Scientists have linked nuclear spins inside silicon chips, marking a leap toward scalable quantum computers. Engineers at UNSW have achieved a major breakthrough in quantum computing by creating what ...

A strange kind of geometry governs how particles move inside matter. Now, for the first time, physicists have uncovered its full shape – and it could transform how we design materials ...

A team from the University of Geneva (UNIGE), in collaboration with the University of Salerno and the CNR-SPIN Institute ... aluminate—a well-known quantum material. "Its presence can be revealed by ...

This article explores how our understanding of the universe has evolved—from the scale of everyday experience down to the ...

Scientists use quantum many-body data and machine learning to boost density functional theory accuracy for chemistry and ...

Until the 2000s vacuum tubes practically ruled the roost. Even if they had surrendered practically fully to semiconductor ...

Photonics integrates quantum mechanics with light, fostering innovations in quantum computing, secure data transfer, and high ...

Quantum computing engineers in Sydney have demonstrated a clean way to entangle nuclear spins inside silicon chips.

A new study details how UNSW engineers created 'quantum entangled states' between two phosphorus atoms in silicon.

Quantum physics often reveals phenomena that defy common sense. A new theory of quantum scarring deepens our understanding of ...

Researchers have developed a chip-based quantum random number generator that provides high-speed, high-quality operation on a ...