Physicists are now using a tightly controlled laser and a cloud of ultracold atoms to imitate the behavior of electrons in solids, effectively building a quantum version of electronics out of light ...

Research shows twisting light-matter coupling can unlock unusual topological phenomena, advancing nanophotonics and quantum ...

When two black holes merge or two neutron stars collide, gravitational waves can be generated. They spread at the speed of ...

Quantum entanglement is often described as a mysterious link between particles, but new research shows it may be even richer ...

A chip-scale interface entangles light and electronic states without cryogenic cooling, bringing quantum networking hardware ...

Superradiance When multiple electrons emit light in a coordinated manner, the resulting emission is much stronger than the sum of individual emissions. (Courtesy ...

Researchers have shown that quantum signals can be sent from Earth up to satellites, not just down from space as previously ...

The theory of Quantum Chromodynamics (QCD) underpins our understanding of the strong interaction, governing how quarks and gluons interact to form hadrons. One of the most promising nonperturbative ...

Scientists have shown how an optical chip can simulate the motion of atoms within molecules at the quantum level, which could lead to better ways of creating chemicals for use as pharmaceuticals. An ...