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Force-free collisionless current sheet models with non-uniform temperature and density profiles
F. Wilson, T. Neukirch,
O. Allanson
Electronic, Electrical and Systems Engineering
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peer-review
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Dive into the research topics of 'Force-free collisionless current sheet models with non-uniform temperature and density profiles'. Together they form a unique fingerprint.
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Keyphrases
Temperature Profile
100%
Temperature Uniformity
100%
Collision-free
100%
Density Profile
100%
Force-free
100%
Non-uniform Density
100%
Current Sheet Model
100%
Distribution Function
66%
Magnetic Field
33%
Equilibrium Distribution
33%
Bulk Velocity
33%
Pressure-driven Flow
33%
Density-driven Flow
33%
Velocity Space
33%
Current Sheet
33%
Vlasov-Maxwell
33%
Jacobian Elliptic Functions
33%
Linear Force-free Fields
33%
Mathematics
Nonuniform
100%
Density Profile
100%
Uniform Temperature
100%
Distribution Function
100%
Magnetic Field
33%
Flow Velocity
33%
Equilibrium Distribution
33%
Jacobian Elliptic Function
33%
Physics
Distribution Function
100%
Blood Plasma
100%
Current Sheet
100%
Magnetic Field
33%
Flow Velocity
33%
Temperature Profile
33%
Chemical Engineering
Space Velocity
100%