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Stability of JET discharges with zero core current density
B.C. Stratton
, J. Breslau
, R. Budny
, S. Jardin
, N.C. Hawkes
, T. Hender
, G. Huysmans
,
Tuomas Tala
, JET-EFDA contributors
Princeton Plasma Physics Laboratory (PPPL)
Culham Science Centre
Commissariat a l'Energie Atomique et aux Energies Alternatives (CEA)
Research output
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Contribution to conference
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Conference article
›
Scientific
›
peer-review
Overview
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INIS
stability
100%
jets
100%
current density
100%
simulation
33%
barriers
33%
modeling
33%
transport
33%
errors
33%
fluids
33%
temperature measurement
33%
injection
33%
electron temperature
33%
stark effect
33%
lower hybrid heating
33%
Keyphrases
Current Density
100%
Current Drive
33%
Measurement Error
33%
Lower Hybrid
33%
Two-fluid
33%
Code Modeling
33%
Q Profile
33%
Diagnostic Measurement
33%
Fluid Simulation
33%
Current Ramp-up
33%
Internal Transport Barrier
33%
Hybrid Heating
33%
Zero Current
33%
Sawtooth
33%
Electron Temperature Measurement
33%
Motional Stark Effect
33%
Physics
Stark Effect
100%
Electron Energy
100%
Biochemistry, Genetics and Molecular Biology
Current Density
100%
Drive
66%
Earth and Planetary Sciences
Current Density
100%
Stark Effect
33%
Electron Energy
33%