WashU physicists build quantum sensors in boron nitride sheets to study magnetism and stress under extreme pressure.

Quantum computing exploits the physics of subatomic particles to perform speedier calculations than classical computers, with huge implications for technological innovation in defense and beyond.

The future of communications may well rely on quantum technology capable of integrating with our existing infrastructure.

Trapping ultracold atoms with laser light let researchers magnify and then image the wave functions of atoms that were ...

The world of quantum physics is already mysterious, but what happens when that strange realm of subatomic particles is put ...

Recent progress on both analog and digital simulations of quantum fields foreshadows a future in which quantum computers ...

An exotic phase of matter has been realized on a quantum processor. Matter can exist in different forms, or phases, such as liquid water or solid ice. These phases are usually understood under ...

A new integrated chip demonstrates how quantum networks could communicate using today’s internet protocols over existing ...

Quantum radar technology is fundamentally altering the way we detect stealth planes, bringing a level of ease and efficiency ...

Caltech scientists have developed an artificial intelligence (AI)–based method that dramatically speeds up calculations of ...

When mathematicians revived ignored mathematical structures, they found that overlooked particles, called "neglectons," could ...

Several companies are working to apply quantum computers to AI, making them attractive stock investments. Three that could ...