Electrodynamic coupling of the magnetosphere and ionosphere

Keyphrases

• Ionosphere 100%
• Magnetosphere 100%
• Parallel Electric Field 100%
• Electrodynamic Coupling 100%
• Auroral 75%
• Potential Drop 75%
• Outer Magnetosphere 50%
• Field-aligned Currents 50%
• Particle Motion 50%
• Electric Field (E-field) 50%
• Auroral Zone 50%
• Convection 25%
• Magnetic Field 25%
• Field Lines 25%
• Boundary Layer 25%
• Time-dependent Processes 25%
• Low Altitude 25%
• Steady State 25%
• Field Distribution 25%
• Satellite Observations 25%
• Nonlinear Effects 25%
• Linear Relationship 25%
• Current Density 25%
• Particle Distribution 25%
• Boundary Layer Region 25%
• Energy Transfer 25%
• Double Layer 25%
• Kinetic Effects 25%
• Current Lead 25%
• Geomagnetic Field 25%
• Earth's Magnetic Field 25%
• Potential Jump 25%
• Dissipation Rate 25%
• Linear Current 25%
• Similar Processes 25%
• Auroral Ionosphere 25%
• Magnetohydrodynamic (MHD) Turbulence 25%
• Plasma Instabilities 25%
• Auroral Currents 25%
• Wave-particle Interaction 25%
• Particle Orbits 25%
• Ionospheric Conductivity 25%
• Magnetohydrodynamic Fluid 25%
• Effective Transport Coefficients 25%
• Particle Precipitation 25%
• Current-carrying Plasma 25%
• Magnetohydrodynamic Equations 25%
• Turbulence Theory 25%
• Enhanced Ionization 25%
• Ohm's Law 25%
• Magnetohydrodynamic Model 25%
• Discrete Potentials 25%
• Effective Resistivity 25%
• Plasma Convection 25%
• Outer Scale 25%
• Current-voltage Relation 25%
• Feedback Interactions 25%
• Parallel Current 25%
• Micropulsations 25%
• Spectral Transfer 25%
• Adiabatic Motions 25%

Physics

• Magnetosphere 100%
• Electric Field 100%
• Electrodynamics 100%
• Auroral Zone 50%
• Magnetohydrodynamics 50%
• Blood Plasma 50%
• Magnetic Field 33%
• Field Aligned Current 33%
• Boundary Layer 16%
• Nonlinear Effect 16%
• Wave-Particle Interaction 16%
• Steady State 16%
• Transport Property 16%
• Magnetohydrodynamic Turbulence 16%
• Particle Motion 16%
• Geomagnetism 16%
• Magnetohydrodynamic Stability 16%
• Ionospheric Conductivity 16%
• Particle Precipitation 16%
• Boundary Layer Plasmas 16%
• Micropulsations 16%

Earth and Planetary Sciences

• Magnetosphere 100%
• Electrodynamics 100%
• Electric Field 83%
• Ionospherics 50%
• Magnetohydrodynamics 50%
• Auroral Zone 50%
• Field Aligned Current 33%
• Transport Property 16%
• Current Density 16%
• Satellite Observation 16%
• Magnetohydrodynamic Turbulence 16%
• Particle Motion 16%
• Geomagnetism 16%
• Magnetohydrodynamic Stability 16%
• Ionospheric Conductivity 16%
• Boundary Layer Plasmas 16%
• Ohms Law 16%
• Micropulsations 16%
• Particle Precipitation 16%
• Boundary Layer 16%
• Wave-Particle Interaction 16%