Concept

Tokamak

Related lectures (32)

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.

MHD Equilibrium Configurations

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

Magnetohydrodynamic Equilibrium Configurations

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

Tokamak Concept: Main Elements and Properties

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

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.

Electron Cyclotron Resonance Heating

Explores Electron Cyclotron Resonance Heating for plasma heating and current drive, focusing on wave-particle resonances, ECRH system components, and applications in TCV tokamak and ITER.

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.

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.

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.

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.

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.

Turbulence in Tokamak Plasmas

Explores the limitations of classical transport models in tokamak plasmas, the impact of turbulence on plasma confinement, and the empirical transport scaling for ITER design.

Stellarators: Confinement Concepts

Explores stellarators as alternatives to tokamaks, discussing 3D magnetic configurations, pros and cons, history, and other confinement concepts.

Fusion Energy: ITER Project Overview

Introduces fusion energy and the ITER Project, discussing technical challenges, physics of tokamaks, and experimental challenges.

Fusion Energy: Challenges and Solutions

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

Diffusion and transport in tokamak plasmas

Covers diffusive transport in tokamak plasmas, including classical and neo-classical diffusion, ambipolar diffusion, and turbulent transport.

Introduction to Plasma Physics

Covers high-confinement regimes, induced current density, fusion plasma self-sustainment, and MHD ideal conditions.

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.

From Fusion to DEMO

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

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