Propagation of EMIC waves from Shabansky orbits in the dayside magnetosphere

Authors

Eun-Hwa Kim, Andrews UniversityFollow
Syun'ichi Shiraiwa, Princeton University
Jay Johnson, Andrews UniversityFollow
Nicola Bertelli, Princeton University
Sarah K. Vines, Johns Hopkins University
Khan-Hyuk Kim, Kyung Hee University, South Korea
Mark Engebretson, Augsburg University
Hyomin Kim, New Jersey Institute of Technology
Carson O'ffill, Andrews UniversityFollow

Document Type

Article

Publication Date

1-1-2025

Abstract

We explore the characteristics of EMIC waves generated in a non-dipole, compressed magnetic field at the minimum of the magnetic field. We conducted 2D full-wave simulations using the Petra-M code, focusing on a compressed magnetic field in the outer dayside magnetosphere for a range of L values (Formula presented.). By comparing the simulation results with MMS observations, we aim to understand how the observed wave characteristics are affected by a shifting source region across different L-shells. Our findings indicate that the direction of the Poynting vector systematically changes depending on the local source location of the wave, which is consistent with the observations. EMIC waves propagate along the magnetic field line and reach both the northern and southern hemispheres; however, there is a notable difference in the power of EMIC waves between the two hemispheres, indicating seasonal asymmetries in their occurrence.

Comments

Publisher Copyright: © 2025. The Author(s).

Journal Title

Geophysical Research Letters

Volume

52

Issue

4

DOI

10.1029/2024GL113368

Recommended Citation

Kim, Eun-Hwa; Shiraiwa, Syun'ichi; Johnson, Jay; Bertelli, Nicola; Vines, Sarah K.; Kim, Khan-Hyuk; Engebretson, Mark; Kim, Hyomin; and O'ffill, Carson, "Propagation of EMIC waves from Shabansky orbits in the dayside magnetosphere" (2025). Faculty Publications. 5639.
https://digitalcommons.andrews.edu/pubs/5639