How can you detect which path an electron will take in a double-slit experiment?

In summary, the interference pattern in an electron double-slit experiment is not affected by moving the screen further away or by firing an electron beam instead of one at a time. The presence or absence of an observer does not affect the interference pattern, as long as it is impossible to know which slit the particle passes through. However, low intensity may require a longer time for recording the pattern. In addition, there are techniques to determine the which-slit information, which would result in no interference.
  • #1
maka89
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Say, you're running an electron double-slit experiment, firing one electron at a time, only that half of the screen where you record the interference pattern is moved further away from the slits. How would that affect the interference pattern?
Would the electrons still go in the same ratio 50/50 to the left / right half of the screen?

How if you're fiing a electron beam insted of one at a time?
 

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  • #2
It would not materially affect the results.
 
  • #3
maka89 said:
Would the electrons still go in the same ratio 50/50 to the left / right half of the screen?

does an interference phenomena depends on the 'observer' -his presence or absence?
 
  • #4
drvrm said:
does an interference phenomena depends on the 'observer' -his presence or absence?

As far as anyone knows, the answer is no.

The standard issue about the presence or absence of interference is whether it is possible (in principle) to know which slit the particle passes through. If the answer is yes to that question, then there is no interference. And vice versa.
 
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  • #5
maka89 said:
How if you're fiing a electron beam insted of one at a time?

the number of electrons being sent to double slit experiment does not affect the interference phenomena ,however a low intensity will require larger time for recording the pattern. such experiments have been conducted and results are on the net.
 
  • #6
So if you fire a single electron, and the detector on the left screen doesn't detect anything, you can know ahead of time that the electron will hit the right side of the screen? Does is this not which path information? Not implying any of that consciousness bologny, just getting my mind blown by this stuff and want to understand it xD
 
  • #7
The double slit experiment gets way way weirder. Look up the quantum eraser experiment. Making the slits lead down different paths does not matter.
 
  • #8
maka89 said:
So if you fire a single electron, and the detector on the left screen doesn't detect anything, you can know ahead of time that the electron will hit the right side of the screen? Does is this not which path information?

How would you learn anything ahead of time? At any rate, there are a number of different techniques to learn the which-slit information. If you do, there is no interference.
 
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1. What is the "double slit, half screen" experiment?

The double slit, half screen experiment is a classic demonstration in physics that illustrates the wave-like nature of matter. It involves shooting a beam of particles (such as electrons or photons) through two narrow slits and observing the resulting pattern on a screen.

2. How does the double slit experiment work?

In the double slit experiment, a beam of particles is directed towards two narrow slits in a barrier. Behind the barrier is a screen that records the particles' positions. When the particles pass through the slits, they interfere with each other, creating an interference pattern on the screen.

3. What is the significance of the half screen in the experiment?

The half screen in the double slit experiment is used to observe the interference pattern created by the particles passing through the two slits. It allows for a clear visualization of the wave-like behavior of particles, as the particles will behave differently when only one slit is open compared to when both slits are open.

4. What does the double slit experiment tell us about the nature of matter?

The double slit experiment provides evidence for the wave-particle duality of matter. This means that particles, such as electrons, can exhibit both wave-like and particle-like behavior depending on how they are observed. This concept challenges our traditional understanding of matter as only having a particle-like nature.

5. Can the double slit experiment be applied in other areas of science?

Yes, the double slit experiment has been applied in various fields such as quantum mechanics, optics, and even biology. It has also been used to study the behavior of light, sound, and other forms of energy. The principles demonstrated in this experiment have helped shape our understanding of the physical world.

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