Superconductivity, which entails an electrical resistance of zero at very low temperatures, is a highly desirable and thus ...

"The image shows the local density of current-carrying particles in a mesoscopic vortex lattice in a small mesoscopic superconductor." Disclaimer: AAAS and EurekAlert! are not responsible for the ...

The kagome lattice has emerged as a fertile platform for investigating intertwined electronic orders owing to its unique geometric frustration and nontrivial band topology. In materials such as AV3Sb5 ...

Superconductors (materials that conduct electricity without resistance) have fascinated physicists for more than a century. While conventional superconductors are well understood, a new class of ...

What would happen if you combined the unparalleled efficiency of a superconductor with the flexibility and controllability of a semiconductor? Thanks to a new breakthrough in quantum materials, we may ...

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 ...

Researchers have made germanium superconducting for the first time, a feat that could transform computing and quantum technologies. Using molecular beam epitaxy to embed gallium atoms precisely, the ...

Researchers at Okayama University used high-resolution synchrotron X-ray diffraction to detect tiny lattice distortions (about 100 parts per million) emerging as the topological superconductor Cu x ...