Sometimes, materials are able to conduct electricity without any resistance whatsoever: superconductivity. Superconductors could in principle form a solution to many of the world’s energy problems – but unfortunately, most superconducting materials only exhibit their special properties under very special circumstances. The temperature at which these materials operate is far below room temperature, or the applied pressure must be enormous. Moreover, the presence of external influences, such as a magnetic field, often also destroys the superconductivity effect.
Recently, however, a small family of materials has been discovered that bucks this trend: rather than suppressed, superconductivity is actually promoted by the magnetic ﬁeld. The resistance-less conduction of electricity may even survive in the highest magnetic ﬁelds that can be produced in the laboratory.
This unrivalled property, dubbed ‘magnetic field-boosted superconductivity’, is found in superconducting ferromagnets: materials that combine the existence of superconductivity with magnetic properties also present in the magnets that we encounter in everyday life. In his article, de Visser – who discovered one of these very special superconducting materials – explains how the fact that some superconductors improve in a magnetic field calls for an unorthodox explanation in terms of the building blocks that carry the electric current.
Magnetic field-boosted superconductivity, Anne de Visser, Physics Today 73, 11, 44 (2020).