A team at the University of Chicago has discovered a surprisingly simple way to create powerful quantum states that are normally difficult to produce. By making small adjustments to the energy levels ...

Researchers at the University of Chicago Pritzker School of Molecular Engineering (UChicago PME) have found a surprisingly ...

The simplified formula was developed to analyze local quantum entanglement in nanoscale materials. Credit: Osaka Metropolitan University Once described by Einstein as "spooky action at a distance," ...

In holographic theories, physicists may have traced the pliability of space-time to its quantum roots: a measure of ...

While usual gapless points that are not geometrically defective i.e. Dirac points (Left column) possess only eigenvalues within [0, 1] (Bottom Left), defective exceptional points (Right column) also ...

Quantum entanglement remains one of physics’ strangest ideas. Two particles become linked so closely ...

Photosynthesis and other natural processes depend on energy moving quickly and efficiently across molecules. When sunlight strikes a leaf, energy races across protein structures before it can be ...

Quantum entanglement offers a unified ab initio framework for revealing chemical bonds, from Lewis structures to aromatic and ...

Quantum teleportation has moved from science fiction into laboratory reality, but not in the way popular culture imagines. Instead of beaming people or objects across space, physicists are learning ...

It's one thing to dream up a quantum internet that could send hacker-proof information around the world via photons superimposed in different quantum states. It's quite another to physically show it's ...

Quantum information systems, systems that process, store or transmit information leveraging quantum mechanical effects, could, in principle, outperform classical systems in some optimization, ...