Heisenberg Microscope: Exploring Single Photon Diffraction

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SUMMARY

The Heisenberg Microscope thought experiment illustrates the interaction between a single photon and an electron, emphasizing that a single photon cannot create a diffraction pattern. Instead, a series of photons can produce such a pattern, reflecting the probabilistic nature of quantum mechanics as described by the Born rule. The discussion highlights the distinction between classical electromagnetism and quantum electrodynamics, particularly in how diffraction patterns represent probabilities rather than definitive positions. Understanding these concepts is crucial for grasping the implications of the uncertainty principle in quantum physics.

PREREQUISITES
  • Quantum mechanics fundamentals
  • Understanding of the uncertainty principle
  • Knowledge of diffraction patterns in wave phenomena
  • Familiarity with the Born rule in quantum theory
NEXT STEPS
  • Research the implications of the uncertainty principle in quantum mechanics
  • Study the Born rule and its applications in quantum theory
  • Explore the differences between classical electromagnetism and quantum electrodynamics
  • Investigate how diffraction patterns are formed in both classical and quantum contexts
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Physicists, quantum mechanics students, and anyone interested in the foundational principles of quantum theory and the implications of the uncertainty principle.

Axel Togawa
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TL;DR
diffraction pattern generated in the thought experiment of Heisenberg
In the thought experiment proposed by Heisenberg, a single photon is scattered by the electron that we want to observe, and entering the microscope lens (the photon), it will create a diffraction pattern that gives the uncertainty on the position according to the law of optics. I wanted to ask how the single photon could create a diffraction figure?
 
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Axel Togawa said:
I wanted to ask how the single photon could create a diffraction figure?
It can't, not if you're considering a single photon.

Threads like this are the reason Physics Forums generally encourages people to include the sources that they've using. Without knowing that, we have no way of knowing whether you've misunderstood the explanation or the explanation was bad. So if you could tell us more about your starting point, you'll get more and more helpful answers.
 
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A single photon will not create a diffraction pattern. Your links don't say that either.

A succession of many single photons can create a diffraction pattern.
 
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Ok thank you fro the answer
 
You can well argue with a single photon. It's only the meaning of the diffraction pattern which changes in a "revolutionary way". The diffraction pattern is of course a "wave phenomenon", i.e., it occurs when using classical em. waves or many single photons.

The important "revolutionary" change between classical electromagnetism and quantum electrodynamics is the meaning of this diffraction pattern when considering the case of a single photon: According to the Born rule of quantum theory the diffraction pattern depicts the probability of the single photon to hit the screen at a given place. The uncertainty of the position of the electron using a single photon is due to the randomness of the position where this photon is detected, i.e., you cannot trace back in a one-to-one connection the position of the electron which scattered the photon from the place where the photon was detected.
 

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