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

Quantum computers, computing systems that process information leveraging quantum mechanical effects, could soon outperform ...

A ‘quantum telephone’ connecting atomic nuclei could make practical quantum computers easier to build and use.

A micrograph showing the operation of a ‘conveyor belt’ of atom arrays. At each step, a fresh array is created at the bottom, ...

The concept of quantum entanglement is emblematic of the gap between classical and quantum physics. Referring to a situation ...

For the first time, researchers have mathematically proven that a quantum computer can solve a particular task faster than an ...

New measurements on Bose-Einstein condensate could help us better understand how objects transition from being quantum and ordered to classical and chaotic ...

An international team of researchers has identified a quantum counterpart to Bayes’ rule. The likelihood you assign to an ...

Electrons in graphene can act like a perfect fluid, defying established physical laws. This finding advances both fundamental science and potential quantum technologies. For decades, quantum ...

A levitated nanoscale particle in vacuum represents an isolated system where researchers can study the transition between classical and quantum mechanics. It also offers a testbed for building new ...

Physicists from Osaka Metropolitan University and the Korea Advanced Institute of Science and Technology were, for the first ...

The quantum universe is full of mysteries, and among them, quantum entanglement intrigues with its puzzling properties.