Double Slit Experiment with White Light and one Slit colour filtered

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Discussion Overview

The discussion revolves around the implications of conducting the double slit experiment using white light, with one slit covered by a monochromatic filter. Participants explore the potential outcomes regarding interference patterns and the behavior of light through the slits, considering both theoretical and conceptual aspects.

Discussion Character

  • Exploratory
  • Debate/contested
  • Conceptual clarification

Main Points Raised

  • One participant proposes two scenarios: either an interference pattern is visible for the filtered color while a particle pattern appears for the unfiltered slit, or no interference pattern occurs, resulting in a particle pattern with white light from the unfiltered slit and monochromatic light from the filtered slit.
  • Another participant questions the assertion that the light will not interfere, suggesting that the properties of the light coming through the slits will remain unchanged since there is no interference near the slits.
  • A participant asks for clarification on the nature of photons in white light, emphasizing that they are not all the same and consist of different wavelengths.
  • One participant asserts that if the wavelength of the light matches that of the filter, interference will occur; otherwise, the light will not pass through the slit.

Areas of Agreement / Disagreement

Participants express differing views on whether an interference pattern will be observed and the implications of using white light with a monochromatic filter. The discussion remains unresolved, with multiple competing perspectives presented.

Contextual Notes

Participants discuss the nature of light and interference without reaching a consensus on the outcomes of the proposed experiment. There are assumptions regarding the behavior of light and the definitions of interference that remain unaddressed.

Commando Spaz
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What would happen if the double slit experiment were to be undertaken using white light, and one of the slits was covered by a monochromatic filter (i.e. something which only one wavelength could pass through), and apart from this there was no detector monitoring which slit each photon was coming through?
I think there are two possible scenarios:

1. The wave interference pattern is visible for the colour of the filter, however the rest of the light would display a normal particle pattern behind the slit which was not filtered, it would not be white light, but would represent the white light if the wavelength of the monochromatic filtered light were removed from it.

2. There would be no interference pattern and the particle pattern would appear on the screen, the light which came through the non filtered slit would be white, and the light which came through the filtered slit would be monochromatic.

Please explain which, if either of these scenarios would occur, please explain why or why not
 
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Commando Spaz said:
2. There would be no interference pattern and the particle pattern would appear on the screen, the light which came through the non filtered slit would be white, and the light which came through the filtered slit would be monochromatic.

What do you mean by this? The light coming through the slits will retain their property since there is no interference near the slits.
 
Before going any further can you explain what you think each photon of white light is. In particular do you think each are the same?

Thanks
Bill
 
bhobba said:
Before going any further can you explain what you think each photon of white light is. In particular do you think each are the same?

Thanks
Bill

I understand that white light is made up of photons of different wavelengths
 
Last edited:
Adithyan said:
What do you mean by this? The light coming through the slits will retain their property since there is no interference near the slits.

Yes, that's what I mean in the second scenario. In the first scenario, the monochromatic light passing through the filtered slit interacts with the same wavelength going through the unfiltered slit. The other wavelengths of the white light are unaffected.
 
Commando Spaz said:
I understand that white light is made up of photons of different wavelengths

That's correct - and random polarisations as well.

That being the case the solution to your query is easy.

If its the same wavelength as the colour filter of your slit you will get interference. If not it will not pass through that slit and you wont.

It looks pretty trivial to me, which is why I asked the question.

Thanks
Bill
 
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