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Journal of Geophysical Research: Space Physics
Volume 124, Issue 11 p. 9665-9675
Research Article

Weak Magnetic Storms Can Modulate Ionosphere‐Plasmasphere Interaction Significantly: Mechanisms and Manifestations at Mid‐Latitudes

D.V. Kotov

Corresponding Author

Institute of Ionosphere, Kharkiv, Ukraine

Correspondence to: D. V. Kotov,

dmitrykotoff@gmail.com

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P.G. Richards

Department of Computer Science, University of Alabama in Huntsville, Hunstville, Alabama, USA

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V. Truhlík

Institute of Atmospheric Physics of the Czech Academy of Sciences, Prague, Czech Republic

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N. Maruyama

Cooperative Institute for Research in Environmental Sciences, University of Colorado, Boulder, Colorado, USA

NOAA Space Weather Prediction Center, Boulder, Colorado, USA

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M. Fedrizzi

Cooperative Institute for Research in Environmental Sciences, University of Colorado, Boulder, Colorado, USA

NOAA Space Weather Prediction Center, Boulder, Colorado, USA

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M.O. Shulha

Institute of Ionosphere, Kharkiv, Ukraine

National Technical University "Kharkiv Polytechnic Institute", Department of Radio Electronics, Kharkiv, Ukraine

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O.V. Bogomaz

Institute of Ionosphere, Kharkiv, Ukraine

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J. Lichtenberger

Department of Geophysics and Space Sciences, Eötvös Loránd University, Budapest, Hungary

Geodetic and Geophysical Institute, RCAES, Hungarian Academy of Sciences, Budapest, Hungary

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M. Hernández‐Pajares

UPC‐IonSAT, IEEC‐UPC, Universitat Politècnica de Catalunya, Barcelona, Spain

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L.F. Chernogor

Institute of Ionosphere, Kharkiv, Ukraine

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L.Ya. Emelyanov

Institute of Ionosphere, Kharkiv, Ukraine

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T.G. Zhivolup

Institute of Ionosphere, Kharkiv, Ukraine

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Ya.M. Chepurnyy

Institute of Ionosphere, Kharkiv, Ukraine

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I.F. Domnin

Institute of Ionosphere, Kharkiv, Ukraine

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First published: 07 November 2019
https://doi.org/10.1029/2019JA027076

Abstract

A comprehensive study of the response of the ionosphere‐plasmasphere system at mid‐latitudes to weak (Dstmin > −50 nT) magnetic storms is presented. For the first time, it is shown that weak magnetic disturbances can lead to significant modulation of ionosphere‐plasmasphere H+ ion fluxes. It is found that this modulation is caused by the enhancements/reductions of the topside O+ ion density, which is induced by F2‐layer peak height rise and fall during the storms. The F2‐layer motion is caused by thermospheric wind changes and by a penetration electric field. Both drivers are closely related to the changes in the Bz component of interplanetary magnetic field. The most prominent manifestation of the H+ ion flux modulation is strong changes in H+ ion fraction in the topside ionosphere. This study also indicates that the NRLMSISE‐00 model provides the correct relative changes of neutral H density during weak magnetic storms and also that there is a compelling need to include geomagnetic activity indices, in addition to solar activity (F10.7), as input parameters to empirical topside ionosphere models.