Introduction to Plasmas and Plasma Dynamics: With Plasma Physics Applications to Space Propulsion, Magnetic Fusion and Space Physics
Autor Hai-Bin Tang, Thomas M. Yorken Limba Engleză Paperback – 8 mai 2024
Starting with the essential theory, this book goes on to describe relevant devices and mechanisms, before presenting a clear outline of the analysis and numerical details of plasma. The latest trends, concepts, and applications in plasma engineering are also addressed, including plasma formation and magnetic fusion, plasma thrusters and space propulsion.
- Describes plasma applications with close reference to elementary processes, promoting a deeper understanding of plasmas in new fields
- Provides structured problems in every chapter that help readers grasp the book’s practical lessons
- Includes a new chapter on numerical methods in plasmas that adds crucial context for experimental approaches
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Specificații
ISBN-13: 9780443136993
ISBN-10: 0443136998
Pagini: 420
Dimensiuni: 191 x 235 mm
Greutate: 0.45 kg
Ediția:2
Editura: ELSEVIER SCIENCE
ISBN-10: 0443136998
Pagini: 420
Dimensiuni: 191 x 235 mm
Greutate: 0.45 kg
Ediția:2
Editura: ELSEVIER SCIENCE
Cuprins
1. The Plasma Medium and Plasma Devices
PART I Physics Concepts
2. Kinetic Theory of Gases
3. Molecular Energy Distribution and Ionization in Gases
4. Electromagnetics
PART II Plasma Concepts
5. Plasma Parameters and Regimes of Interaction
6. Particle Orbit Theory
7. Macroscopic Equations of Plasmas
8. Hydromagnetics; Fluid Behavior of Plasmas
9. Introduction to Kinetic Behavior and Analysis
10. Numerical Simulation and Plasma Representations
PART III Plasma Physics Applications
11. Plasma Acceleration and Energy Conversion
12. Plasma Thrusters
13. Magnetic Compression and Heating
14. Wave Heating of Plasmas
15. Magnetic Fusion Plasmas
16. Space Plasma: Environment and Plasma Dynamics
PART I Physics Concepts
2. Kinetic Theory of Gases
3. Molecular Energy Distribution and Ionization in Gases
4. Electromagnetics
PART II Plasma Concepts
5. Plasma Parameters and Regimes of Interaction
6. Particle Orbit Theory
7. Macroscopic Equations of Plasmas
8. Hydromagnetics; Fluid Behavior of Plasmas
9. Introduction to Kinetic Behavior and Analysis
10. Numerical Simulation and Plasma Representations
PART III Plasma Physics Applications
11. Plasma Acceleration and Energy Conversion
12. Plasma Thrusters
13. Magnetic Compression and Heating
14. Wave Heating of Plasmas
15. Magnetic Fusion Plasmas
16. Space Plasma: Environment and Plasma Dynamics