Litcius/Paper detail

Modeling the Impact of Metallic Ion Layers on Equatorial Spread With SAMI3/ESF

J. D. Huba, J. Krall, D. P. Drob

2020Geophysical Research Letters18 citationsDOI

Abstract

Abstract The impact of region metal ion layers on the development of equatorial plasma bubbles is investigated using the SAMI3/ESF model. We find that metal ion layers reduce the growth rate of the generalized Rayleigh‐Taylor instability (GRTI) and act to suppress the development of equatorial plasma bubbles. This is consistent with theoretical expectations and observations and is attributed to the increase in both the Pedersen and Hall conductances. Additionally, inhomogeneities in the region metal ion layer can map into the layer and alter the morphology of equatorial spread (ESF) bubble evolution. Lastly, we find that if EFS bubbles develop in the presence of a metal ion layer, then the electric fields generated by the instability can lift the metal ions into the region. This is consistent with observations of Fe in the region during equatorial spread .

Topics & Concepts

Rayleigh–Taylor instabilityInstabilityIonPlasmaMetalBubbleF regionMaterials scienceLayer (electronics)GeophysicsPhysicsMechanicsNanotechnologyQuantum mechanicsMetallurgyIonosphere and magnetosphere dynamicsSolar and Space Plasma DynamicsMagnetic confinement fusion research