Researchers from The University of Osaka have identified a novel design method for photonic circuitry used in quantum computers, potentially promoting ...

Using a 78-qubit superconducting quantum processor known as "Chuang-tzu 2.0", researchers from the Chinese Academy of ...

They combined optical tweezers with metasurfaces to trap more than 1,000 atoms, with the potential to capture hundreds of thousands more. Quantum computers will only surpass classical machines if they ...

Quantum computing represents a potential breakthrough technology that could far surpass the technical limitations of ...

For quantum computers to outperform their classical counterparts, they need more quantum bits, or qubits. State-of-the-art quantum computers have around 1,000 qubits. Columbia physicists Sebastian ...

Using a superconducting quantum computer, physicists created a large and complex version of an odd quantum material that has ...

Quantum computers are designed to solve complex problems outside the scope of classic computing. Classic computers use conventional bits.

Your phone finishes your sentences, your camera detects faces and your streaming app suggests songs you never thought you would want, thanks to classical AI systems. These are powerful logic engines: ...

Tests in a gate-defined loop on graphene tracked a fractional charge circling back with a steady interference beat, as ...

Quantum computing and its threat to current encryption and the unknown threat of powerful quantum automated by advanced AI.