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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
9.
Transport Phenomena
9.1.
Classical Transport
9.1.1.
Collision Theory
9.1.1.1.
Coulomb Collisions
9.1.1.2.
Collision Cross Sections
9.1.1.3.
Collision Frequencies
9.1.2.
Transport Coefficients
9.1.2.1.
Electrical Conductivity
9.1.2.2.
Thermal Conductivity
9.1.2.3.
Viscosity
9.1.2.4.
Diffusion Coefficients
9.1.3.
Spitzer Transport Theory
9.1.3.1.
Parallel Transport
9.1.3.2.
Cross-Field Transport
9.2.
Neoclassical Transport
9.2.1.
Trapped Particle Effects
9.2.2.
Banana Regime
9.2.3.
Plateau Regime
9.2.4.
Pfirsch-Schlüter Regime
9.2.5.
Bootstrap Current
9.3.
Anomalous Transport
9.3.1.
Turbulent Transport
9.3.2.
Bohm Diffusion
9.3.3.
Gyro-Bohm Scaling
9.3.4.
Transport Barriers
9.4.
Ambipolar Transport
9.4.1.
Ambipolar Electric Field
9.4.2.
Particle and Heat Fluxes
9.4.3.
Plasma Edge Effects
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8. Plasma Instabilities
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10. Collisional Processes