For decades, physicists taught that superconductivity and magnetism could not share the same space. One state should destroy ...

In the past year, two separate experiments in two different materials captured the same confounding scenario: the coexistence ...

Superconductors promise loss-free electricity, but most only work at extreme cold. Hydrogen-rich materials changed that—yet their inner workings remained hidden because they only exist under enormous ...

Tohoku University and Fujitsu Limited have successfully used AI to derive new insights into the superconductivity mechanism ...

Scientists have discovered a way to efficiently transfer electrical current through specific materials at room temperature, a ...

Brief blasts of light might make some materials into fleeting superconductors. A new study strengthens the case for this controversial claim, first made more than a decade ago. But while some ...

For decades, a family of crystals has stumped physicists with its baffling ability to superconduct—that is, carry an electric current without any resistance—at far warmer temperatures than other ...

Tohoku University and Fujitsu Limited demonstrated an important use case for AI technology in new materials discovery, ...

David D. Nolte receives funding from the National Science Foundation. On April 8, 1911, Dutch physicist Heike Kamerlingh Onnes scribbled in pencil an almost unintelligible note into a kitchen notebook ...

A static electric field can be used to manipulate the superconducting state of metallic superconducting thin films, according to new experiments by researchers in Italy. The effect, which was first ...

Stoichiometric control of electron mobility and 2D superconductivity at LaAlO 3-SrTiO 3 interfaces Electron pairing without superconductivity can be described by a phenomenological Fermi–Hubbard model ...