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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 Diagnostics
Probe Diagnostics
Langmuir Probes
I-V Characteristics
Electron Temperature Measurement
Density Measurement
Magnetic Probes
Magnetic Field Measurement
Fluctuation Analysis
Heat Flux Probes
Emissive Probes
Optical Diagnostics
Emission Spectroscopy
Line Intensity Analysis
Doppler Broadening
Stark Broadening
Absorption Spectroscopy
Laser-Induced Fluorescence
Interferometry
Density Measurement
Phase Shift Analysis
Polarimetry
Magnetic Field Measurement
Scattering Diagnostics
Thomson Scattering
Electron Temperature and Density
Collective vs Incoherent Scattering
Raman Scattering
Rayleigh Scattering
Neutron Scattering
Particle Diagnostics
Neutral Beam Diagnostics
Charge Exchange Spectroscopy
Beam Emission Spectroscopy
Alpha Particle Diagnostics
Neutron Diagnostics
Wave and Field Diagnostics
Reflectometry
Density Profile Measurement
Electron Cyclotron Emission
Temperature Profile Measurement
Motional Stark Effect
Current Density Measurement
Advanced Diagnostic Techniques
X-ray Diagnostics
Gamma-ray Diagnostics
Microwave Diagnostics
Laser Diagnostics
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14. Plasma Applications
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1. Introduction to Plasma Physics