Kinetic Inductance Detectors (KIDs) and superconducting resonators are at the forefront of research into ultra-sensitive detection and quantum information processing. KIDs exploit the phenomenon of ...

Physicists have succeeded in coupling two Andreev qubits coherently over a macroscopic distance for the first time. They achieved this with the help of microwave photons generated in a narrow ...

Quantum Circuits recently raised $60 million in a new funding round and they have just announced a new unique superconducting hardware system drives more efficiency with error-detecting dual-rail ...

A recent study published in Advanced Materials Interfaces examined how surface roughness impacts the performance of superconducting resonators—key components in quantum computing systems. The research ...

Researchers have determined how to use magnons—collective vibrations of the magnetic spins of atoms—for next-generation information technologies, including quantum technologies with magnetic systems.

The researcher uses variations of the two-level system (TLS) model of amorphous glasses to analyze superconducting microwave resonator and qubit data to identify differences in decoherence channels ...

Superconducting quantum design has called for specialised expertise working with mostly improvised design tools within a homegrown workflow ...

The performance of superconducting microwave circuits is strongly influenced by the material properties of the superconducting film and substrate. While progress has been made in understanding the ...

Quantum computers, systems that process information leveraging quantum mechanical effects, have the potential of outperforming classical systems on some tasks. Instead of storing information as bits, ...