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Plasma stability
Analysis of Equilibrium and Topology of Tokamak Plasmas
Formation of Hot, Stable, Long-Lived Field-Reversed Configuration Plasmas on the C-2W Device
Plasma Stability and the Bohr - Van Leeuwen Theorem
Modeling and Control of Plasma Rotation for NSTX Using
An Overview of the HIT-SI Research Program and Its Implications for Magnetic Fusion Energy
An Overview of Plasma Confinement in Toroidal Systems
Plasma Physics and Controlled Fusion Research During Half a Century Bo Lehnert
Plasma Physics and Fusion Energy
Polywell – a Path to Electrostatic Fusion
Tokamak Elongation – How Much Is Too Much? I Theory J. P. Freidbergι
A Computational Study of a Lithium Deuteride Fueled Electrothermal Plasma Mass Accelerator
Meeting Report
Thick Liquid-Walled, Field-Reversed Configuration*
Magnetic Confinement Fusion Almost Two Orders of Magnitude Lower Than in a Deuterium-Tritium Mixture
Fusion Potential for Spherical and Compact Tokamaks
Effects of a Conducting Wall on Z-Pinch Stability Sean D
“Development of 3-D Divertor Solutions for Stellarators Through Coordinated Domestic and International Research”
Space Fusion Energy Conversion Using a Field Reversed
Top View
Equilibrium and Stability of Tokamak Plasmas with Arbitrary Flow By
Local Gyrokinetic Stability Theory of Plasmas of Arbitrary Degree of Neutrality
Ideal Mhd Stability of Tokamak Plasmas with Moderate and Low Aspect Ratio
Stellarator and Tokamak Plasmas – a Comparison
The Spherical Tokamak Path to Fusion Power
A Toroidal Fusion Reactor Design Based on the Reversed-Field Pinch Randy Lee Hagenson Iowa State University
Magnetohydrodynamic (MHD) Stability of Wendelstein7-X Reactor with Resistive Wall (Rwms)
Plasma Stability in Tokamaks and Stellarators
Stability, Current Drive and Heating, Energetic Particles: Summary Review1
A Review of Fusion and Tokamak Research Towards Steady-State Operation: a JAEA Contribution
Shaping Effects on Magnetohydrodynamic Instabilities
Magnetic Confinement Fusion Part 1. Tokamaks, and Plasma Physics in Tokamaks Part 2
Master's Thesis
Physics Basis for a Tokamak Fusion Power Plant
Fusion Energy and Tokamaks
Integrated Plasma and Coil Optimization for Compact Stellarators
Fusion Plasma Physics During Half a Century
Arxiv:2010.03883V1 [Physics.Plasm-Ph] 8 Oct 2020 Universidad Carlos III De Madrid, 28911 Leganes, Madrid, Spain