But some atoms lingered in a subradiant, or "dark," state, unable to emit light that would destructively interfere. As time passed, some atoms in superradiant states also became subradiant ...

For dark matter and dark energy to affect ordinary atoms, then, they would need to change these states around somehow. How that might work depends on the precise nature of those exotic phenomena.

Mysterious substances known as dark matter and dark energy ... In the lab, it is possible to trap atoms and prepare them in a Rydberg state—making them as big as 4,000 times their original ...

Dicke had shown that when multiple atoms interact with light, they can form special bright and dark states. In the former, atoms work together to strongly interact with light, making their effects ...

a concept which relates to Dicke's bright and dark states of atoms from the 1950s." In the scenario considered by Villas-Boas, the two (or more) atoms described by Dicke in his work are replaced ...

There could be dark atoms—made of dark protons ... Understanding phonons is the domain of condensed matter and solid state physics, which focus on the collective effects of many atoms within ...

From anti-counterfeiting inks to bioimaging agents, phosphorescent materials that glow after light exposure are critical for ...

An exotic, ultracold state of matter on Earth is helping scientists study the behavior of "fuzzy" dark matter. Dark matter is an invisible form of matter that makes up about 85% of the matter in ...

So, neutral atoms provide all the tools needed for gate-based quantum computing: a long-lived quantum state, the ability to set and read that state, and the ability to arbitrarily connect any two ...