E uropean scientists have, for the first time, connected a time crystal to another system external to itself, which could one day help power quantum computers of the future. The scientists at Aalto ...

Time crystals exhibit perpetual motion-like behavior when separated from external energy input, but scientists found a way to ...

Physicists have achieved a groundbreaking milestone by creating a time crystal that can be seen with the naked eye, marking ...

A crystal’s beauty comes from how perfectly its atoms line up in space. In 2012, Nobel Prize–winning physicist Frank Wilczek ...

A glittering hunk of crystal gets its iridescence from a highly regular atomic structure. Frank Wilczek, the 2012 Nobel Laureate in Physics, proposed quantum systems––like groups of particles––could ...

Researchers have discovered that quantum interactions between particles can be used to create time crystals with their own ...

The discovery of two new continuous time crystals could reshape how you think about time in quantum physics. These phases may lead to breakthroughs in quantum computing, more precise atomic clocks, ...

Improving your cryptographic agility goes far beyond files and folders. It’s about preserving the integrity of every ...

Researchers have made germanium superconducting for the first time, a feat that could transform computing and quantum ...

A time crystal, a long-life quantum system approaching perpetual motion, has been hooked up to its environment for the first time, unlocking an intriguing way to increase quantum computational and ...

A glittering hunk of crystal gets its iridescence from a highly regular atomic structure. Frank Wilczek, the 2012 Nobel Laureate in Physics, proposed ...

A time crystal formed on top of a superfluid in ultracold conditions. A glittering hunk of crystal gets its iridescence from a highly regular atomic structure. Frank Wilczek, the 2012 Nobel Laureate ...