Category:Conductivity & superconductivity: Difference between revisions
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*'''[[:Category:Bean model|Bean model]]''' - the 1962 model that gives an explanation of irreversible magnetization of hard semiconductors | *'''[[:Category:Bean model|Bean model]]''' - the 1962 model that gives an explanation of irreversible magnetization of hard semiconductors | ||
*'''[[:Category:Conducting materials|Conducting materials]]''' - materials that allow the conduction of electric currents to varying degrees | *'''[[:Category:Conducting materials|Conducting materials]]''' - materials that allow the conduction of electric currents to varying degrees | ||
*'''[[:Category:Critical current|Critical current]]''' | *'''[[:Category:Critical current|Critical current]]''' - the maximum electrical density a superconductor can maintain without resistance | ||
*'''[[:Category:Flux pinning|Flux pinning]]''' | *'''[[:Category:Flux pinning|Flux pinning]]''' - the phenomena that magnetic flux lines do not move despite the current operating on them by a superconductor | ||
*'''[[:Category:Semiconductor materials|Semiconductor materials]]''' | *'''[[:Category:Semiconductor materials|Semiconductor materials]]''' - materials that have an intermediate electrical conductivity between a conductor and an insulator | ||
*'''[[:Category:Superconducting devices|Superconducting devices]]''' | *'''[[:Category:Superconducting devices|Superconducting devices]]''' - devices that allow zero or almost zero electrical resistance, often operated at very low temperatures and with materials such as mercury | ||
*'''[[:Category:Superconducting filaments and wires|Superconducting filaments and wires]]''' | *'''[[:Category:Superconducting filaments and wires|Superconducting filaments and wires]]''' - wires and filaments that have superconductive properties | ||
*'''[[:Category:Superconducting films|Superconducting films]]''' | *'''[[:Category:Superconducting films|Superconducting films]]''' - material films that have superconducting properties | ||
*'''[[:Category:Superconducting integrated circuits|Superconducting integrated circuits]]''' | *'''[[:Category:Superconducting integrated circuits|Superconducting integrated circuits]]''' - integrated circuits or ICs that have superconducting properties | ||
*'''[[:Category:Superconducting magnetic energy storage|Superconducting magnetic energy storage]]''' | *'''[[:Category:Superconducting magnetic energy storage|Superconducting magnetic energy storage]]''' - or SMES, a system that stores energy in a magnetic field created by the flow of direct current through a superconducting coil cooled below its critical temperatures | ||
*'''[[:Category:Superconducting materials|Superconducting materials]]''' | *'''[[:Category:Superconducting materials|Superconducting materials]]''' - materials, which, below a critical temperature, have zero or almost zero electrical resistance | ||
*'''[[:Category:Superconducting transition temperature|Superconducting transition temperature]]''' | *'''[[:Category:Superconducting transition temperature|Superconducting transition temperature]]''' - the temperature at which a particular material becomes a superconductor with no electrical resistance | ||
*'''[[:Category:Wire|Wire]]''' | *'''[[:Category:Wire|Wire]]''' - a single usually flexible strand of metal that transmits electricity and electromagnetic signals | ||
[[Category:Engineered_materials_&_dielectrics|{{PAGENAME}}]] | [[Category:Engineered_materials_&_dielectrics|{{PAGENAME}}]] |
Revision as of 20:52, 16 November 2011
Topics related to electrical conductivity, including semiconductors, superconductors and current
Subcategories
- Bean model - the 1962 model that gives an explanation of irreversible magnetization of hard semiconductors
- Conducting materials - materials that allow the conduction of electric currents to varying degrees
- Critical current - the maximum electrical density a superconductor can maintain without resistance
- Flux pinning - the phenomena that magnetic flux lines do not move despite the current operating on them by a superconductor
- Semiconductor materials - materials that have an intermediate electrical conductivity between a conductor and an insulator
- Superconducting devices - devices that allow zero or almost zero electrical resistance, often operated at very low temperatures and with materials such as mercury
- Superconducting filaments and wires - wires and filaments that have superconductive properties
- Superconducting films - material films that have superconducting properties
- Superconducting integrated circuits - integrated circuits or ICs that have superconducting properties
- Superconducting magnetic energy storage - or SMES, a system that stores energy in a magnetic field created by the flow of direct current through a superconducting coil cooled below its critical temperatures
- Superconducting materials - materials, which, below a critical temperature, have zero or almost zero electrical resistance
- Superconducting transition temperature - the temperature at which a particular material becomes a superconductor with no electrical resistance
- Wire - a single usually flexible strand of metal that transmits electricity and electromagnetic signals
Subcategories
This category has the following 7 subcategories, out of 7 total.
Pages in category "Conductivity & superconductivity"
The following 82 pages are in this category, out of 82 total.
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- J. Robert Schrieffer
- Archives:A Review of UK Government Involvement in the Field of Semiconductor Technology Within the Research Establishments
- Archives:Diversity, Complementarity, and Cooperation Materials Innovation in the Semiconductor Industry
- Semiconductors
- Archives:From Germanium to Silicon, A History of Change in the Technology of the Semiconductors
- First-Hand:Serendipity and Superconducting Magnets
- Oral-History:Ralph M. Showers
- Oral-History:Arnold Silver
- Oral-History:George E. Smith
- Oral-History:Earl Steele
- Oral-History:Takuo Sugano
- IEEE Council on SuperConductivity History
- Superconductors
- Superinsulators