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Related lectures (32)

Explores the progress in magnetic confinement fusion, roadmaps to fusion power, ITER components, and the path towards DEMO.

Heating, Burning Plasmas, ITER and Route to Fusion Power Plant

Explores heating and burning plasmas, ITER, fusion power plant route, tritium importance, and future prospects.

Heating and Burning Plasmas: ITER and Fusion Power Plant

Explores heating and burning plasmas, ITER, fusion power plants, and the importance of tritium in fusion reactors.

Burning Plasmas: Fast Ions Role

Explores burning plasma specifics, fast ions role, losses, MHD modes, turbulence, Alfvén waves interaction, and burn stability.

Plasma Heating: Neutral Beams

Explores the limitations of ohmic heating in plasma and the advantages and drawbacks of neutral beam injection for additional plasma heating.

Plasma Physics and Fusion Energy

Explores the complexity of boundary plasma in fusion energy research, focusing on experimental techniques and simulations to understand plasma dynamics and improve fusion reactor design.

Tokamak Concept: Main Elements and Properties

Explores the main elements and properties of a tokamak, including shaping, safety factor, equilibrium, and the JET tokamak.

Plasma Physics and Fusion Energy

Introduces Plasma Physics and Fusion Energy, covering energy consumption, fusion reactions, advantages of fusion energy, plasma confinement, challenges in tokamak physics, and the ITER project.

Fusion Reactor Edge Physics

Explores the physics at the edge of fusion devices, focusing on confining plasma and optimizing fusion reactor operation.

Thermonuclear Fusion: Power Balance

Explores fusion power density, losses, breakeven, ignition, and engineering fusion gain in thermonuclear fusion reactors.

Fusion Energy: Challenges and Solutions

Discusses the importance of energy for development, the need for alternative energy sources, and the potential of fusion energy.

Plasma Wall Interactions: Fusion

Explores the requirements for a fusion reactor's first wall and the advantages of the divertor concept, including innovative configurations and challenges.

Nuclear Fusion: Creating Stars on Earth

Covers nuclear fusion as a sustainable energy source and its potential to create stars on Earth through advanced research and technology.

Inertial and Magnetic Fusion

Explores the principles of Inertial and Magnetic Fusion, discussing energy balance, challenges, and progress towards burning plasma.

Heating and Current Drive by Waves

Explores the use of waves for heating and current drive in tokamaks, focusing on ICRH and LH waves, their mechanisms, and antenna features.

MHD Equilibrium Configurations

Explores MHD equilibrium configurations in 2D, focusing on tokamaks and stellarators for magnetic confinement.

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.

Nuclear Fusion: Creating a Star on Earth

Explores the potential of fusion energy, emphasizing its benefits and challenges, with a focus on the ITER project.

Magnetohydrodynamic Equilibrium Configurations

Covers MHD equilibrium configurations, including tokamak and stellarator concepts, force balance equations, and safety factors.

Plasma Physics and Fusion Energy

Explores plasma physics, nuclear fusion, and experimental techniques for studying tokamak boundary plasmas, aiming to achieve clean and sustainable energy production.