Quantum networks modular architecture and distribution

FOCUS · K67 · ID: 1067394

Presentations

  • ORAL

    Publication: https://arxiv.org/abs/2207.14336

    Presenters

    • Junyu Liu

      • University of Chicago
      • The University of Chicago

    Authors

    • Junyu Liu

      • University of Chicago
      • The University of Chicago

    • Liang Jiang

      • University of Chicago

    • Connor T Hann

      • AWS Center for Quantum Computing
      • AWS

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  • ORAL

    Publication: P. Kerger, D. Bernal Neira, E. Rieffel. "Quantum-Accelerated Distributed Algorithms for Approximate Steiner Trees and Directed Minimum Spanning Trees". In preparation (2022)

    Presenters

    • David E Bernal Neira

      • USRA - Univ Space Rsch Assoc

    Authors

    • David E Bernal Neira

      • USRA - Univ Space Rsch Assoc

    • Eleanor G Rieffel

      • QuAIL, NASA
      • NASA Ames Research Center

    • Phillip Kerger

      • Johns Hopkins University

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  • ORAL

    Publication: De Andrade, Matheus Guedes, et al. "A quantum walk control plane for distributed quantum computing in quantum networks." 2021 IEEE International Conference on Quantum Computing and Engineering (QCE). IEEE, 2021.

    De Andrade, Matheus Guedes, et al. "Optimal Policies for Distributed Quantum Computing with Quantum Walk Control Plane Protocol." 2021 IEEE International Conference on Quantum Computing and Engineering (QCE). IEEE, 2021.

    Presenters

    • Matheus Guedes de Andrade

      • University of Massachusetts Amherst

    Authors

    • Matheus Guedes de Andrade

      • University of Massachusetts Amherst

    • Don Towsley

      • University of Massachusetts Amherst
      • UMass Amherst

    • Wenhan Dai

      • University of Massachusetts Amherst, Massachusetts Institute of Technology
      • UMass Amherst

    • Saikat Guha

      • The University of Arizona
      • University of Arizona

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  • ORAL

    Publication: A. Kolar, A. Zang, J. Chung, M. Suchara and R. Kettimuthu, "Adaptive, Continuous Entanglement Generation for Quantum Networks," IEEE INFOCOM 2022 - IEEE Conference on Computer Communications Workshops (INFOCOM WKSHPS), 2022, pp. 1-6.

    Presenters

    • Alexander Kolar

      • University of Chicago

    Authors

    • Alexander Kolar

      • University of Chicago

    • Allen Zang

      • University of Chicago

    • Joaquin F Chung Miranda

      • Argonne National Laboratory

    • Martin Suchara

      • Argonne National Laboratory
      • Amazon

    • Rajkumar Kettimuthu

      • Argonne National Laboratory

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  • ORAL

    Publication: [1] M. Pompili, S. L. N. Hermans, S. Baier, H. K. C. Beukers, P. C. Humphreys, R. N. Schouten, R. F. L. Vermeulen, M. J. Tiggelman, L. dos Santos Martins, B. Dirkse, S. Wehner, and R. Hanson. Realization of a multinode quantum network of remote solid-state qubits,
    Science, vol. 372, no. 6539, pp. 259-264, 2021.
    [2] S. L. N. Hermans, M. Pompili, H. K. C. Beukers, S. Baier, J. Borregaard and R. Hanson. Qubit teleportation between non-neighbouring nodes in a quantum network. Nature 605, 663-668 (2022).
    [3] S. L. N. Hermans, M. Pompili, L. Dos Santos Martins, A. R.-P. Montblanch, H. K. C. Beukers, S. Baier, J. Borregaard and R. Hanson. Entangling remote qubits using the single-photon protocol: an in-depth theoretical and experimental study. arXiv:2208.07449 (2022).

    Presenters

    • Alejandro Rodriguez-Pardo Montblanch

      • Delft University of Technology

    Authors

    • Alejandro Rodriguez-Pardo Montblanch

      • Delft University of Technology

    • Mariagrazia Iuliano

      • Delft University of Technology

    • Benjamin van Ommen

      • Delft University of Technology

    • Nicolas Demetriou

      • Delft University of Technology

    • Sophie Hermans

      • California Institute of Technology
      • Delft University of Technology

    • Johannes Borregaard

      • Delft University of Technology
      • QuTech, Delft University of Technology, Delft, the Netherlands

    • Tim Hugo Taminiau

      • Delft University of Technology

    • Ronald Hanson

      • Delft University of Technology

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  • ORAL · Invited

    Publication: Nicholas LaRacuente, Kaitlin N. Smith, Poolad Imany, Kevin L. Silverman, and Frederic T. Chong. Short-Range Microwave Networks to Scale Superconducting Quantum Computation. arXiv:2201.08825 [quant-ph], January 2022.

    Presenters

    • Nicholas LaRacuente

      • University of Chicago

    Authors

    • Nicholas LaRacuente

      • University of Chicago

    • Kaitlin N Smith

      • ColdQuanta
      • University of Chicago

    • Poolad Imany

      • National Institute of Standards and Technology (NIST); University of Colorado Boulder
      • National Institute of Standards and Technology (NIST)

    • Kevin L Silverman

      • National Institute of Standards and Technology
      • NIST

    • Frederic T Chong

      • University of Chicago
      • Department of Computer Science, University of Chicago
      • ColdQuanta Inc.

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  • ORAL

    Presenters

    • Jake Navas

      • Northern Arizona University

    Authors

    • Jake Navas

      • Northern Arizona University

    • Jaime A Diaz

      • Northern Arizona University

    • Matheus Guedes de Andrade

      • University of Massachusetts Amherst

    • M. Jaden Brewer

      • Northern Arizona University

    • Noah H Johnson

      • Northern Arizona University

    • Michael G Raymer

      • University of Oregon

    • Don Towsley

      • University of Massachusetts Amherst
      • UMass Amherst

    • Inès Montaño

      • Northern Arizona University
      • Northern Arizona U.

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