Introduction to Plasma Physics
With Space, Laboratory and Astrophysical Applications
2nd Edition
$75.99 (C)
- Authors:
- Donald A. Gurnett, University of Iowa
- Amitava Bhattacharjee, Princeton University, New Jersey
- Date Published: February 2017
- availability: Available
- format: Hardback
- isbn: 9781107027374
$
75.99
(C)
Hardback
-
Introducing basic principles of plasma physics and their applications to space, laboratory and astrophysical plasmas, this new edition provides updated material throughout. Topics covered include single-particle motions, kinetic theory, magnetohydrodynamics, small amplitude waves in hot and cold plasmas, and collisional effects. New additions include the ponderomotive force, tearing instabilities in resistive plasmas and the magnetorotational instability in accretion disks, charged particle acceleration by shocks, and a more in-depth look at nonlinear phenomena. A broad range of applications are explored: planetary magnetospheres and radiation belts, the confinement and stability of plasmas in fusion devices, the propagation of discontinuities and shock waves in the solar wind, and analysis of various types of plasma waves and instabilities that can occur in planetary magnetospheres and laboratory plasma devices. With step-by-step derivations and self-contained introductions to mathematical methods, this book is ideal as an advanced undergraduate to graduate-level textbook, or as a reference for researchers.
Read more- Provides a self-contained introduction to the advanced mathematical methods used in the analysis of plasmas, so as to be accessible to undergraduate students in science and engineering
- Step-by-step derivations of all relevant equations are easy to follow and make clear the necessary assumptions and limitations
- Online solutions to problems in the book are available for instructors
Reviews & endorsements
'Introduction to Plasma Physics, by Gurnett and Bhattacharjee, has been and with this new addition will continue to be my go-to plasma physics book for my research, and for the graduate course I teach in plasma physics.' L. A. Fisk, University of Michigan
See more reviews'With their second edition, Gurnett and Bhattacharjee have made a good textbook great. For students aspiring to pursue the broad field of plasma physics, this is the book of choice. Relevant examples from space and laboratory plasma physics bring the subject alive. The authors' clear writing is at the right level for advanced undergrads and graduate students and makes understandable the important topical areas of plasma physics.' Michael Mauel, Columbia University, New York
'The approach of the book is in-depth and exhaustive. The derivations are detailed, with few 'and then the miracle happens' steps, which makes the book suitable for advanced undergraduates as well as researchers. Together with the meticulous mathematics, the physics is described in an intuitive way, which helps build a clear mental picture of plasma phenomena … I found the writing style refreshingly direct and readable throughout. As an aid to undergraduate teaching, most chapters finish with a problem section, with questions at a variety of levels, and suggestions for further reading … as an introduction to the general underpinning physics of plasma phenomena, it is an excellent book that I can see myself referring to extensively in future.' Stephen Milan, The Observatory
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×Product details
- Edition: 2nd Edition
- Date Published: February 2017
- format: Hardback
- isbn: 9781107027374
- length: 532 pages
- dimensions: 255 x 182 x 27 mm
- weight: 1.19kg
- contains: 230 b/w illus. 4 tables
- availability: Available
Table of Contents
Preface
1. Introduction
2. Characteristic parameters of a plasma
3. Single particle motions
4. Waves in a cold plasma
5. Kinetic theory and the moment equations
6. Magnetohydrodynamics
7. MHD equilibria and stability
8. Discontinuities and shock waves
9. Electrostatic waves in a hot unmagnetized plasma
10. Waves in a hot magnetized plasma
11. Nonlinear effects
12. Collisional processes
Appendix A. Symbols
Appendix B. Useful trigonometric identities
Appendix C. Vector differential operators
Appendix D. Vector calculus identities
Index.-
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