Low latitude ionospheric electrodynamics

Authors

B. G. Fejer, Utah State UniversityFollow

Document Type

Contribution to Book

Journal/Book Title/Conference

Key Processes in Solar-Terrestrial Physics

Publisher

Springer

Publication Date

2012

Abstract

The low latitude ionosphere is strongly affected by several highly variable electrodynamic processes. Over the last two decades ground-based and satellite measurements and global numerical models have been extensively used to study the longitude-dependent climatology of low latitude electric fields and currents. These electrodynamic processes and their ionospheric effects exhibit large ranges of temporal and spatial variations during both geomagnetic quiet and disturbed conditions. Numerous recent studies have investigated the short term response of equatorial electric fields and currents to lower atmospheric transport processes and solar wind-magnetosphere driving mechanisms. This includes the large electric field and current perturbations associated with arctic sudden stratospheric warming events during geomagnetic quiet times and highly variable storm time prompt penetration and ionospheric disturbance dynamo effects. In this review, we initially describe recent experimental and numerical modeling results of the global climatology and short term variability of quiet time low latitude electrodynamic plasma drifts. Then, we examine the present understanding of equatorial electric field and current perturbation fields during periods of enhanced geomagnetic activity.

Comments

ISBN 978-1-4614-1492-6

Recommended Citation

Fejer, B. G., Low latitude ionospheric electrodynamics in Key Processes in Solar-Terrestrial Physics, W. Gonzales and J. L. Burch (Eds.), Springer, ISBN 978-1-4614-1492-6, 2012.