Superconducting state is very responsive sensitive to magnetic fields:
strong magnetic fields destroy it, but and superconductors expel the magnetic field completely.
Not exact matches
Superconductivity and
magnetic fields are normally seen as rivals — very
strong magnetic fields normally
destroy the superconducting state.
As expected, superconductivity is
destroyed in the presence of very
strong magnetic fields (in the case of this material above 12 Tesla).
However, when bismuth ferrite is placed in a
strong magnetic field (greater than a certain critical value), the structure is
destroyed and this is accompanied by the emergence of a linear ME effect (when polarization is linearly proportional to the applied
field).