Researchers at Kumamoto University, in collaboration with colleagues in South Korea and Taiwan, have discovered that a unique ...

A research team affiliated with UNIST has unveiled a quantum device, capable of ultra-fast operation, a key step toward ...

A study by researchers from the University of British Columbia's Blusson Quantum Matter Institute (UBC Blusson QMI) has found a rare form of one-dimensional quantum magnetism in the metallic compound ...

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 ...

The geometry or shape of a quantum system is mathematically expressed by a tool called the quantum geometric tensor (QGT). It also explains how a quantum system's state changes when we tweak certain ...

A new study led by Rice University's Qimiao Si has unveiled a new class of quantum critical metal, shedding light on the intricate interactions of electrons within quantum materials. Published in ...

A device smaller than a grain of dust is emerging as a surprisingly powerful candidate to reshape how quantum computers are ...

An experiment with ultracold atoms reveals that a strongly driven quantum system doesn’t always heat up as expected. In daily ...

A new study led by the Flatiron Institute’s Aavishkar Patel has identified a mechanism that explains the unusual behavior of strange metals, considered one of the greatest open challenges in condensed ...

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 ...