Weibel Instability 
Weibel Instability
by IIT Delhi
Video Lecture 18 of 42
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Views: 1,388
Date Added: March 29, 2015

Lecture Description

This video lecture, part of the series Plasma Physics: Fundamentals and Applications by Prof. , does not currently have a detailed description and video lecture title. If you have watched this lecture and know what it is about, particularly what Physics topics are discussed, please help us by commenting on this video with your suggested description and title. Many thanks from,

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Course Index

  1. Introduction to Plasmas
  2. Plasma Response to fields: Fluid Equations
  3. DC Conductivity and Negative Differential Conductivity
  4. RF Conductivity of Plasma
  5. RF Conductivity of Plasma Contd
  6. Hall Effect, Cowling Effect and Cyclotron Resonance Heating
  7. Electromagnetic Wave Propagation in Plasma
  8. Electromagnetic Wave Propagation in Plasma Contd
  9. Electromagnetic Wave Propagation Inhomogeneous Plasma
  10. Electrostatic Waves in Plasmas
  11. Energy Flow with an Electrostatic Wave
  12. Two Stream Instability
  13. Relativistic electron Beam- Plasma Interaction
  14. Cerenkov Free Electron Laser
  15. Free Electron Laser
  16. Free Electron Laser: Energy gain
  17. Free Electron Laser: Wiggler Tapering and Compton Regime Operation
  18. Weibel Instability
  19. Rayleigh Taylor Instability
  20. Single Particle Motion in Static Magnetic and Electric Fields
  21. Plasma Physics Grad B and Curvature Drifts
  22. Adiabatic Invariance of Magnetic Moment and Mirror confinement
  23. Mirror machine
  24. Thermonuclear fusion
  25. Tokamak
  26. Tokamak operation
  27. Auxiliary heating and current drive in tokamak
  28. Electromagnetic waves propagation in magnetise plasma
  29. Longitudinal electromagnetic wave propagation cutoffs, resonances and Faraday rotation
  30. Electromagnetic propagation at oblique angles to magnetic field in a plasma
  31. Low frequency EM waves magnetized plasma
  32. Electrostatic waves in magnetized plasma
  33. Ion acoustic, ion cyclotron and magneto sonic waves in magnetized plasma
  34. VIasov theory of plasma waves
  35. Landau damping and growth of waves
  36. Landau damping and growth of waves Contd
  37. Anomalous resistivity in a plasma
  38. Diffusion in plasma
  39. Diffusion in magnetized plasma
  40. Surface plasma wave
  41. Laser interaction with plasmas embedded with clusters
  42. Current trends and epilogue

Course Description

The course would be a basic course in plasma physics with focus on techniques of plasma production and measurements, waves and instabilities, single particle motion in electric and magnetic fields, plasma confinement, and applications to medium and short wave communication, plasma processing of materials, laser driven fusion and magnetic fusion.


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