Researchers have found that 2D materials can self-form microscopic cavities that trap light and electrons, altering their quantum behavior. With a miniaturized terahertz spectroscope, the team ...

Confining and rotating extremely cold atoms or molecules within atomic “Ferris wheels” made from laser light could test ...

A team of researchers from TU Wien has shed new light on the behavior of electrons fleeing a solid material. Their research ...

This balance—neurons as the silent bee workers, waves as the queen’s rhythm holding the hive together—suggests consciousness ...

What happens when electrons leave a solid material? This seemingly simple phenomenon has, until now, eluded accurate ...

The simulation of strongly interacting many-body systems is a key objective of quantum physics research, as it can help to ...

Detecting dark matter—the mysterious substance that holds galaxies together—is one of the greatest unsolved problems in ...

Scientists have created spin waves with record wavelengths, a breakthrough that could lead to faster, more efficient, and ...

TWA is one such semiclassical approach that dates back to the 1970s, but is limited to isolated, idealized quantum systems ...

Auburn scientists have designed new materials that manipulate free electrons to unlock groundbreaking applications. These ...