Quantum computing researchers have long wrestled with a tradeoff. Planar ion traps, built with flat electrodes, scale easily for larger systems but sacrifice performance. Traditional 3D traps, on the ...

A team from Simon Fraser University’s Quantum Technology Lab, working with the Canadian quantum company Photonic Inc., has ...

OQC and Digital Realty launch NYC's first quantum-AI data center, integrating GENESIS quantum computer with NVIDIA superchips ...

Breakthroughs in Quantum Computing: Chinese Research Teams Leading Global Technological Innovation ...

Researchers miniaturize quadrupole ion traps with 3D printing - a breakthrough in the development of large-scale quantum computers.

Hybrid computing has the potential to solve some of the most pressing challenges facing American industries, and ORNL is excited to bring its deep expertise to the partnership in the electric grid, ...

Researchers at Lawrence Livermore National Laboratory (LLNL), the University of California (UC) Berkeley, UC Riverside and UC ...

Scientists have achieved quantum entanglement between two atomic nuclei, a significant stride towards building efficient quantum computers.

The artificial intelligence models that turn text into images are also useful for generating new materials. Over the last few years, generative materials models from companies like Google, Microsoft, ...

The neutral atom array architecture for quantum computing has been rapidly advancing over the last several years, and a ...

The optical fibers connecting two quantum research labs at the University of Michigan mark the first piece of a local quantum network and remote user ...

Quantum entanglement – once dismissed by Albert Einstein as "spooky action at a distance" – has long captured the public ...