Integrating decoherence-free subspaces with dynamical decoupling enhances quantum state fidelity, offering a practical route to more noise-resilient quantum computing ...

Chalmers engineers built a pulse-driven qubit amplifier that’s ten times more efficient, stays cool, and safeguards quantum ...

Researchers from the National University of Singapore (NUS) have achieved exciting progress in quantum metrology, a field ...

Smart amplifier cuts power consumption, paving way for more qubits and less decoherence by Chalmers University of Technology edited by Sadie Harley, reviewed by Robert Egan Editors' notes ...

Quantum computers can solve extraordinarily complex problems, unlocking new possibilities in fields such as drug development, ...

Quantum computers can solve extraordinarily complex problems, unlocking new possibilities in fields such as drug development, encryption, AI, and logistics. Now, researchers at Chalmers University ...

The team used a modified commercial cryogenic hybrid LNA based on InP HEMTs characterised to demonstrate the feasibility of ...

Quantum researchers finally captured the field’s “holy grail,” showing real machines can beat classical computing ...

A research team has achieved the holy grail of quantum computing: an exponential speedup that’s unconditional. By using ...

Quantum computers can solve extraordinarily complex problems, unlocking new possibilities in fields such as drug development, encryption, AI, and ...

Quantum machine learning (QML) is transitioning from research to practical business applications. Discover how QML is ...