Superconductivity Superconductors exhibit zero DC resistance and perfect diamagnetism (Meissner effect). Conventional superconductivity is explained by BCS theory: electron–phonon coupling forms Cooper pairs that condense into a macroscopic quantum state with an energy gap. Important parameters include critical temperature Tc, coherence length, and penetration depth. Unconventional superconductors (cuprates, iron pnictides) show pairing mechanisms beyond electron–phonon coupling; their study remains an active research area.