The Meissner Effect: What Causes Magnet Repellency?

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SUMMARY

The discussion centers on the Meissner Effect, which describes how superconductors (SCs) exhibit zero electrical resistance and repel magnetic fields. When a superconductor is subjected to a magnetic field, eddy currents form on its surface, opposing the change in the applied field. However, superconductors have a critical magnetic field limit; exceeding this threshold allows them to revert to a normal state. Type II superconductors can enter an intermediate phase, allowing flux trapping, where portions of the material become normal while still repelling the magnetic field.

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  • Understanding of superconductors and their properties
  • Knowledge of eddy currents and their effects in conductive materials
  • Familiarity with the concept of critical magnetic fields in superconductors
  • Basic principles of magnetism and magnetic fields
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  • Research the properties of Type II superconductors and their applications
  • Explore the phenomenon of flux trapping in superconductors
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Physicists, materials scientists, and engineers interested in superconductivity, magnetism, and the practical applications of the Meissner Effect.

leroyjenkens
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My question is why does the material having no electrical resistance cause it to repell a magnet?

And how can it repell and attract at the same time? I don't understand how the "flux trapping effect" works.
I watched this video and it got me really interested in it.
Thanks.
 
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Here's a simplistic, hand-waving picture.

Do you know what happens if you try to subject a regular metal to a magnetic field? Have you heard of eddy currents? There's a similar reaction when you try to subject a zero-field cooled SC to a magnetic field. Eddy currents are set up along the surface of the SC which oppose the change in the applied field.

However, there's a limit to how much magnetic field a SC can push out against. If you exceed this critical field, then it becomes energetically easier for the SC to just turn into a normal material and let the field through. In certain kinds of SC materials (Type II SCs), however, before completely giving up all hope, the SC chooses (for a certain range of fields) an intermediate phase where it let's small portions of itself turn into a normal material and let the field pass through only those regions. This is what leads to flux trapping. The rest of the material is still a SC an still repels the applied field.
 

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