Fundamentals of Plasma Theory - NTMF020
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Definition of plasma; plasma particle drifts of in electric and magnetic fields;
adiabatic invariants, plasma kinetic theory; equations of motion of hydrodynamics;
collision term and relaxation; magnetohydrodynamic description.
Linear and nonlinear waves in plasma; magnetohydrodynamic equilibrium and stability of plasma.
Selected applications of plasma theory on Earth and in Space.
The course is suitable primarily for students of Theoretical Physics.
Last update: Houfek Karel, doc. RNDr., Ph.D. (06.05.2022)
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Oral exam Last update: Houfek Karel, doc. RNDr., Ph.D. (12.05.2023)
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Chen F. F., Úvod do fyziky plazmatu (Academia, Praha 1984) Last update: T_UTF (07.04.2008)
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We are meeting on Zoom at https://us02web.zoom.us/j/81359915551?pwd=UnlubHlXKzh5WlB1dHA0VXFkWEtxZz09 Course website at https://dl1.cuni.cz/enrol/index.php?id=10235 Last update: Pejcha Ondřej, doc. Mgr., Ph.D. (01.10.2020)
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The oral examination follows the syllabus of the course as covered by the lectures. Last update: Houfek Karel, doc. RNDr., Ph.D. (12.05.2023)
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Plasma drifts
in electric, magnetic and other external fields, adiabatic invariants. Kinetic theory of plasma: kinetic equations, phase space, Liouville theorem, Boltzmann equation, BBGKY. Collision term and relaxation: Vlasov equation, Fokker-Planck equation, entropy, H-theorem, equilibrium distributions. Magnetohydrodynamic description of the plasma: hydrodynamic equations of motion, linear and nonlinear waves in plasma, equilibrium and stability, Landau damping. Selected applications of plasma theory on Earth and in Space Last update: Houfek Karel, doc. RNDr., Ph.D. (06.05.2022)
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