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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
Transport Phenomena
Classical Transport
Collision Theory
Coulomb Collisions
Collision Cross Sections
Collision Frequencies
Transport Coefficients
Electrical Conductivity
Thermal Conductivity
Viscosity
Diffusion Coefficients
Spitzer Transport Theory
Parallel Transport
Cross-Field Transport
Neoclassical Transport
Trapped Particle Effects
Banana Regime
Plateau Regime
Pfirsch-Schlüter Regime
Bootstrap Current
Anomalous Transport
Turbulent Transport
Bohm Diffusion
Gyro-Bohm Scaling
Transport Barriers
Ambipolar Transport
Ambipolar Electric Field
Particle and Heat Fluxes
Plasma Edge Effects
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8. Plasma Instabilities
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10. Collisional Processes