Physicists are learning to treat light not as an untouchable beam that simply passes through matter, but as something that ...

In a short talk at Caltech, physicist Richard Feynman laid out a vision of manipulating and controlling atoms at the tiniest ...

Scientists have captured the first ever footage of atoms bonding at a scale around half a million times smaller than the width of a human hair. Using advanced microscopy methods, the team of UK and ...

Hunting for the universe’s heaviest atoms just got a little easier, thanks to a new technique that directly measures the mass of elements heavier than uranium. The method could help find an “island” ...

Physicists have succeeded in manipulating atoms individually in a lattice of light and in arranging them in arbitrary patterns. These results are an important step towards large-scale quantum ...

Most of the things that we measure aren't critical and we can have a pretty large margin of error and be okay. For instance if you're weighing yourself a pound low or ...

Ultracold atoms have successfully mimicked a fundamental quantum effect normally found in electronic circuits.

Engineers in Sydney have demonstrated a quantum integrated circuit made up of just a few atoms. By precisely controlling the quantum states of the atoms, the new processor can simulate the structure ...

Researchers have developed a technique similar to the MRI but has higher resolution and sensitivity, which has the ability to scan individual cells. Researchers from the Institute of Photonic Sciences ...

Quantum computing aims for error correction by 2026, with Microsoft, Atom Computing, and QuEra leading efforts to deliver ...