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Studies on the parametric decay of waves in fusion plasmas: Dissertation
Timo Pättikangas
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Thesis
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Dissertation
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Dive into the research topics of 'Studies on the parametric decay of waves in fusion plasmas: Dissertation'. Together they form a unique fingerprint.
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Keyphrases
Fusion Plasma
100%
Pump Wave
100%
Parametric Decay
100%
Stimulated Brillouin Scattering
100%
Tokamak
66%
Current Drive
66%
Parametric Instability
66%
Electromagnetic Waves
66%
Free Electron Laser
66%
Stimulated Raman Scattering
66%
Ion Sound Waves
66%
Fusion Application
33%
Current Drive Efficiency
33%
Laser Radiation
33%
Tokamak Plasma
33%
Growth Rate
33%
Slow Wave
33%
Stationary States
33%
Long Wavelength
33%
Wave Scattering
33%
Collision-free
33%
Fast Magnetosonic Waves
33%
Fast Electrons
33%
Energy Transfer
33%
Large Amplitude
33%
Laser Fusion
33%
Decay Modes
33%
Underdense Plasma
33%
Current Decay
33%
Relativistic Energy
33%
Electron Plasma Wave
33%
Electrostatic Decay
33%
Current Carrying Capacity
33%
Vlasov-Maxwell
33%
Maxwell Simulation
33%
Laser Parameters
33%
Envelope Model
33%
Common Ions
33%
Soliton-like
33%
Electrostatic Waves
33%
Physics
Brillouin Scattering
100%
Fusion Plasmas
100%
Tokamak Device
100%
Stimulated Raman Scattering
66%
Electromagnetic Radiation
66%
Sound Wave
66%
Free Electron Lasers
66%
Blood Plasma
66%
Energetics
33%
Energy Transfer
33%
Solitary Wave
33%
Electrostatic Wave
33%
Plasma Wave
33%
Electrostatics
33%
Laser Beams
33%
Harmonics
33%
Laser Fusion
33%
Electron Plasma
33%
INIS
decay
100%
plasma
100%
pumps
50%
electrons
50%
tokamak devices
50%
brillouin scattering
50%
ions
33%
parametric instabilities
33%
raman effect
33%
sound waves
33%
electromagnetic waves
33%
relativistic range
33%
free electron lasers
33%
simulation
16%
efficiency
16%
applications
16%
dynamics
16%
energy
16%
growth
16%
harmonics
16%
amplitudes
16%
wavelengths
16%
lasers
16%
energy transfer
16%
electrostatics
16%
laser radiation
16%
magnetosonic waves
16%
solitons
16%
electrostatic waves
16%
electron plasma waves
16%