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Dissemination of IT for the Promotion of Materials Science
(DoITPoMS)
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DoITPoMS
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Superconductivity
TLP contents
Superconductivity
Aims
Before you start
Introduction
Discovery and properties
Theory
Cooper pairs
BCS theory
Type I vs Type II
Applications
Summary
Questions
Going further
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TLP contents
Main pages
Aims
Before you start
Introduction
Discovery and properties
Theory
Cooper pairs
BCS theory
Type I vs Type II
Applications
Summary
Questions
Going further
Media resources
Development of a 'giant' atom
(HTML5 content)
Graph of critical magnetic field and temperature for type I superconductors
(HTML5 content)
Graph of critical magnetic field and temperature for type II superconductors
(HTML5 content)
Working of a Maglev train
(HTML5 content)
Levitation by a section of superconducting material when placed above a magnetic track
(HTML5 content)
Parts of an MRI scanner
(HTML5 content)
The basic mechanism by which electron pair attraction occurs
(HTML5 content)
How superconductivity arises from the partial penetration of flux
(HTML5 content)
Electrons arrangment in normal and superconducting solids
(HTML5 content)
Experiment to measure duration of current flow in a ring where a current had been induced by a magnetic field
(HTML5 content)
Three possible relationships between temperature and electrical resistance of metals
(HTML5 content)
Electrical resistance v temperature for mercury
(HTML5 content)
Title page image
(image)
The London equation
(image)
The London penetration
(image)
Graph charting the development of superconducting materials.
(image)
Relationship between the coherence length and penetration depth for Type I superconductors
(image)
Relationship between the coherence length and penetration depth for Type II superconductors
(image)
The movement of particles into a depression
(video)
The movement of particles into and out of a depression
(video)