altitude Observatory National Center for Atmospheric Research Boulder CO USAWenbin WangHigh Altitude Observatory National Center for Atmospheric Research Boulder CO USALiying QianHigh Altitude Observatory National Center for Atmospheric Research Boulder CO USAN. M. PedatellaHigh Altitude Observatory National Center for Atmospheric Research Boulder CO USAA. J. CosterHaystack Observatory Massachusetts Institute of Technology Cambridge MA USAShun‐Rong ZhangHaystack Observatory Massachusetts Institute of Technology Cambridge MA USAS. C. SolomonHigh Altitude Observatory National Center for Atmospheric Research Boulder CO USAR. EastesLaboratory for Atmospheric and Space Physics University of Colorado Boulder CO USAR. E. DaniellIonospheric Physics Stoughton MA USAW. E. McClintockLaboratory for Atmospheric and Space Physics University of Colorado Boulder CO USA
2021en
ABI

Аннотация

Abstract We conducted observational and modeling studies of thermospheric composition and ionospheric total electron content (TEC) variations during two geomagnetically quiet periods (maximum Kp = 1.7) at solar minimum. Daytime thermospheric O and N 2 column density ratio (∑O/N 2 ) observed by Global‐scale Observations of the Limb and Disk and TEC from a network of ground‐based Global Navigation Satellites System receivers both exhibited large (∼30% of reference values) and long‐lived (5–11 h) day‐to‐day variations in roughly the same mid‐latitude geographic regions. Numerical simulations replicated the observed variability, though not perfectly. Analysis of the simulations suggested that the variations were mainly generated in the high‐latitudes and were subsequently advected equatorward and westward. When high‐latitudes input was turned off in simulations, the variations were negligible. This suggested the potentially important role of high‐latitude geomagnetic forcing in thermospheric composition and ionospheric density variations at mid‐latitudes even during some “geomagnetically quiet” periods at solar‐minimum.

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