Quantum clocks built from randomness offer a new perspective on time, merging quantum mechanics with timekeeping and ...

“A male figure formed of gentle fire, his outline glowing with soft embers, approaches a female figure shaped from flowing water, her form glistening with ripples and fine mist. They move toward one ...

MIT researchers double the accuracy of optical atomic clocks by reducing quantum noise with an innovative laser technique.

Confining and rotating extremely cold atoms or molecules within atomic “Ferris wheels” made from laser light could test ...

Find out how to keep time online accurately using World Clock, Time.now, Google Clock, and more. Learn how web-based time ...

Lisa Bielawa is bringing together around 600 Knoxville musicians for one massive, puzzle-like concert Oct. 17 and 18.

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

Nobel laureate Arthur Schawlow’s advice to “never measure anything but frequency” is a central principle of modern precision metrology and timekeeping. Today’s spectroscopy is advanced enough to teach ...

A year-long project examining how the people and organizations developing AI are gaining control of the world’s most critical systems.

Researchers have designed a new type of gravitational wave detector that operates in the milli-Hertz range, a region untouched by current observatories. Built with optical resonators and atomic clocks ...

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