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Electrodynamic coupling of the magnetosphere and ionosphere
Robert L. Lysak
Physics and Astronomy (Twin Cities)
Research output
:
Contribution to journal
›
Article
›
peer-review
187
Scopus citations
Overview
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Dive into the research topics of 'Electrodynamic coupling of the magnetosphere and ionosphere'. Together they form a unique fingerprint.
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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%