A surprising effect was discovered through a collaborative study by researchers from TU Wien and institutions in Croatia, ...

Instead of using the Large Hadron Collider to smash atoms together, researchers briefly turned lead into gold by facilitating ...

The classical scientific theories by which we understand the world around us do not hold good at the subatomic level. There, ...

For the first time, physicists have captured images of isolated atoms freely interacting in space. This breakthrough ...

MIT physicists have captured the first images of individual atoms freely interacting in space— “free-range” particles never ...

Scientists have just snapped pictures of single atoms as they move around freely, capturing details once hidden from sight.

MIT scientists have snapped the first-ever images of individual atoms interacting freely in space, making visible the elusive ...

Until now, atoms have never been imaged interacting freely in space, but a new technique known as non-resolved microscopy has ...

A crucial component of this is understanding the behaviour of the electrons that surround the atomic nucleus; these dynamics dominate the way atoms and molecules interact with their environment.

Researchers suggest powerful bursts from magnetars—collapsed stars with strong magnetic fields—may have contributed up to 10 ...

S cientists now have a new approach to study never-before-seen quantum phenomena. Physicists from the Massachusetts Institute ...

Physicists have used a novel technique to observe individual atoms interacting in free space for the first time ever. The new ...