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 ...

A single atom has performed the first full quantum simulations of how certain molecules react to light. The researchers who carried out the feat say that their minimalistic approach could dramatically ...

In the life sciences and healthcare industries, the speed of innovation impacts how soon new products, medications and ...

Quantum systems can simulate molecular interactions at a level of fidelity that classical computers cannot achieve. They can ...

The Aquila magneto-optical trap in QuEra’s facilities. Subatomic particles such as quarks can pair up when linked by ‘strings’ of force fields — and release energy when the strings are pulled to the ...

Universal Quantum has staked its reputation on the trapped-ion approach, allowing it to scale in the quickest and most ...

A new experiment using Google’s Sycamore quantum processor has taken a bold step toward testing ideas from quantum gravity. For the first time, researchers successfully sent quantum information ...

A team led by Kenneth Merz, PhD, Staff in Cleveland Clinic's Center for Computational Life Sciences, showed how quantum computers can be used for investigating how molecules act in aqueous solutions.

We’re going to hear a lot about quantum computing in the coming years. Once real-world mainstream use cases start to appear, it will become one of the hottest topics in tech, up there with AI. Things ...