The picture below perhaps says all that needs to be said. The answer is to turn to basic physics, in this case the Josephson junction. The Josephson junction is formed from two superconductors ...

Josephson microwave microscopy integrating Josephson junctions onto a nanoprobe enables spectroscopic imaging of near-field ...

More information: M. Wisne et al, Mapping the Topological Proximity-Induced Gap in Multiterminal Josephson Junctions, Physical Review Letters (2024). DOI: 10.1103/PhysRevLett.133.246601 . On arXiv ...

Switching takes place in a few picoseconds. Although Josephson junctions have not materialized for ordinary computer circuits, they have been used thus far in medical instruments and quantum ...

Josephson junctions are quantum mechanical devices consisting of two superconductors separated by a thin insulating barrier. They are named after Brian Josephson, who predicted their unique properties ...

The new qubit, using a ferromagnetic Josephson junction (π-junction), works without a magnetic field. A team led by ...

linked by the Josephson effect into Josephson junctions. In the article, resistance and magnetization measurements on the sample are described, which provide results that provide evidence for the ...

SIS junctions have superconducting electrodes separated by a thin insulating barrier. The superconducting properties of the electrodes lead to unique tunneling characteristics, such as the Josephson ...

Waveguide Quantum Electrodynamics: Multiple superconducting qubits are coupled via a microwave waveguide to form collective ...

Here, the authors report a field-free superconducting diode effect for 2H-NbSe 2 Josephson junctions with the results suggesting the existence of spontaneous time-reversal symmetry breaking.