Explores Magnetohydrodynamic equilibrium and stability, ideal MHD solutions, 'hairy ball' theorem, and boundary conditions.
Explores MHD stability, instabilities, and operational limits in tokamak plasmas, emphasizing the importance of understanding equilibrium stability and the impact of instabilities on plasma confinement.
Explores burning plasma specifics, fast ions role, losses, MHD modes, turbulence, Alfvén waves interaction, and burn stability.
Covers ideal MHD waves, including the shear Alfvén wave and compressional waves with a longitudinal component.
Explores stellarators as alternatives to tokamaks, discussing 3D magnetic configurations, pros and cons, history, and other confinement concepts.
Delves into the stability of Magnetohydrodynamic equilibria in plasmas, analyzing various instabilities and methods for stability analysis.
Explores the performance and operational limits of tokamaks in fusion energy, focusing on critical parameters, constraints, and disruption mitigation.
Explores the principles of Inertial and Magnetic Fusion, discussing energy balance, challenges, and progress towards burning plasma.
Explores the progress in magnetic confinement fusion, roadmaps to fusion power, ITER components, and the path towards DEMO.
Explores the limitations of ohmic heating in plasma and the advantages and drawbacks of neutral beam injection for additional plasma heating.
