Researchers found that gold “super atoms” can behave like the atoms in top-tier quantum systems—only far easier to scale. These tiny clusters can be customized at the molecular level, offering a ...

Trapped-ion quantum computing operates at room temperature, unlike other types that need extreme cold. This type of quantum computing is promising for stable, long-term research and application.

Research at the Quantum Systems Accelerator has been steadily breaking new ground, quickening the pace toward flexible, stable quantum computers with capabilities well beyond those of today's ...

Quantinuum claims its H2 quantum processor initially features 32 fully-connected, high-fidelity qubits and a parallel gate zones architecture. Quantinuum’s H2 quantum processor initially features 32 ...

Quantum sensing has long promised exquisite sensitivity, but in the real world, environmental noise usually buries the very ...

A view inside the trapped-ion quantum computer that carried out a first-of-its-kind simulation of molecular chemistry. A single atom has performed the first full quantum simulations of how certain ...

IonQ recently announced that it has reached a significant achievement in the field of trapped-ion quantum computing by creating high-speed, mixed-species quantum gates that greatly enhance the rate of ...

A new paper published in Nature Communications could put scientists on the path to understanding one of the wildest, hottest, ...

Scientists have achieved the lowest quantum computing error rate ever recorded — an important step in solving the fundamental challenges on the way to practical ...

Trapped ion quantum computing represents one of the most promising approaches to realising scalable quantum processors. By confining electrically charged atoms using electromagnetic fields, ...