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Lecture
Introduction to Plasma Physics
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Related lectures (32)
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MHD Stability and Operational Limits
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.
MHD Equilibrium & Stability
Explores Magnetohydrodynamic equilibrium and stability, ideal MHD solutions, 'hairy ball' theorem, and boundary conditions.
Magnetohydrodynamic Equilibrium Configurations
Covers MHD equilibrium configurations, including tokamak and stellarator concepts, force balance equations, and safety factors.
MHD Stability and Operational Limits
Explores MHD stability, operational limits, fusion device performance, and control mechanisms.
Tokamak Concept: Main Elements and Properties
Explores the main elements and properties of a tokamak, including shaping, safety factor, equilibrium, and the JET tokamak.
MHD Equilibrium: Equations and Applications
Covers the equations for static ideal MHD equilibrium and force-free and force-balanced equilibria in plasma physics.
MHD Equilibrium Configurations
Explores MHD equilibrium configurations in 2D, focusing on tokamaks and stellarators for magnetic confinement.
Burning Plasmas: Fast Ions Role
Explores burning plasma specifics, fast ions role, losses, MHD modes, turbulence, Alfvén waves interaction, and burn stability.
MHD: The Magnetohydrodynamic Description
Covers the Magnetohydrodynamic (MHD) description of plasma, including MHD equations, conservation properties, and ideal vs. resistive models.
Stellarators: Confinement Concepts
Explores stellarators as alternatives to tokamaks, discussing 3D magnetic configurations, pros and cons, history, and other confinement concepts.
