For decades, the solution to harder problems has been ‘build a bigger computer’— but ...

Quantum computers struggle because their qubits are incredibly easy to disrupt, especially during calculations. A new ...

An array of 15,000 qubits made from phosphorus and silicon offers an unprecedentedly large platform for simulating quantum ...

Performing complex algorithms on quantum computers will eventually require access to tens of thousands of hardware qubits. For most of the technologies being developed, this creates a problem: It’s ...

Photo (Paderborn University, Martin Ratz): A glimpse of the experimental setup focussing on the area where the squeezed light generation takes place. The photo shows a small number of the optical ...

A new light-based breakthrough could help quantum computers finally scale up. Stanford researchers created miniature optical cavities that efficiently collect light from individual atoms, allowing ...

Like their conventional counterparts, quantum computers can also break down. They can sometimes lose the atoms they manipulate to function, which can stop calculations dead in their tracks. But ...

TAIPEI (Taiwan News) — Taiwan’s Academia Sinica on Thursday unveiled its 20-qubit superconducting quantum computer, marking a milestone in the nation’s quantum research.

In 1981, American physicist and Nobel Laureate, Richard Feynman, gave a lecture at the Massachusetts Institute of Technology (MIT) near Boston, in which he outlined a revolutionary idea. Feynman ...

Identifying realistic use cases, understanding governance and security implications, and assessing where quantum methods ...