I just recently watched a video where they were explaining the double slit experiment.
I understand that the interference pattern would be observed if you send photons or electrons one after the other. The conclusion that the author seems to make is that it is as though the particle/packet of energy travels through both the slits after somehow splitting into two.
Has anyone done an experiment where they send just one particle? (And end the experiment) Do you observe two points on the screen in that case or just one?
Answer
Has anyone done an experiment where they send just one particle? (And end the experiment) Do you observe two points on the screen in that case or just one?
You don't observe two points - you get a probability. This is what the video was trying to indicate by showing dots on the screen. Those dots are the reason for postulating the role of probabilities in quantum mechanics.
The idea is that you can't predict where a single electron will hit the screen, the only thing you know is that some places are more probable than others. The probability is dictated by the probability density function which ostensibly can come from the quantum mechanical wave equation of the electron.
The probability distribution function for a single particle is the same function (aside from units/magnitude) as the intensity you see for a large number of particles. After all, that is always what we see when we observe the interference pattern. You just get enough particles that you can't distinguish single hits anymore.
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