INIS
hybrids
100%
coupling
100%
iter tokamak
100%
jets
100%
sols
100%
power
45%
density
36%
edge localized modes
36%
gas injection
36%
plasma
27%
antennas
27%
saturation
18%
decay
9%
layers
9%
thickness
9%
pulses
9%
electrons
9%
modeling
9%
increasing
9%
range
9%
particles
9%
walls
9%
gases
9%
heat flux
9%
h-mode plasma confinement
9%
configuration
9%
distance
9%
time resolution
9%
plasma scrape-off layer
9%
confinement
9%
electron density
9%
valves
9%
langmuir probe
9%
lower hybrid current drive
9%
Keyphrases
Lower Hybrid
100%
Hybrid Coupling
100%
Coupling Measurement
100%
Hybrid Power
45%
Edge Localized Modes
36%
Gas Injection
36%
Antenna
18%
Launcher
18%
Plasma Scenarios
9%
Scrape-off Layer
9%
Separatrix
9%
H-mode
9%
Heat Flux
9%
Power Dissipation
9%
Near-field
9%
Electron Density
9%
Plasma Edge
9%
Plasma Layer
9%
Total Gas
9%
High Confinement
9%
Flat Profile
9%
EDGE2D
9%
Mode Profile
9%
Gas Puff
9%
Lower Hybrid Current Drive
9%
Power Coupling
9%
Confinement Regimes
9%
Langmuir Probe
9%
Particle Burst
9%
Hybrid Antenna
9%
Saturation Current
9%
Engineering
Hybrid Power
100%
Gas Injection
80%
Antenna
60%
Energy Dissipation
20%
Sufficient Time
20%
Power Coupling
20%
Current Drive
20%
Heat Flux
20%
Carrier Concentration
20%
Physics
Antenna
100%
Blood Plasma
66%
Electron Density
33%
Plasma Layer
33%
Electrostatic Probe
33%