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How Jupiter’s unusual magnetospheric topology structures its aurora

Binzheng Zhang, P. A. Delamere, Zhonghua Yao, Bertrand Bonfond, Dong Lin, Kareem Sorathia, O. J. Brambles, W. Lotko, Jeff S. Garretson, V. G. Merkin, Denis Grodent, W. R. Dunn, J. G. Lyon

2021Science Advances64 citationsDOIOpen Access PDF

Abstract

Jupiter's bright persistent polar aurora and Earth's dark polar region indicate that the planets' magnetospheric topologies are very different. High-resolution global simulations show that the reconnection rate at the interface between the interplanetary and jovian magnetic fields is too slow to generate a magnetically open, Earth-like polar cap on the time scale of planetary rotation, resulting in only a small crescent-shaped region of magnetic flux interconnected with the interplanetary magnetic field. Most of the jovian polar cap is threaded by helical magnetic flux that closes within the planetary interior, extends into the outer magnetosphere, and piles up near its dawnside flank where fast differential plasma rotation pulls the field lines sunward. This unusual magnetic topology provides new insights into Jupiter's distinctive auroral morphology.

Topics & Concepts

Jupiter (rocket family)Topology (electrical circuits)PolarRotation (mathematics)PhysicsPolar capMagnetosphereAstrobiologyAstronomyGeophysicsMagnetic fieldGeometryMathematicsSpacecraftQuantum mechanicsCombinatoricsAstro and Planetary ScienceGeomagnetism and Paleomagnetism StudiesIonosphere and magnetosphere dynamics
How Jupiter’s unusual magnetospheric topology structures its aurora | Litcius