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

MIT physicists have taken the first-ever direct images of individual atoms interacting freely in space. Their findings, ...

This new experiment zeroed in on bosons, particles that tend to cluster and act like waves — a property predicted over a ...

Physicists captured the first images of individual atoms freely interacting in space. The pictures reveal correlations among the 'free-range' particles that until now were predicted but never directly ...

In a groundbreaking discovery, physicists have for the first time observed individual free-range atoms interacting in free space, confirming a quantum mechanical theory proposed over a century ago.

As another example, the team was able to directly capture an image of a 'de Broglie wave', named after French physicist Louis de Broglie, in which bosons bunch together. This theory is partly ...

This wave-like character was first predicted by physicist Louis de Broglie. It is the “de Broglie wave” hypothesis that in part sparked the beginning of modern quantum mechanics.

Physicists have used a novel technique to observe individual atoms interacting in free space for the first time ever. The new technique confirms a century-old quantum mechanical theory.

This confirmed a long-standing prediction based on Louis de Broglie's theory that boson bunching is a direct result of their ability to share one quantum wave - a hypothesis known as the de Broglie ...

ST. LOUIS — A tornado warning issued for areas of the Metro East kicked off a series of severe storms throughout the St. Louis region Wednesday afternoon and evening. The 5 On Your Side Weather ...