Until now, creating quantum superpositions of ultra-cold atoms has been a real headache, too slow to be realistic in the ...

Quantum metrology is a rapidly advancing field that harnesses the principles of quantum mechanics to enhance the precision and sensitivity of measurements beyond the limits of classical techniques. By ...

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 electricity ...

Quantum metrology uses quanta — individual packets of energy — for setting the standards that define units of measurement and for other high-precision research. Quantum mechanics sets the ...

USTC researchers created a long-lived Schrödinger-cat state, boosting quantum metrology and precision measurements. Their ...

He carries out experimental research in the fields of precision spectroscopy and quantum metrology, nonlinear optics, microwave photonics and ultrafast lasers. Diddams received the Ph.D. degree from ...

The increasingly complex structures, 3D geometries, and new material combinations in state-ofthe-art chips gives rise to a huge demand for new metrology tools. Traditional methods do not suffice, for ...