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(PhysOrg.com) -- One of the greatest puzzles of the double-slit experiment – and quantum physics in general – is why electrons seem to act differently when being observed. While electrons ...
The Large Hadron Collider is one of the biggest experiments in history, but it’s also one of the hardest to interpret. Unlike ...
You can actually see the diffraction pattern in the double slit experiment right now. Instead of using electrons, we will use light, and instead of a double slit, we will use a single slit.
Here, you can see the results of an experiment where electrons are fired one-at-a-time through a double-slit. Once enough electrons are fired, the interference pattern can clearly be seen. Thierry ...
The precise methodology of Richard Feynman's famous double-slit thought-experiment -- a cornerstone of quantum mechanics that showed how electrons behave as both a particle and a wave -- has been ...
The double-slit experiment with single electrons. The article “A brief history of the double-slit experiment” (September 2002 p15; correction October p17) describes how Claus Jönsson of the University ...
Batelaan told physicsworld.com that the experiment is particularly important from an outreach perspective because unlike the biprism experiments of the past, it actually uses a physical double slit ...
Physicists have recreated the double-slit experiment described by Richard Feynman in his physics lectures in 1965. ... Once they pass through the slit, or slits, the electrons hit a detector.
One of the most famous experiments in quantum physics, which first showed how particles can bizarrely behave like waves, has now been carried out on the largest molecules ever.
These "split-electrons" can act as topological qubits and might hold the key to unlocking the full power of quantum computation. The discovery, recently published in Physical Review Letters, ...