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Physics
Applied and Interdisciplinary Physics
Plasma Physics
1. Introduction to Plasma Physics
2. Mathematical Foundations
3. Single Particle Motion in Fields
4. Kinetic Theory of Plasmas
5. Fluid Description of Plasmas
6. Plasma Waves and Oscillations
7. Plasma Equilibrium
8. Plasma Instabilities
9. Transport Phenomena
10. Collisional Processes
11. Nonlinear Plasma Physics
12. Specialized Plasma Types
13. Plasma Boundaries and Sheaths
14. Plasma Applications
15. Plasma Diagnostics
Plasma Applications
Controlled Fusion
Magnetic Confinement Fusion
Tokamaks
ITER Project
Plasma Heating Methods
Current Drive
Stellarators
Helical Symmetry
Optimization Principles
Alternative Concepts
Spheromaks
Field-Reversed Configurations
Levitated Dipole
Inertial Confinement Fusion
Laser Fusion
Direct Drive
Indirect Drive
Heavy Ion Fusion
Z-Pinch Fusion
Fusion Plasma Physics
Ignition Conditions
Energy Confinement
Alpha Particle Physics
Space and Astrophysical Plasmas
Solar Physics
Solar Wind
Coronal Mass Ejections
Solar Flares
Magnetospheric Physics
Magnetic Reconnection
Substorms
Radiation Belts
Interstellar Medium
HII Regions
Supernova Remnants
Cosmic Ray Acceleration
Industrial Applications
Plasma Processing
Etching
Deposition
Surface Modification
Plasma Propulsion
Ion Thrusters
Hall Effect Thrusters
Magnetoplasmadynamic Thrusters
Plasma Sources
RF Discharges
Microwave Discharges
Arc Discharges
Environmental Applications
Waste Treatment
Pollution Control
Sterilization
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13. Plasma Boundaries and Sheaths
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15. Plasma Diagnostics