The past decade has seen major improvements in qubit quality, coherence, and quantum error correction, but scaling has remained a tremendous challenge, in large part due to wiring constraints. With ...

Developing technology that allows quantum information to be both stable and accessible is a critical challenge in the development of useful quantum computers that operate at scale. Research published ...

Quantum engineers have now demonstrated a fully controllable three‑qubit register on a silicon photonic chip, turning a ...

Future quantum computers could be used to design innovative materials or chemical compounds such as catalysts and pharmaceuticals. A promising way to realize these machines would be to base the ...

A device smaller than a grain of dust may help unlock the kind of quantum computers people have only dreamed about. Built on ...

David Reilly and his University of Sidney team developed a silicon chip that can control spin qubits at milli-kelvin temperatures. That’s just slightly above absolute zero (-273.15 degrees Celsius), ...

Slight temperature changes, imperceptible manufacturing imperfections, and heat generated by their own components can completely ruin an entire quantum quantum system-on-chip. Silicon photonics could ...

Quantum computers could rapidly solve complex problems that would take the most powerful classical supercomputers decades to ...

Explore where quantum computing stands today, where it’s headed, and how modular, open platforms are paving the way for scalable, next-gen control systems. Download the whitepaper to explore key ...

Another massive shift compared to most quantum computing technology is that light cage memory operates slightly above room temperature and does not require cryogenic cooling. This makes it not only ...

QBTS surged 211% in 2025, beating NVDA as quantum stocks rallied on real deployments. Will the momentum continue into 2026?