Mid-circuit measurements are one of the biggest practical hurdles in quantum error correction on encoded qubits. Researchers in Innsbruck and Aachen have now proposed and experimentally demonstrated ...

A research team led by Pasquale Scarlino at EPFL has built a small, tunable detector capable of sensing individual microwave ...

New research allows for faster computation cycles and more robust error correction, accelerating Infleqtion’s path toward industrial-scale neutral-atom quantum ...

Quantum computers, systems that process information leveraging quantum mechanical effects, could outperform classical ...

Quantum computers are gaining a reputation among chemists and material scientists as promising tools that can tackle problems ...

Quantum circuits are supposed to gain power as they grow longer, but noise changes the picture. A new study finds that earlier steps in these circuits gradually lose their impact, with only the final ...

A new theoretical study has taken a close look at how noise influences these circuits. The results show that noise places a ...

The Wisconsin Union Directorate welcomed renowned quantum physicist John Martinis to Shannon Hall on March 23 as part of the ...

India’s ambitions in next-generation computing received a major thrust with Andhra Pradesh Chief Minister N. Chandrababu Naidu set to launch the country’s first indigenous quantum computing testing ...

MicroCloud Hologram Inc. (NASDAQ: HOLO), (“HOLO” or the “Company”), a technology service provider, announces the development of a revolutionary technology: state-based imaginary-time evolution quantum ...

A theoretical study shows that quantum excitations without topological protection, previously considered experimental limitations, can serve as spectroscopic tools for identifying quantum statistics.