Global phase spectroscopy' makes ultraprecise optical timekeepers even more precise Researchers at MIT say they have ...

Every second of modern life runs on precision — from GPS navigation to the time signals that keep the internet in sync. But ...

Using supercomputer simulations, a team of researchers investigated a mysterious source of gamma light coming from the Milky ...

Johns Hopkins researchers may have identified a compelling clue in the ongoing hunt to prove the existence of dark matter. A ...

If you step outside tonight and look up, you might just see the sky glow with magical colors. The Northern Lights, also known ...

A team of physicists from the Faculty of Physics at the University of Warsaw, the Center for New Technologies at the ...

Normal cellular processes in living things — from germinating plants to our own cells — create biophotons, though escaping light isn’t visible to us.

Several commercially viable technologies use quantum science for practical applications in health care, environmental ...

Physicists in Toronto observe quantum “negative time”: a pulse of light appears to leave before entering atoms.

Manufacturing better batteries, faster electronics, and more effective pharmaceuticals depends on the discovery of new materials and the verification ...

The new study from the team at the University of York suggests that dark matter could leave very faint, measurable marks on ...

MIT physicists improved the stability of optical atomic clocks by reducing “quantum noise” — a fundamental measurement ...