Electron interferometer

An Electron interferometer is an interferometer based on exploiting the wave character of electrons.

Overview

Interferometry inherently depends on the wave nature of the object. As pointed out by de Broglie in his PhD thesis, particles, including electrons can behave like waves (the so-called wave–particle duality, now explained in the general framework of quantum mechanics). One of the first interferometry experiments with electrons was the double-slit experiment. Since electrons are charged, they repel each other, thus rendering the theoretical analysis more difficult than for uncharged sources like, e.g., neutrons or atoms. To obtain high precision the de Broglie wavelength needs to be small, which again favours neutrons or (heavy) atoms since they have a higher mass. Therefore, many high precision experiments now deploy atom interferometers based on the Sagnac effect.

gollark: Why would it do that? Besides, why are you running it as root?
gollark: This is slightly less prototypical. I can send you a copy.
gollark: 8 is the latest Rust version. It is not currently publicly available. You can have a prototype sent to you, but it may break randomly.
gollark: Well, do you want Minoteaur 1, 2, 3, 4, 5, 6, 7, 7.1 or 8?
gollark: It was intended to replace DokuWiki for osmarks.net use, and have nice features.

See also
This article is issued from Wikipedia. The text is licensed under Creative Commons - Attribution - Sharealike. Additional terms may apply for the media files.