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Meissner effect

expulsion of a magnetic field from a superconductor during its transition to the superconducting state

The Meissner effect is when a magnetic field is pushed out of a superconductor when it becomes superconducting. If you were to put a superconductor in the field of a big magnet and you looked just inside the superconductor, you would see that the magnetic field was much smaller than it was outside. The deeper in you looked, the closer it would be to zero. This is one of the ways that superconductors are not the same as perfect conductors, which do let magnetic fields pass through them.

The Meissner effect demonstrated by levitating a magnet above a cuprate (copper-based) superconductor, which is cooled by liquid nitrogen

The effect was discovered by Walter Meissner and Robert Ochsenfeld in 1933.[1] They saw that because the magnetic field cannot go through the superconductor, the field right outside the superconductor becomes stronger.

One example of the Meissner effect is a magnet levitating above a superconducting plate cooled by liquid nitrogen. In order to stop the magnetic field from going into the superconductor, the superconductor acts like a magnet pointing the opposite direction. This repels the real magnet and stops it from coming any closer.


References

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  1. Meissner, W.; Ochsenfeld, R. (1933). "Ein neuer Effekt bei Eintritt der Supraleitfähigkeit". Naturwissenschaften. 21 (44): 787–788. Bibcode:1933NW.....21..787M. doi:10.1007/BF01504252. S2CID 37842752.