Silsbee effect
The Silsbee effect or Silsbee current refers to the effect by which, if the current exceeds a critical level, the superconducting state will be destroyed.[1] The size of the critical current (which can be as large as 100 amperes in a 1-mm wire) depends on the nature and geometry of the specimen and is related to whether the magnetic field produced by the current exceeds the critical field at the surface of the superconductor. [2]
The effect is named after Francis B. Silsbee who studied conductivity at low temperatures.[3]
References
- ^ Scfalig, Eugene (29 May 1959). Patent US3119076. Retrieved 24 January 2013.
- ^ Solid State Physics. N. W. Ashcroft, N. D. Mermin, 1976, ISBN 0030839939
- ^ Silsbee, F. B. (1918). "Note on electrical conduction in metals at low temperatures". Bulletin of the Bureau of Standards. 14 (2): 301. doi:10.6028/bulletin.335. ISSN 0096-8579.
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Superconductivity
- BCS
- Bean's critical state
- Ginzburg–Landau
- Kohn–Luttinger
- London
- Matthias
- Mattis–Bardeen
- RVB
- WHH
- coherence length
- critical field
- London penetration depth
- Silsbee current
- Abrikosov vortices
- Andreev reflection
- Cooper pairs
- flux pinning
- flux pumping
- Josephson effect
- Little–Parks effect
- Meissner effect
- Homes's law
- persistent currents
- proximity effect
- reentrance
- SU(2) color
- supercurrents
- superdiamagnetism
- superstripes
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| By explanation | |
| By critical temperature |
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| By composition |
