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Central peaking of magnetized gas discharges
Francis F. Chen,
Davide Curreli
Nuclear, Plasma, and Radiological Engineering
National Center for Supercomputing Applications (NCSA)
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Engineering
Magnetic Field
100%
Boundary Condition
100%
Electron Temperature
100%
Finite Length
100%
Strong Electric Field
100%
Plasma Density
100%
1D Model
100%
Short-Circuit Effect
100%
Endplate
100%
Keyphrases
Gas Discharge
100%
Magnetic Field
50%
Electron Temperature
50%
Density Profile
50%
1D Model
50%
Finite Length
50%
Strong Electric Field
50%
Radio Frequency Power
50%
Skin Depth
50%
B-field
50%
Short-circuit Effect
50%
Radiofrequency Fields
50%
Plasma Density
50%
Partially Ionized Gases
50%
Larmor Radius
50%
Physics
Gas Discharges
100%
Electron Energy
50%
Magnetic Field
50%
Electric Fields
50%
Boundary Condition
50%
Ionized Gas
50%
Plasma Density
50%
Larmor Radius
50%