How fast is quantum entanglement? Scientists believe they have an answer that's measured in attoseconds -- billionths of a ...

Researchers from Madrid explain a phenomenon that allows the direction of light emission to be controlled at the atomic scale ...

Writing with atoms marks a new era in quantum materials, enabling scientists to engineer atomic-scale properties for quantum ...

Under the right circumstances, electrons can actually “freeze” into a bizarre solid form. Now, physicists at Berkeley Lab ...

For the first time, researchers have observed how bromoform rearranges its atoms in less than a trillionth of a second after ...

In a recent article, researchers presented an iridium single-atom catalyst coordinated with cobalt–iron hydroxides, showing enhanced performance for oxygen evolution reactions (OER). This catalyst ...

Scientists have set up and observed a single electron bond between two carbon molecules. A traditional “single bond” is actually two electrons—one from each atom. This is one electron. The fragile ...

Scientists have developed simulations to investigate the rapid processes of quantum theory, revealing insights into quantum entanglement and its formation. These findings, which detail how ...

Researchers analyze the picoantenna-like directional behaviour of tunnel junctions formed by surface defects at the atomic ...

A new experimental proposal suggests detecting a particle of gravity is far easier than anyone imagined. Now physicists are debating what it would really prove.

According to a study published in Science Advances, researchers from Madrid explain why the angular profile of light emission depends on the step’s orientation: in cavities as small as those between ...