Light does not “think” in any human sense. Still, under the right conditions, it can behave in a way that looks uncannily ...

A team of scientists from Princeton University has measured the energies of electrons in a new class of quantum materials and has found them to follow a fractal pattern. Fractals are self-repeating ...

The mystery of quantum phenomena inside materials—such as superconductivity, where electric current flows without energy loss—lies in when electrons move together and when they break apart. KAIST ...

To capture higher-definition and sharper images of cosmological objects, astronomers sometimes combine the data collected by several telescopes. This approach, known as long-baseline interferometry, ...

New evidence suggests a rare triplet superconductor may help quantum computers stay in sync by preserving electron spin ...

Duke Quantum Center researchers use a neutral-atom platform to simulate unusual localization effects that could underpin ...

Integrating quantum computing into AI doesn’t require rebuilding neural networks from scratch. Instead, I’ve found the most effective approach is to introduce a small quantum block—essentially a ...

Researchers at the University of Tokyo have identified a precise sweet spot where quantum reservoir computing, a machine ...

An experiment measuring a single atom's recoil confirmed that observing a particle destroys interference, settling the quantum debate.