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| {{Unreferenced|date=December 2009}}
| | I am Emma from Suppersberg. I love to play Xylophone. Other hobbies are Amateur astronomy.<br><br>my blog post: [http://asdtoscoligure.altervista.org/?p=15 hot carrier] |
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| [[Image:Interfering Electron Wave Packets animated.gif|thumb|300px]]
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| [[Image:Trojan_interference.gif|thumb|300px|Supercomputer simulation of the interference of two counter-circulating [[Bohr_atom|Bohr]]
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| ([[Trojan_wave_packet|Trojan]]) electrons in hydrogen atom in electromagnetic field]]
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| The green plane is the [[Cartesian coordinate system|x-y-plane]], where two (non-interacting) [[electron]] [[wave packet|wave-packets]] meet. The vertical direction shows the real part of <math>\psi\left(x,y\right)</math>. The semi-transparent white plane in the top shows the density of detection probability, i.e., <math>|\psi\left(x,y\right)|^2</math>, as blue spots. The blue in the middle is the same again.
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| Before interfering, both electrons have [[circular detection probability|circular detection probabilities]]. During the [[Interference (wave propagation)|interference]], you can see lines, where there are strong wave movements and others, with no motion in between. The lines without wave motion are called knot-lines. As you see, the detection probability is zero on knots. After the interference, both electrons move as if they never had seen the other one.
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| The smearing out of electrons is their usual behavior due to [[Dispersion (optics)|dispersion]]. It is independent of interference.
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| ==See also==
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| *[[Double-slit experiment]]
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| *[[Wave-particle duality]]
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| *[[Light]]
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| *[[Trojan wave packet]]
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| {{DEFAULTSORT:Electron Wave-Packet Interference}}
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| [[Category:Quantum models]]
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| {{Quantum-stub}}
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Revision as of 18:50, 27 February 2014
I am Emma from Suppersberg. I love to play Xylophone. Other hobbies are Amateur astronomy.
my blog post: hot carrier