Operationally, the Israeli campaign was indeed impressive. For 12 days, the Israeli air force ruled Iranian skies without ...

Last month, a consortium of 69 scientists from across Europe and Japan completed the largest and most coordinated comparison ...

Atomic clocks and our computer networks are the new, far superior form of time measurement, but we’re forcing them to keep in sync with this older form of measurement,” remarks Dr. David Gozzard, an ...

On this week’s “More To The Story,” Daniel Holz from the Bulletin of the Atomic Scientists discusses why the hands of the ...

On July 1st the American president announced on social media that Israel had agreed to the “necessary conditions” for a ...

It was a battle planned and fought in the shadows and unleashed with missiles and spycraft. The real winner of the conflict ...

There have been a trickle of reports from US media outlets that the US's strikes on Iranian nuclear facilities did not ...

The European Space Agency’s ACES mission could ultimately pave the way for a global network of atomic clocks that make these measurements far more accurate.

From space, the Atomic Clock Ensemble in Space will link to some of the most accurate clocks on Earth to create a synchronized network, which will support tests of fundamental physics.

At the heart of this change is a new kind of atomic clock that uses light instead of microwaves. This shift means timekeeping could become 1,000 times more accurate than today's standards.

It lays the groundwork for future advancements in atomic clocks, quantum memory, magnetometry, and other technologies where long spin coherence times are critical.

Atomic clocks keep getting smaller, lower power, and better—Microchip’s latest chip-scale version leverages EXMO technology to bring its height down to half an inch.