Stanford team builds room-temperature quantum device that eliminates massive energy costs of current quantum systems.

Researchers have created a new crystalline material with unusual magnetic patterns that could be used for breakthroughs in ...

Gadgetry and clever engineering quietly transform how military forces operate. These gadgets deliver subtlety, enable ...

Humanity has heard bold promises about conquering aging before, but few are as provocative as the claim that people could ...

The valley carries a long tradition of scholarship, and its future depends on reminding young minds that progress comes from ...

Understanding optical resolution is key in microscopy, highlighting the diffraction limit and innovations in super-resolution ...

Imagine a future where quantum computers supercharge machine learning—training models in seconds, extracting insights from ...

A new computational approach developed at the University of Chicago promises to shed light on some of the world's most ...

The fundamental nature of living things challenges assumptions that physicists have held for centuries.

Physicist Paul Davies’s Quantum 2.0: The past, present and future of quantum physics ends on a beautiful note. “To be aware of the quantum world is to glimpse something of the majesty and elegance of ...

As the International Year of Quantum draws to a close, Provost and Deputy President Professor Peter Haynes celebrates ...

Breakthrough photonic quantum chip emits ultra-short 2 nm X-ray waves, advancing quantum materials and powering next-gen ...