How does the double slit experiment take us to superposition?

In summary, the conversation discusses the concept of superposition in quantum mechanics and its relationship to the double-slit experiment. The conversation also touches on the importance of understanding the available path for quantum objects and how phase shifters can be used to observe two-photon interference.
  • #1
RayEddy
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Pretty obvious that measuring at the double slits neutralizes whatever action or reaction is creating the wave pattern. But why the quantum leap to assuming superposition?

What other configurations have been tested or were there just slits used? What about a round hole or holes, an “X” slit or asterisk shaped slit? Stacked slits?
 
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  • #3
RayEddy said:
Pretty obvious that measuring at the double slits neutralizes whatever action or reaction is creating the wave pattern. But why the quantum leap to assuming superposition?

Superposition is a general mathematical concept that applies to the solutions to a large class of differential equations - the ones that have the property that if ##A## and ##B## are both solutions, then the superposition ##(A+B)## is also a solution. Schrodinger's equation, the one that describes the behavior of quantum systems, is one of these equations.

Thus, superposition was not a wild leap inspired by the double-slit experiment; it's pretty much baked into the mathematical formalism of QM. The wild leaps came earlier, with the series of brilliant intuitions that led physicists to try matching that particular mathematical formalism to their experiments. (These wild leaps have since been more formally justified, as once we knew what the answer should be it became a lot easier to derive it properly).
 
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  • #4
RayEddy said:
Pretty obvious that measuring at the double slits neutralizes whatever action or reaction is creating the wave pattern. But why the quantum leap to assuming superposition?

What other configurations have been tested or were there just slits used? What about a round hole or holes, an “X” slit or asterisk shaped slit? Stacked slits?

I think you are missing the point. You are focusing on the wrong thing.

It is not the "slit geometry" that is important here. It is the available path for the photon (or electron, or any quantum object).

I had just linked this paper in another thread, and it might be useful for you to read it:

http://departments.colgate.edu/physics/research/Photon/root/ajpbs02.pdf

Zz.
 
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  • #5
ZapperZ said:
I had just linked this paper in another thread, and it might be useful for you to read it:

http://departments.colgate.edu/physics/research/Photon/root/ajpbs02.pdf

Zz.
Nice paper. But one thing is puzzling me, in chapter about two-photon interference it says:
"If phase shifters are placed in the arms of the interferometer and the output photons are detected in coincidence, an interference pattern will be observed in the coincidences even though none is observed in the counts of the individual detectors."
I think it's wrong. You observe HOM dip not HOM envelope, right.
 
  • #6
zonde said:
You observe HOM dip not HOM envelope, right.

What is HOM?
 

Related to How does the double slit experiment take us to superposition?

1. How does the double slit experiment demonstrate superposition?

The double slit experiment is often used to demonstrate the concept of superposition in quantum mechanics. This is because it shows how a single particle can behave like a wave and exist in multiple states at the same time. When a single particle is fired through two parallel slits, it creates an interference pattern on the other side, indicating that it has passed through both slits simultaneously. This is only possible if the particle is in a state of superposition, existing in multiple states at once.

2. What is the significance of the double slit experiment in understanding quantum mechanics?

The double slit experiment is a fundamental experiment in quantum mechanics that has helped scientists understand the nature of particles and waves. It has shown that particles at the atomic and subatomic level can exhibit wave-like properties and that they can exist in multiple states simultaneously. This has challenged our classical understanding of the physical world and has led to many breakthroughs in quantum mechanics.

3. Can the double slit experiment be explained by classical physics?

No, the double slit experiment cannot be explained by classical physics. In classical physics, particles are expected to behave like particles and not waves. However, the double slit experiment shows that particles can exhibit wave-like behavior, which cannot be explained by classical physics. This is one of the fundamental principles of quantum mechanics.

4. How does the observer affect the outcome of the double slit experiment?

In the double slit experiment, the observer plays a crucial role in determining the outcome. When the experiment is observed, the particle behaves like a particle and only passes through one slit, creating a single slit pattern. However, when the experiment is not observed, the particle can behave like a wave and pass through both slits, creating an interference pattern. This is known as the observer effect and is a key concept in quantum mechanics.

5. Can the double slit experiment be used to explain other phenomena in quantum mechanics?

Yes, the double slit experiment has been used to explain several other phenomena in quantum mechanics, such as entanglement and the uncertainty principle. It has also been used to test and support the theories of quantum mechanics, such as the Copenhagen interpretation and the many-worlds interpretation. Overall, the double slit experiment is a powerful tool for understanding the complex and bizarre world of quantum mechanics.

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