Wave Superposition

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Wave Superposition

Last Update: October 20, 2024

Introduction

Electromagnetic waves produced by different sources will combine in a process called superposition

In this post, we’ll describe basic wave superposition and why light slows down when entering a medium with a higher refractive index. 

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Electromagnetic Wave Superposition 

Electromagnetic Waves are additive; a concept known as Superposition

When two waves of the same wavelength are lined up so peaks and troughs match (see the 3rd graph in the schematic below), they will produce a resultant wave that has a a higher peak.  

When the two waves are lined up so peaks line up with troughs (see the 1st graph in the schematic below), then the two waves will cancel each other (the resultant wave will have zero amplitude). 

If the wavelengths are different, they will still be additive, but the resultant wave won’t necessarily be symmetrically shaped.  

Superposition of Waves Graphics

Even waves moving at different speeds (remember velocity = frequency x wavelength) are additive. 

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Why Light Slows Down When it Enters a Refractive Medium

When light enters a higher refractive medium (e.g from air to water or glass), it interacts with the atoms and associated electrons in the material. 

The electrons of the medium begin to oscillate due to the light waves and this oscillation creates separate oscillating electric fields (and therefore “new waves”).

  • Superposition occurs among the light waves and the waves from the oscillating medium electrons.
  • The resultant waves are always slower moving. This is why the light slows down in the medium. 
  • This slowing down is influenced by the properties of the material, such as the density and arrangement of atoms and molecules. 
  • The index of refraction is a measure of how much a material slows down light compared to its speed in a vacuum.
    •  Index of Refraction = n = (speed of light in a vacuum)/(speed of light in the material) and will always be > 1 for any material
    • For air, n is slightly larger than 1 (n = 1.0003) since the speed of light in air is slightly less than the speed of light in a vacuum. 
  • As soon as the light exits the medium, the interference from the medium oscillating electrons ends (i.e. superposition effect ends).
  • So, the light exiting the material resumes the speed it had before entering the medium (e.g. light going from air to glass to air)    

In summary, the interaction between light and electrons in a refractive medium leads to the slowing down of light waves. 

As soon as the medium electron wave interference ends (as the light exits the medium), the speed of light in air resumes. 

Why does light slow down in water? – Fermilab – Don Lincoln

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