What is Diffraction: Definition and 1000 Discussions

Diffraction refers to various phenomena that occur when a wave encounters an obstacle or opening. It is defined as the bending of waves around the corners of an obstacle or through an aperture into the region of geometrical shadow of the obstacle/aperture. The diffracting object or aperture effectively becomes a secondary source of the propagating wave. Italian scientist Francesco Maria Grimaldi coined the word diffraction and was the first to record accurate observations of the phenomenon in 1660.

In classical physics, the diffraction phenomenon is described by the Huygens–Fresnel principle that treats each point in a propagating wavefront as a collection of individual spherical wavelets. The characteristic bending pattern is most pronounced when a wave from a coherent source (such as a laser) encounters a slit/aperture that is comparable in size to its wavelength, as shown in the inserted image. This is due to the addition, or interference, of different points on the wavefront (or, equivalently, each wavelet) that travel by paths of different lengths to the registering surface. However, if there are multiple, closely spaced openings, a complex pattern of varying intensity can result.
These effects also occur when a light wave travels through a medium with a varying refractive index, or when a sound wave travels through a medium with varying acoustic impedance – all waves diffract, including gravitational waves, water waves, and other electromagnetic waves such as X-rays and radio waves. Furthermore, quantum mechanics also demonstrates that matter possesses wave-like properties, and hence, undergoes diffraction (which is measurable at subatomic to molecular levels).

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  1. N

    Diffraction Grating wavelength

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  2. A

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  3. D

    How Does Changing Wavelength Affect the Central Peak in Single-Slit Diffraction?

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  4. hdp12

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  5. G

    Diffraction gratings and angular separation

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  6. G

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  7. Coffee_

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  8. Amy Marie

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  9. throneoo

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  10. spitonem

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  11. throneoo

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  12. Prashasti

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  13. X

    Troubleshooting Infrared Wavelength Estimation Experiment

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  14. S

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  15. SarahLou

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  16. G

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  17. F

    What are diffraction orders in nano-structures?

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  18. O

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  19. L

    X-Ray Diffraction Homework: Deriving (2theta) Values

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  20. D

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  21. H

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  22. A

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  23. P

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  24. P

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  25. J

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  26. R

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  27. S

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  28. A

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  29. A

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  30. Greg Bernhardt

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  31. Greg Bernhardt

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  32. W

    Oversampling and phase retrieval in Fraunhofer diffraction

    I am a Grade 11 student and am working on a physics research about Fraunhofer diffraction. I have 2 very basic questions (maybe kind of unprofessional). Hope someone can help. 1.Suppose a beam of coherent, monochromatic, parallel light penetrates an object, and a diffraction pattern forms on...
  33. F

    MHB Chapter 36 Problem #9 Diffraction

    A slit 1.00mm wide is illuminated by light of wavelength 589nm. We see a diffraction pattern on a screen 3.00m away. What is the distance between the first two diffraction minima on the same side of the central diffraction maximum?
  34. W

    MATLAB MATLAB Simulation of Fraunhofer Diffraction

    Hello, I am using MATLAB to simulate a Fraunhofer diffraction pattern for a given aperture, but I have a little question. Hope someone can help. Sorry I am just a high school student and does not completely understand all mathematic deductions about Fraunhofer Diffraction on Wikipedia. I...
  35. A

    Poynting vector and intensity in scalar diffraction theory

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  36. Rookie

    What is the Separation of Two Apertures in a Light Diffraction Grating?

    Homework Statement A source of light shines through two apertures resulting in an intensity distribution pattern on a viewing screen. The central bright fringe is called the m=0 or zeroth order maximum. In the schematic diagram 1, the light source is to the left of the page and the point...
  37. D

    Diffraction - opening smaller than wavelength

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  38. J

    How does a CD act like a diffraction grating?

    Hi, I having been looking on the internet and other threads and can't seem to find any detailed information on how a CD acts like a diffraction grating. What I understand: the CD has lots of little bumps which can split up light into its various colors. These colors can interfere...
  39. F

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  40. F

    Diffraction with a large array of slits

    Hi all, exams soon and I'm stressing out over this small question. If anyone could guide me through, explaining why you're doing what you're doing that'd be beyond great. Homework Statement Light of wavelength λ is incident normally on a screen with a large array of slits having equal widths...
  41. U

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  42. J

    Higher Order Diffraction: Why Do Colors Appear Different and Overlap?

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  43. emad.rhz

    X-Ray Diffraction Data Collection - Xpert HighScore

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  44. P

    Near field of a diffraction grating?

    I know one can find the "near field" length of an illuminated diffraction grating by calculating the Talbot Length, but I also know this is not the complete story. What happens when you have instead a light source (like a laser beam) that coherently illuminates a certain number of grating...
  45. B

    Diffraction grating interference

    Hello, I'm having a hard time understanding why diffraction grating spots are narrower than those produced by a double slit set-up. I would really appreciate a conceptual understanding but math works too. Thank you
  46. M

    Electron diffraction - effect of electron wavelength

    Hello, I know how electron diffraction works, and that if you decrease the wavelength of the electrons less diffraction occurs, so the rings are smaller, however was wondering what happens if the wavelength is increased? Is it just the opposite? More diffraction so larger rings? I was also...
  47. T

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  48. U

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  49. kelvin490

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  50. MikeGomez

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