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Kareem Sorathia
Johns Hopkins University Applied Physics LaboratoryMeeting roles in:
Global Modeling of the Circulation and Acceleration of Plasmasphere-originating Plasma
Contributions of Polar Outflows to the Storm-Time Magnetosphere: Insights from Multifluid MHD Simulations.
Ensemble Modeling to Quantify Input Uncertainty Estimation in MAGE
Auroral Omega Bands as Signatures of Magnetosphere-Ionosphere Coupling: MAGE Simulations of Two Distinct Morphologies
Exploring Stormtime Geospace as a Complex System: Recent Developments from the Center for Geospace Storms
Global Ionospheric Electrodynamics During Geomagnetic Storms: Combined Effects of Wind-Driven Dynamo, Magnetospheric Field-Aligned Currents and Energetic Particle Precipitation
A Global View of Reconnection and Heating in Jupiter’s Magnetosphere
MAGE-RB: A Global Cross-Scale Model for Natural and Artificial Radiation Belts
Mesoscale dynamics of the stormtime ring current and their manifestation in ion-driven aurora
Beyond MHD: towards a flexible fluid-kinetic global geospace model
The Role of Mesoscale Convection in Transport and Acceleration of Ring Current and Radiation Belt Particles
On the spatial relationship between the aurora and relativistic electron precipitation during a storm-time substorm
Formation of Auroral Omega Bands Driven by Plasma Transport Flows
The Influence of the Ring current/Plasmasphere System on the Growth of Kelvin-Helmholtz Instability at the Earth's Dayside Magnetopause
Purple Rain: Direct Relativistic Electron Injections and Their Auroral Counterparts
Characterizing auroral precipitation and energy deposition with the Dragon King model in MAGE
Connecting stormtime SAR arc variability to mesoscale ring current-plasmasphere evolution via global geospace modeling
Characterizing Earth's Plasma Sheet through Multi-Spacecraft Observations and Machine Learning
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