Fusion
An Introduction to the Physics and Technology of Magnetic Confinement Fusion
2nd Edition
Published on 10. February 2010
Book
Paperback/Softback
XVI, 246 pages
978-3-527-40967-9 (ISBN)
Description
This second edition of a popular textbook is thoroughly revised with around 25% new and updated content.
It provides an introduction to both plasma physics and fusion technology at a level that can be understood by advanced undergraduates and graduate students in the physical sciences and related engineering disciplines.
As such, the contents cover various plasma confinement concepts, the support technologies needed to confine the plasma, and the designs of ITER as well as future fusion reactors.
With end of chapter problems for use in courses.
It provides an introduction to both plasma physics and fusion technology at a level that can be understood by advanced undergraduates and graduate students in the physical sciences and related engineering disciplines.
As such, the contents cover various plasma confinement concepts, the support technologies needed to confine the plasma, and the designs of ITER as well as future fusion reactors.
With end of chapter problems for use in courses.
Reviews / Votes
"It is, however, a good introduction to the field, especially for advanced students in engineering sciences." (Contemporary Physics, 6 November 2011)More details
Edition
2. vollst. überarb. u. erw. Auflage
Language
English
Place of publication
Berlin
Germany
Target group
College/higher education
Illustrations
143
143 s/w Abbildungen
Dimensions
Height: 24 cm
Width: 17 cm
Thickness: 1.6 cm
Weight
458 gr
ISBN-13
978-3-527-40967-9 (9783527409679)
Schweitzer Classification
Other editions
Additional editions
E-Book
01/2010
2nd Edition
Wiley-VCH
€102.99
Available for download
Previous edition
Book
01/1991
Wiley
€209.22
Article exhausted; check for reprint
Person
Weston M. Stacey is Professor of Nuclear Engineering at the Georgia Institute of Technology. His career spans more than 40 years of research and teaching in nuclear reactor physics, fusion plasma physics and fusion and fission reactor conceptual design. He led the IAEA INTOR Workshop (1979-88) that led to the present ITER project, for which he was awarded the US Department of Energy Distinguished Associate Award and two Department of Energy Certificates of Appreciation. Professor Stacey is a Fellow of the American Nuclear Society and of the American Physical Society. He is the recipient of several prizes, among them the American Nuclear Society Seaborg Medal for Nuclear Research and the Wigner Reactor Physics Award, and the author of six previous books and numerous research papers.
Content
1. Introduction
2. Basic Properties
3. Equilibrium and Transport
4. Confinement
5. Plasma Heating and Current Drive
6. Plasma-Wall Interaction
7. Magnetics
8. Transient Electromagnetics
9. Interaction of Radiation with Matter
10. Primary Energy Conversion and Tritium Breeding Blanket
11. Tritium and Vacuum
12. Fusion Reactors
Appendices
A. Physical Constants
B. Conversion Factors
2. Basic Properties
3. Equilibrium and Transport
4. Confinement
5. Plasma Heating and Current Drive
6. Plasma-Wall Interaction
7. Magnetics
8. Transient Electromagnetics
9. Interaction of Radiation with Matter
10. Primary Energy Conversion and Tritium Breeding Blanket
11. Tritium and Vacuum
12. Fusion Reactors
Appendices
A. Physical Constants
B. Conversion Factors