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 ...

Separate two superconductors with a thin layer of material and something strange happens. Their superconductivity — a property driven by paired electrons that allows electricity to flow without energy ...

Experiments show Josephson junction-like behavior can arise with only one superconductor, challenging the standard two-superconductor model. (Nanowerk News) Separate two superconductors with a thin ...

Multiterminal Josephson junctions, nanoscale devices with unique electronic properties, comprise non-superconducting metallic material coupled to three or more superconducting leads. These devices ...

An image of a superconducting quantum computer shows several round, flat, golden layers with tubes and wires between them, all encased in a transparent cylinder. The superconducting quantum computer ...

Josephson junctions, comprising two superconducting electrodes separated by a thin insulating barrier, underpin a broad range of quantum technologies. The coherent tunnelling of Cooper pairs across ...

A technical paper titled “Josephson transistor from the superconducting diode effect in domain wall and skyrmion magnetic racetracks” was published by researchers at University of Basel. “In ...

WTe2 Josephson junction: Green slabs are layers of WTe2, orange bars are niobium electrodes, and red and blue lines denote spin up and spin down electrodes traveling on two hinges of the samples.

This illustration shows how superconductivity from vanadium (yellow) is transformed at the magnesium oxide barrier (green), enabling iron (blue) to form same-spin electron pairs and participate in ...