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Lecture
Plasma Waves: Characteristics and Magnetization
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Vlasov-Maxwell System: Plasma Waves Analysis
Explores the Vlasov-Maxwell system for analyzing plasma waves in an unmagnetized plasma.
Plasma Collisions: Coulomb Force
Analyzes Coulomb collisions between charged particles and the conservation of energy, momentum, and angular momentum.
Kinetic Theory of Plasma: Linearized Vlasov Equations
Explores the kinetic theory of plasma, focusing on linearized Vlasov equations in hot magnetized plasmas and the behavior of plasma particles in phase space.
Kinetic Theory: Distribution Function Evolution
Explores the evolution of the distribution function describing particles in phase space.
Plasma Energy Loss: Impact Parameter and Debye Screening
Covers energy loss in plasma due to impact parameter intervals and Debye screening effects.
Analytic Continuation: Residue Theorem
Covers the concept of analytic continuation and the application of the Residue Theorem to solve for functions.
Laplace Transform: Analytic Continuation
Covers the Laplace transform, its properties, and the concept of analytic continuation.
Random Walk Simulation: Mean Displacement and Diffusion Coefficient
Covers random walk simulation, mean displacement, and diffusion coefficient calculations for weakly ionized particles.
Physical Meaning of Terms in Acoustic Waves
Explores the physical interpretation of terms in acoustic wave equations and the balance between wave steepening and linear dispersion.
Electromagnetic Waves in Plasmas
Covers the behavior of electromagnetic waves in non-magnetized plasmas and the simplification of equations for non-collisional plasmas.
