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Ionospheric Energy Input in Response to Changes in Solar Wind Driving: Statistics From the SuperDARN and AMPERE Campaigns

Daniel Billett, K. A. McWilliams, G. W. Perry, L. B. N. Clausen, B. J. Anderson

2022Journal of Geophysical Research Space Physics18 citationsDOIOpen Access PDF

Abstract

Abstract For over a decade, the Super Dual Auroral Radar Network and the Active Magnetosphere and Planetary Electrodynamics Response Experiment have been measuring ionospheric convection and field‐aligned currents in the high‐latitude regions, respectively. Using both, high‐latitude maps of the magnetosphere‐ionosphere energy transfer rate (the Poynting flux) have been generated with a time resolution of 2 min between 2010 and 2017. These data driven Poynting flux (PF) patterns are used in this study to perform a superposed epoch analysis of the northern hemisphere ionospheric response to transitions of the interplanetary magnetic field B z component, upwards of 60° geomagnetic latitude. We discuss the difference in the distribution of PF between the magnetosphere‐ionosphere Dungey cycle “switching on” and “switching off” to solar wind driving, revealing that they are not symmetric temporally or spatially.

Topics & Concepts

IonosphereMagnetospherePhysicsInterplanetary magnetic fieldGeophysicsSolar windPoynting vectorEarth's magnetic fieldAtmospheric sciencesComputational physicsPlasmaMagnetic fieldQuantum mechanicsIonosphere and magnetosphere dynamicsGeomagnetism and Paleomagnetism StudiesSolar and Space Plasma Dynamics
Ionospheric Energy Input in Response to Changes in Solar Wind Driving: Statistics From the SuperDARN and AMPERE Campaigns | Litcius