Quantum entanglement, the invisible connection between particles that entwines them in such a way that they act as one, has ...

Using the quantum states of particles of light as currency could make for unforgeable transactions, and a new experiment has ...

Researchers Mitsuyoshi Kamba, Naoki Hara, and Kiyotaka Aikawa of the University of Tokyo have successfully demonstrated ...

UNSW engineers have made a significant advance in quantum computing: they created 'quantum entangled states'—where two ...

Trapping ultracold atoms with laser light let researchers magnify and then image the wave functions of atoms that were ...

Physicists have achieved a breakthrough by using a 58-qubit quantum computer to create and observe a long-theorized but never ...

A new integrated chip demonstrates how quantum networks could communicate using today’s internet protocols over existing ...

While we're far away from beaming around like 'Star Trek,' innovation of communications technology has become the closest ...

USU mathematicians' theories could bolster quantum computing by predicting new particles and enhancing qubit stability.

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

When we observe the world at our scale, everything seems to obey predictable laws, those of classical physics. But when ...

Majorana particles offer a promising solution for stable quantum computing, utilizing nonlocal encoding and topological protection for qubits.