This book presents both the essentials of magnetically confined plasma physics, as well as the powerful sources of high-frequency coherent radiation used for electron cyclotron resonance heating (ECRH), electron cyclotron resonance current drive (ECRCD), and for plasma ignition, control, and diagnostics in different fusion devices.

This book describes two aspects of fusion plasma physics that are usually treated separately. Written in tutorial form, the first part of the book presents some of the essentials of magnetically confined plasma physics that are necessary for an in-depth understanding of the basic principles and underlying phenomena, in a consistent and comprehensive way. The second part is focused on existing powerful sources of high-frequency coherent radiation used for electron cyclotron resonance heating (ECRH), electron cyclotron resonance current drive (ECRCD), as well as for plasma ignition, control, and diagnostics in different fusion devices such as ITER and DEMO that are currently under development.

Key Features

• Introduces a topic of increasing importance in fusion science and technology
• Describes the essential elements of magnetically confined fusion plasma physics as well as the sources of coherent radiation used for heating, control, and diagnostics
• Gives an overview of Gyrotron and CARM technology
• Provides a design primer for high-frequency heating devices

Preface
Operators properties

Part I: Fusion plasma generalities
1 Magnetically confined plasma for fusion energy
2 MHD Models, plasma dquilibrium and instabilities
3 Plasma additional heating and Tokamak engineering issues

Part II: External additional heating sources
4 Undulator based free electron laser
5 An overview of the Gyrotron theory
6 CARM theory and relevant phenomenology
7 Plasma heating with coherent FEL-like sources

Appendix A
Appendix B
Appendix C