Single-slit diffraction and wave nature of light

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SUMMARY

Single-slit diffraction is explained through the electromagnetic interpretation of light, where an infinite number of point sources within the slit emit radial waves that interfere to create a diffraction pattern. This phenomenon is governed by Huygens' Principle, which posits that each point on a wave front acts as a source of tiny wavelets. The change in the direction of the electric field propagation vector occurs due to the diffracted wave containing a different k spectrum, influenced by the spatial frequency components of the aperture function. Consequently, smaller apertures lead to a wider k spectrum and altered wave direction.

PREREQUISITES
  • Understanding of Huygens' Principle
  • Knowledge of electromagnetic wave theory
  • Familiarity with wave vector (k) concepts
  • Basic principles of diffraction
NEXT STEPS
  • Study the mathematical formulation of Huygens' Principle
  • Explore the relationship between wave frequency and diffraction patterns
  • Investigate the impact of aperture size on diffraction using simulations
  • Learn about the applications of diffraction in optical systems
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Physicists, optical engineers, and students studying wave phenomena and electromagnetic theory will benefit from this discussion.

pardesi
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can someone explain me why single-slit diffraction occurs in terms of the electromagnetic interpretaition of light
 
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I assume that just means the wave interpretation of light. Well if you imagine an infinite number of point sources fill the slit, each one emitting radial waves. These interfere in such a way that a diffraction pattern is produced. Because the points are all located at different points in space there will be phase differences between the waves emitted from each point and hence diffraction occurs.
 
actually that was more of hugyens principle interpretation i actually wanted to know why does the electric field propagation vector change direction?
 
The diffracted wave contains a different k spectrum because it now contains spatial information about the object that caused it to diffract. Smaller objects (or more correctly, their aperture function along a specific direction) contain more spatial frequency components in that direction, and thus result in a diffracted wave possessing a wider k spectrum.

Since we usually speak of a monochromatic incident wave, the magnitude of k remains constant, thus a change in the components of k imply a change in direction of the wave.

Claude.
 
Diffraction is a phenomenon which envolves the bending of waves around obstacles. It's generally guided by Huygen's Principle, which states: every point on a wave front acts as a source of tiny wavelets that move forward with the same speed as the wave; the wave front at a later instant is the surface that is tangent to the wavelets.
 
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