Scientists have long sought to unravel the mysteries of strange metals—materials that defy conventional rules of electricity ...

Scientists have long been intrigued by strange metals—materials that don’t follow the usual rules of electricity and magnetism. Unlike familiar metals like copper or gold, which conduct electricity in ...

Strange metals have baffled scientists for decades, but a new breakthrough from Rice University researchers offers a major ...

New findings are shedding light on the link between quantum entanglement and the anomalous behavior of strange metals.

Scientists have long sought to unravel the mysteries of strange metals — materials that defy conventional rules of ...

With these results mostly inspiring more discussion and research, it’ll probably be a while still before we risk replacing the Fermi liquid theory, or apply strange metal findings to produce ...

Quantum critical points are thresholds that mark the transition of materials between different electronic phases at absolute ...

Physicists used quantum tools to reveal that electrons in strange metals become highly entangled at a tipping point, offering insights for future superconductors. Unlike conventional metals such as ...

In a strange metal (translucent box), electrons (blue marbles) lose their individuality and melt into a featureless, liquid-like stream. We all learned that electricity is caused by electrons ...