Lecture Notes for PHYS:7729 Plasma Physics II
Below are links to the scanned PDF versions of the lecture notes handed out in class:- Lecture #1: Waves in a Cold, Uniform Magnetized Plasma
- Lecture #2: Parallel Propagating Waves and Ordinary Perpendicular Propagating Waves
- Lecture #3: Perpendicular Waves and Physical Investigation of Wave Properties
- Lecture #4: Ray Tracing in Inhomogeneous Plasmas
- Lecture #5: Student Presentations on Cold Plasma Waves I
- Lecture #6: Student Presentations on Cold Plasma Waves II
- Lecture #7: Drift Waves
- Lecture #8: MHD Stability
- Lecture #9: Normal Mode Analysis and the Energy Principle
- Lecture #10: MHD Stability Analysis of Rayleigh-Taylor Instability
- Lecture #11: Kinetic Theory for Electrostatic Waves in an Unmagnetized Plasma
- Lecture #12: Landau's Solution of the Initial Value Problem
- Lecture #13: Landau Damping of Electrostatic Waves
- Lecture #14: Maxwellian Distributions and the Plasma Dispersion Function
- Lecture #15: Review of Landau Damping; Cold Beam Instabilities
- Lecture #16: Kinetic Stability of a Plasma
- Lecture #17: Quasilinear Theory
- Lecture #18: Quasilinear Theory, Part II
- Lecture #19: Plasma Sheaths
- Lecture #20: Langmuir Probes, Atomic Processes, and Plasma Generation
- Lecture #21: Dimensional Analysis, Pi Theorem, and Self-Similarity
- Lecture #22: Blast Waves and Supernova Remnants
- Lecture #23: Buckingham Pi Theorem and Nondimensionalization
- Lecture #24: The Framework of Plasma Physics
- Lecture #25: Numerical Simulation of Plasmas