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

More information about the study: Read the article Pulsed HEMT LNA Operation for Qubit Readout in IEEE Transactions on Microwave Theory and Techniques.

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

Devices taking advantage of the collective quantum behavior of spin excitations in magnetic materials—known as magnons—have ...

Researchers at Chalmers University of Technology have developed a new type of amplifier that reduces power consumption by 90% ...

This report on advances in theory, experiments, and applications of the microwave field is based on papers appearing in the Journal of the Institute of Electrical Communication Engineers of Japan, ...

Devices taking advantage of the collective quantum behavior of spin excitations in magnetic materials - known as "magnons" - have the potential to ...

Cutting-edge 5G technology that will be a catalyst for emerging technologies like Artificial Intelligence (AI), robotics, AR, and VR ...

The "Hubble tension," one of the most frustrating and lingering problems in science, could be solved if Earth and the Milky ...

Lai, Y., Horng, T., Su, W. and Lin, J. (2024) Wi-Fi-Based Posture Imaging Radar for Vital Sign Monitoring and Fall Detection. IEEE Transactions on Microwave Theory and Techniques, 72, 6062-6071.

IMS2025 in San Francisco brought together global RF and microwave leaders for a week of innovation, networking, and ...

New quantum amplifier design cuts power use and boosts scalability in quantum computers without sacrificing qubit readout fidelity.