Quantum computing has long promised breakthroughs in chemistry, logistics, finance, and climate modeling, but the hardware ...

The novel design for the new qubit uses the chemical element tantalum in tandem with a special silicon substrate, creating ...

There has been a break through in the quantum industry with a company unveiling a new processor that is 100x denser than any ...

Like their conventional counterparts, quantum computers can also break down. They can sometimes lose the atoms they ...

Unlike conventional phases of matter, the so-called non-equilibrium quantum phases are defined by their dynamical and time-evolving properties — a behavior that cannot be captured by traditional ...

Quantum computers are expected to solve problems far beyond the reach of today’s most advanced supercomputers. For these machines to work on a large scale, their individual processors need to ...

CAMBRIDGE, MA – In the future, quantum computers could rapidly simulate new materials or help scientists develop faster machine-learning models, opening the door to many new possibilities. But these ...

Zuchongzhi-3, a superconducting quantum computing prototype with 105 qubits and 182 couplers, has made significant advancements in random quantum circuit sampling. This prototype was successfully ...

What happens when the growth of computing demand becomes so rapid that even the best systems become unable to match it? This ...

China reports a quantum error correction breakthrough that could rival Google, signaling faster progress toward practical ...

Researchers used a 58-qubit quantum processor to realize and probe a Floquet topological phase, revealing exotic non-equilibrium matter beyond classical reach. (Nanowerk News) Unlike conventional ...