Scientists at the X-ray free-electron laser SwissFEL have realized a long-pursued experimental goal in physics: to show how ...

Scientists from the Massachusetts Institute of Technology (MIT) in the U.S. have made a groundbreaking achievement after they captured the first images of individual atoms freely interacting in space.

The technology’s applications span secure communications with multiple simultaneous channels, faster quantum computing ...

MIT physicists have taken the first-ever direct images of individual atoms interacting freely in space. Their findings, published in the journal Physical Review Letters, reveal hidden quantum ...

Paweł Moskal from Jagiellonian University talks to Tami Freeman about positronium imaging with the unique J-PET scanner and his team’s work in applying quantum entanglement to diagnostics First ...

Quantum particles can work together to produce powerful signals. However, those signals are unstable and usually vanish ...

When quantum particles work together, they can produce signals far stronger than any one particle could generate alone. This collective phenomenon, called superradiance, is a powerful example of ...

A Perspective by QST outlines a practical roadmap for “quantum life science,” spanning ultra‑sensitive diamond sensors in ...

Researchers at the Vienna University of Technology (TU Wien) and the Okinawa Institute of Science and Technology (OIST) ...

In a supercooled lab setting, a tiny crystal has quietly flipped a half-century-old assumption on its head. Scientists at Rice University have reported the first direct observation of a long-predicted ...