While comparing neurons and transistors is a convenient metaphor (and not completely out of left field), the brain is ...

Researchers have discovered a simple yet powerful way to protect atoms from losing information—a key challenge in developing ...

Quantum computers hold incredible promise, but one major challenge still stands in the way: their struggle to correct errors ...

In the late 19th century, classical physics seemed complete. Scientists believed they had uncovered all the laws governing ...

The convergence of photonic quantum computing and neutral atom arrays charts a bold and expansive trajectory for the future ...

Excitons—bound pairs of electrons and an electron hole—are quasiparticles that can arise in solids. While so-called "bright" ...

The promise of so-called “quantum advantage” is simple. By harnessing the counterintuitive rules of quantum mechanics, ...

A new study shows entanglement can be reversed—if you plug in a quantum battery. The finding rewrites the rules of the ...

Orthodox quantum mechanics is empirically flawless, but founded on an awkward interface between quantum systems and classical ...

Scientists have finally uncovered a quantum counterpart to Carnot’s famed second law, showing that entanglement—once thought ...

We speak to Cern principal scientist Archana Sharma about pattern recognition, machine learning and quantum technology.

Quantum mechanics looks at how things work at the atomic and subatomic levels, where particles behave in ways that seem ...