UC Santa Barbara physicists have engineered entangled spin systems in diamond that surpass classical sensing limits through ...

Experiments show that a time crystal based on magnons can interact with mechanical waves without being destroyed.

Researchers at UC Berkeley have observed a time-rondeau crystal, where long-term temporal order coexists with short-term ...

By turning diamond flaws into quantum sensors, scientists are uncovering new ways to measure reality with unprecedented precision.

The path toward realizing practical quantum technologies begins with understanding the fundamental physics that govern ...

Photonic Inc., a global leader in distributed quantum computing, announced today it has been selected to participate in Stage B of the Defense Advanced Research Projects Agency (DARPA) Quantum ...

Spin glasses are physical systems in which the small magnetic moments of particles (i.e., spins) interact with each other in ...

A research group from the Graduate School of Engineering at Tohoku University has developed a noninvasive means of detecting ...

The uncertainty inherent to quantum mechanics has long left physicists wondering whether the observations we make on the ...

Quantum sensors based on diamond promise robustness but have limited sensitivity. Generating quantum correlations in the material might be a solution. Klemens Hammerer is at the Institute for ...