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Distributed quantum networks with cascaded superconducting circuits (2015–2019)

Abstract:
At the heart of all communication is the need to establish strong correlations between remote sites. The non-local character of quantum correlations enables new communication protocols that are impossible with classical resources alone. This project will realize a novel class of superconducting devices capable of establishing quantum correlations between distant electronic chips through long-range irreversible interactions. The resulting technology will enable completely new approaches to quantum information processing in superconducting quantum circuits and provide a powerful platform to test the limits of our ability to engineer macroscopic quantum systems.
Grant type:
ARC Future Fellowships
Researchers:

  • Associate Professor Arkady Fedorov

    Associate Professor
    School of Mathematics and Physics
    Faculty of Science
    Associate Professor
    School of Mathematics and Physics
    Faculty of Science
    Affiliate of ARC COE for Engineered
    ARC Centre of Excellence for Engineered Quantum Systems
    Faculty of Science
Funded by:
Australian Research Council