A new experiment with momentum-entangled helium atoms could help unite quantum mechanics and general relativity.

Most people think of diamonds as high-end adornments. Not Ania Bleszynski Jayich. The UC Santa Barbara physicist sees ...

The results are just what theory predicts, but when the theory clashes as strongly with everyday experience as this, ...

For decades, scientists have tried and failed to explain how the force that binds the heart of atoms together really works.

Quantum physicists observed atoms entangled in motion for the first time, using helium atoms with mass and gravity, opening new ways to explore how quantum mechanics interacts with gravity.

A team led by scientists at the National Graphene Institute (NGI) at The University of Manchester has developed the first ...

Scientists sealed tiny pockets of liquid between graphene sheets to capture atomic-resolution videos of gold atoms moving at ...

A team led by scientists at the National Graphene Institute (NGI) at The University of Manchester developed the first technique capable of capturing atomic‑resolution videos of individual gold atoms ...

A particular silicon compound that has been sought by scientists for decades has been created by two separate teams of ...

Q-Factor emerges with $24M in funding and the next big bet to achieve quantum computing advantage - SiliconANGLE ...

Dark matter is some kind of substance that has gravity—it holds galaxies together—yet cannot be directly seen with any ...

Published in Science, the team demonstrated the first atomic‑resolution imaging of atomic behaviour at solid–liquid interfaces in a broad range of ...