Quantifying adiabatic motion in the outer radiation belt and ring current with invariant matching

Adiabatic motion is a fundamental reversible process for geomagnetically trapped particle populations, including particles comprising the ring current and radiation belts. During adiabatic motion, a particle's trajectory in configuration space responds to sufficiently slow changes in the magnetospheric magnetic field. Previous research has highlighted expected patterns in adiabatic motion, such as radial motion or the D st effect. In this work, we introduce a method we call Invariant Matching for quantifying adiabatic motion between a pair of magnetospheres. This method can be applied to both simulation and semi-empirical magnetic field models, is computationally efficient, and in particular does not require tracing the particle trajectories. In this work, we use the Tsyganenko et al., Journal of Geophysical Research: Space Physics, 2005, 110 (TS05) magnetic field model, and present adiabatic motion between a storm commencement, the time of the storm's D st minimum, and a nominal recovery time. We also analyze adiabatic motion which occurs in response to enhancements of individual major current systems (including the ring current, Chapman-Ferraro current, Birkeland current, and tail current). Our methodology yields vector fields quantifying the displacement of mirror points throughout the magnetosphere, prepared in a way appropriate for application to both outer radiation belt and ring current populations.

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Author da Silva, D. E.
Elkington, S. R.
Li, X.
Hudson, Mary K.
Publisher UCAR/NCAR - Library
Publication Date 2024-05-30T00:00:00
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Topic Category geoscientificInformation
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Metadata Date 2025-07-10T20:01:51.750289
Metadata Record Identifier edu.ucar.opensky::articles:27327
Metadata Language eng; USA
Suggested Citation da Silva, D. E., Elkington, S. R., Li, X., Hudson, Mary K.. (2024). Quantifying adiabatic motion in the outer radiation belt and ring current with invariant matching. UCAR/NCAR - Library. https://n2t.org/ark:/85065/d7rb78t4. Accessed 01 August 2025.

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