Quantum computing could lead to revolutions in cryptography, materials design and telecommunications. But fulfilling those ...

King's College London researchers hope the chip will help answer previously unanswerable questions about the most important natural processes.

Quantum computers have the potential to transform science, accelerating breakthroughs in drug development, cosmology, ...

Modern power systems are rapidly evolving into highly digitized smart grids, increasing their complexity at an unprecedented pace. Renewables, batteries, electric vehicles, power electronics, sensors ...

When running an AI model through a quantum computer, scientists have increased accuracy by only adding a relatively small ...

Quantum computers need special materials called topological superconductors—but they’ve been notoriously difficult to create. Researchers have now shown they can trigger this exotic state by subtly ...

This new CIC nanoGUNE project involves adapting the SIESTA program, one of the most widespread codes for exploring how materials behave at the ...

The world’s only vertical quantum center, DQC was founded by leading quantum scientists in 2021. Led by Kenneth Brown, DQC ...

While quantum computers are already being used for research in chemistry, material science, and data security, most are still too small to be useful for large-scale applications. A study led by ...

Quantum computing still stumbles on fragility, where tiny disturbances can wreck calculations. ETH Zurich researchers built a ...

This voice experience is generated by AI. Learn more. This voice experience is generated by AI. Learn more. We are on a path where AI will help accelerate what may be the most consequential innovation ...