Plasma Waves and Instabilities

B232 - Summer 23/24
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Plasma Waves and Instabilities - A0M02VNP

Student survey results
Credits 4
Semesters Winter
Completion Assessment + Examination
Language of teaching undefined
Extent of teaching 3+1s
Annotation
Basic wave phenomena will be introduced in the first part of the lecture (dispersion relation, phase and group velocities, Fourier analysis). Fundamental plasma dispersion relations will be derived from the linearized MHD equations (magnetoacoustic waves - Alfven, F and S wave; electromagnetic waves in plasma - O, X, R, L wave, CMA diagram). The second part of the lecture will be devoted to final size waves, nonlinear phenomena (Landau damping) and solitons in plasma.
Study targets
No data.
Course outlines
1. Sound in hydrodynamics.
2. MHD equations.
3. Low frequency wave complex, megnetoacoustic waves
4. High frequency wave complex. Plasma oscillations and waves
5. Resonant and cutoff frequencies.
6. CMA diagram
7. Finit amplitude phenomena, Hartman solution.
8. Basic instabilities in plasma.
9. Instabilities of current filament.
10. Other instabilities
11. Magnetic reconnection, alpha effect.
12. Nonlinear phenomena
13. Landau damping
14. Solitons
Exercises outlines
dimensional analysis
linearization of equations
Fourier transformation
disperse relation
phase and group velocity calculation
cutoff and resonant frequency calculation
instabilities in dispersion relation
boundary condotions
KdV equation
nonlinear phenomena
Literature
[1] P. Kulhánek: Vlny a nestability v plazmatu, ČVUT, 2004, http://www.aldebaran.cz/studium/plasma.pdf
[2] E. M. Lifshitz, et al.: Course in theoretical Physics 8: Electrodynamics of Continuous Media, Elsewier Science, 2004
Requirements
Theoretical Physics 1