Astrophysical Plasma by Professor G Srinivasan

Astrophysical Plasma by Professor G Srinivasan

International Centre for Theoretical Sciences via YouTube Direct link

Nobel Prize in Physics 1958

18 of 30

18 of 30

Nobel Prize in Physics 1958

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Astrophysical Plasma by Professor G Srinivasan

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  1. 1 Summer course 2018 - A Random walk in astro-physics
  2. 2 Astrophysical Plasma Lecture - 07
  3. 3 A Plasma is a quasi-neutral gas of charged and neutral particles which exhibits "collective behaviour"
  4. 4 Plasma
  5. 5 Dielectric Screening
  6. 6 An energy-loss spectrum for a thin AI film
  7. 7 Dispersion relation of waves in a plasma
  8. 8 Earth's IONOSPHERE
  9. 9 Group velocity, Phase velocity, Refractive index
  10. 10 The group velocity
  11. 11 Dispersion of Pulsar signals
  12. 12 Pulsar De-dispersion
  13. 13 Faraday Rotation
  14. 14 Dielectric constant
  15. 15 M4: The Milky Way Magnetic Field Mapping Mission
  16. 16 Cerenkov Radiation
  17. 17 NGC 5775
  18. 18 Nobel Prize in Physics 1958
  19. 19 From Tamm's Nobel Lecture:
  20. 20 Cherenkov Radiation
  21. 21 Cerenkov light emitted by electrons in a "swimming pool nuclear reactor"
  22. 22 The wave vector and frequency of an electromagnetic wave in a transparent medium are related by
  23. 23 Let theta be the angle between the direction of motion and the direction of emission.
  24. 24 Shock wave in a gas
  25. 25 Ooty
  26. 26 Detection of Cerenkov light emitted by electrons underlies most of the modern neutrino detectors.
  27. 27 Plasma effect on Synchrotron Intensity
  28. 28 Relativistic Beaming
  29. 29 Next Lecture: The Origin of Stellar Energy
  30. 30 Q&A

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