superconductive

Superconductive is an adjective relating to superconductivity, the phenomenon by which certain materials conduct electric current with zero direct-current resistance and expel magnetic fields when cooled below a characteristic critical temperature. In a superconductor, electrons form bound pairs, known as Cooper pairs, which move without scattering and thus without electrical resistance. The effect was discovered by Heike Kamerlingh Onnes in 1911 in mercury. Superconductivity occurs below a material’s Tc and within certain magnetic-field limits; above these limits, superconductivity is destroyed. Type I superconductors display a complete Meissner effect and a single critical field, while Type II superconductors tolerate higher fields by forming quantized magnetic flux vortices.

Conventional superconductivity is well described by BCS theory (1957), which explains Cooper pairing mediated by lattice

Applications of superconductors include high-field magnets for magnetic resonance imaging (MRI) and particle accelerators, magnetic-levitation systems,