Trapped atom experiment shows that quantum motion could power faster and more powerful computers of the future.

Cutting-edge atomic clocks may soon reveal a strange possibility: time itself behaving like a quantum object, existing in ...

Quantum computing has long struggled with a practical problem: even as hardware improves, building useful applications remains slow, expensive, and highly specialized. New York-based Haiqu is ...

Scientists have discovered the cause of a persistent glitch that continues to disrupt superconducting quantum computers, even ...

Two quantum computers and two supercomputers teamed up to break the record on the biggest molecule yet to be simulated using ...

Researchers from Cleveland Clinic, RIKEN, and IBM have carried out the largest quantum-classical chemistry ...

Google Quantum AI pinpointed a new source of disruption in superconducting quantum computers: correlated phase errors caused by ionizing radiation. Even with gap engineering to block quasiparticles, ...

Quantum bits (qubits) are the fundamental building blocks of quantum information processing. A novel qubit platform invented ...

In a week of notable physics advances, scientists developed an AI-based method to improve muon tracking in Large Hadron Collider simulations, refined muon energy estimation in the MicroBooNE detector, ...

Creating quantum entanglement inside a solid material is tricky in the lab – but crystals buried in the earth could be ...

Quantum computing is no longer a physics experiment. Google’s Willow chip, IBM’s quantum roadmap expansion, and IonQ’s ...