Physicists at Washington University have forged ahead in the field of quantum mechanics by creating a new phase of matter ...

Physicists at Washington University in St. Louis have achieved a remarkable scientific milestone: they’ve created a “time ...

The team's work, published in Physical Review Applied, introduces a tabletop deep-ultraviolet (DUV) laser that can excite and probe nanoscale transport behaviors in materials such as diamond.

Time crystals are like a clock that never needs winding or batteries. “In theory, it should be able to go on forever,” Zu said. In practice, time crystals are fragile and sensitive to the environment.

The demonstration of a solid-state yellow laser based on diamond could bring new levels of convenience and capability for biomedical applications. In the yellow region of the electromagnetic ...

The discovery that inert helium can form bonds with iron may reshape our understanding of Earth’s history. Researchers from ...

They used a laser-heated diamond anvil cell to find this, and the discovery suggests there could be huge amounts of helium in the Earth’s core. This could challenge long-standing ideas about the ...

They used a laser-heated diamond anvil cell to find this, and the discovery suggests there could be huge amounts of helium in the Earth's core. This could challenge long-standing ideas about the ...