Optics: Fraunhofer diffraction - rectangular aperture 
Optics: Fraunhofer diffraction - rectangular aperture
by MIT / Shaoul Ezekiel
Video Lecture 27 of 49
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Views: 2,597
Date Added: March 8, 2013

Lecture Description

This video lecture, part of the series Video Demonstrations in Lasers and Optics by Prof. Shaoul Ezekiel, 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,

- The CosmoLearning Team

Course Index

  1. Overview of Lasers and Optics
  2. Linear polarizer
  3. Polarization rotation using polarizers
  4. Quarter-wave plate
  5. Half-wave plate
  6. Optical isolator
  7. Scattered light in a dielectric
  8. Reflection at the air-glass boundary
  9. Reflection at the glass-air boundary
  10. Phase shifts in total internal reflection
  11. Two-beam interference — collimated beams
  12. Two-beam Interference: Diverging Beams
  13. Destructive Interference: Where does the light go?
  14. Fringe Contrast: Vibrations
  15. Fringe Contrast: Intensity Ratio
  16. Fringe Contrast: Polarization Difference
  17. Fringe Contrast: Path Difference
  18. Coherence Length and Source Spectrum
  19. Plane Mirror Cavity: Collimated Beams
  20. Plane Mirror Cavity: Diverging Beams
  21. Curved Mirror Cavity: Radial Modes
  22. Optical Spectrum Analyzer
  23. Fraunhofer Diffraction: Adjustable Slit
  24. Fraunhofer Diffraction: Two Slits
  25. Fraunhofer Diffraction: Multiple Slits
  26. Optics: Fraunhofer diffraction - thin wires
  27. Optics: Fraunhofer diffraction - rectangular aperture
  28. Optics: Fraunhofer diffraction - circular apertures
  29. Optics: Fraunhofer diffraction - crossed multiple slits
  30. Optics: Fresnel diffraction - adjustable slit
  31. Optics: Fresnel diffraction - circular apertures
  32. Optics: Single mode fiber
  33. Optics: Multi-mode fiber
  34. Optics: Polarization in a single mode fiber
  35. Laser fundamentals I: Simple laser
  36. Laser fundamentals I: Light amplifier
  37. Laser fundamentals I: Polarization of laser light
  38. Laser fundamentals I: Spectrum of laser light
  39. Laser fundamentals I: Light inside and light outside laser
  40. Laser fundamentals II: Optics of laser beams
  41. Laser fundamentals II: Laser transverse modes
  42. Laser fundamentals II: Laser linewidth
  43. Laser fundamentals III: Reflection back into laser
  44. Laser fundamentals III: High power argon laser
  45. Laser fundamentals III: Multi-wavelength argon laser
  46. Laser fundamentals III: Single-frequency argon laser
  47. Laser fundamentals III: Tunable dye laser
  48. Laser fundamentals III: Dye laser excitation of sodium
  49. Laser fundamentals III: Dye laser induced fluorescence in iodine

Course Description


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