The rabbit hole of quantum gets weirder the deeper you go—but also has plenty of promise.

Biological systems, once thought too chaotic for quantum effects, may be quietly leveraging quantum mechanics to process ...

New findings are shedding light on the link between quantum entanglement and the anomalous behavior of strange metals.

For the first time, theoretical physicists from the Institute of Theoretical Physics (IPhT) in Paris-Saclay have completely ...

A quantum breakthrough in strange metals could unlock energy-efficient superconductors, revolutionizing power grids.

Randomness is essential to some research, but it’s always been prohibitively complicated to achieve. Now, we can use ...

Until now, creating quantum superpositions of ultra-cold atoms has been a real headache, too slow to be realistic in the ...

Scientists have long sought to unravel the mysteries of strange metals—materials that defy conventional rules of electricity ...

Philip Kurian’s research reveals how biological systems process quantum information—billions of times faster than traditional ...

Physicists used quantum tools to reveal that electrons in strange metals become highly entangled at a tipping point, offering ...

Physicists have made a major leap in our understanding of quantum entanglement by fully mapping out the statistics it can ...