Concept

Aneutronic fusion

Related lectures (32)

Principles of Fusion: Thermonuclear Fusion

Covers the principles of thermonuclear fusion, including criteria for ignition and quality factors, discussing progress in fusion research.

Fusion Energy: Challenges and Solutions

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

Thermonuclear Fusion Basics

Covers the basics of thermonuclear fusion, fusion reactions, advantages, plasma physics, and fuels, highlighting the potential of fusion energy.

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.

Plasma Physics: Introduction

Covers the properties, history, and applications of plasma in various fields.

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.

Thermonuclear Fusion: Power Balance

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

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.

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.

Jet Fusion: Additive Manufacturing Process

Covers the 'Jet Fusion' additive manufacturing process using polymer powder and liquid phase sintering.

Fusion Materials: Structural Requirements

Explores fusion reactor structural material requirements, effects of 14 MeV neutrons, candidate materials, and the crucial role of material science in fusion energy.

Glass Bonding Techniques

Explores glass bonding techniques to silicon, covering principles, mechanisms, applications, and evaluation methods, including surface treatments for enhanced adhesion strength.

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.

Fusion Energy: Physics of Tokamaks

Covers the physics of tokamaks and the ITER Project for sustainable fusion energy production.

Plasma Characteristics: Interstellar Space to Solar Corona

Explores the characteristics of typical plasmas from interstellar space to solar corona, discussing temperature, number density, collision processes, and properties.

Plasma Physics and Applications

Covers the basics of plasmas and their diverse applications in fusion energy, space, astrophysics, and industry.

Plasma Physics and Applications

Covers the basics of plasmas, their applications in various fields, and the design of fusion reactors.

Plasma Physics: Introduction

Covers the basics of plasma physics and its wide-ranging applications.

Plasma Physics: Fundamentals and Applications

Covers the basics of plasma physics, its applications, and relevance in energy challenges.

Laser Fusion: Principles and Applications

Provides an overview of laser fusion principles and applications, focusing on ultrafast lasers and their role in energy generation.