Published November 1, 2005
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Journal Article
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Macroscopic coherence effects in a mesoscopic system: Weak localization of thin silver films
Abstract
We present an advanced undergraduate experiment on weak localization in thin silver films with a thickness between 60-200 angstrom, a mesoscopic length scale. At low temperatures, the inelastic dephasing length for electrons exceeds the film thickness, and the film becomes quasi-two-dimensional. In this limit, theory predicts corrections to the Drude conductivity due to the coherent interference between the wave functions of the conducting electrons, a macroscopically observable effect known as weak localization. This correction can be destroyed by the application of a magnetic field, and the resulting magnetoresistance curve provides information about electron transport in the film.
Additional Information
©2005 American Association of Physics Teachers. Received: 9 March 2005; accepted: 29 July 2005. This work was supported by the National Science Foundation under Grant No. DUE-0088658.Files
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- Eprint ID
- 4956
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- CaltechAUTHORS:BEYajp05
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2006-09-15Created from EPrint's datestamp field
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