Status of Quantum Networks

INVITED · S45 · ID: 1850582

Presentations

  • Cyber Risk Mitigation in the Era of Quantum Computing

    ORAL · Invited

    Publication: 1) Secure quantum key distribution with realistic devices, F. Xu, X. Ma, Q. Zhang, H.-K. Lo and J.-W. Pan, Rev. Mod. Phys. 92, 025002 (2020). https://journals.aps.org/rmp/abstract/10.1103/RevModPhys.92.025002
    2) Quantum repeaters: From quantum networks to the quantum internet, K. Azuma, S. E. Economou, D. Elkouss, P. Hilaire, L. Jiang, H.-K. Lo and I. Tzitrin, Accepted for publication by Reviews of Modern Physics.
    3) Distributed Symmetric Key Exchange: A scalable, quantum-proof key distribution system, H.-K. Lo, M. Montagna, and M. von Willich. arXiv: 2205 . 00615
    4) Composable Security of Distributed Symmetric Key Exchange Protocol, J. Lin, M. von Willich, and H.-K. Lo. arXiv: 2304.13789

    Presenters

    • Hoi-Kwong Lo

      Univ of Toronto and Quantum Bridge, University of Toronto

    Authors

    • Hoi-Kwong Lo

      Univ of Toronto and Quantum Bridge, University of Toronto

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  • What can 10 qubits do to solve classification problems?

    ORAL · Invited

    Publication: Akitada Sakurai, et. al., Phys. Rev. Applied 17, 064044 (2022), Aoi Hayashi, et. al., Phys. Rev. A 108, 042609 (2023)

    Presenters

    • Kae Nemoto

      Okinawa Institute of Science & Technology, OIST

    Authors

    • Kae Nemoto

      Okinawa Institute of Science & Technology, OIST

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  • Entanglement of Nanophotonic Quantum Memory Nodes in a Telecommunication Network

    ORAL · Invited

    Publication: Knaut, C. M. et al., Entanglement of Nanophotonic Quantum Memory Nodes in a Telecommunication Network, arXiv:arXiv:2310.01316

    Presenters

    • Can M Knaut

      Harvard University

    Authors

    • Can M Knaut

      Harvard University

    • Aziza Suleymanzade

      Harvard University

    • Yan-Cheng Wei

      Harvard University

    • Daniel R Assumpcao

      Harvard University

    • Pieter-Jan C Stas

      Harvard University

    • Yan Qi Huan

      Harvard University

    • Bartholomeus Machielse

      Harvard University, AWS Center for Quantum Networking

    • Erik Knall

      Harvard University

    • Maddie Sutula

      Harvard University

    • Gefen Baranes

      Harvard University, Massachusetts Institute of Technology

    • Neil Sinclair

      Harvard University

    • Chawina De-Eknamkul

      AWS Center for Quantum Networking

    • David Levonian

      Harvard University, AWS Center for Quantum Networking

    • Mihir K Bhaskar

      Harvard University, AWS Center for Quantum Networking

    • Hongkun Park

      Harvard University

    • Marko Loncar

      Harvard, Harvard University

    • Mikhail D Lukin

      Harvard University

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  • Quantum networking with trapped ions in optical cavities

    ORAL · Invited

    Publication: [1] V. Krutyanskiy, M. Galli, et el., Entanglement of Trapped-Ion Qubits Separated by 230 Meters, Phys. Rev. Lett. 130 (2023).
    [2] V Krutyanskiy, M Canteri, M Meraner, J Bate, V Krcmarsky, J Schupp, N. Sangouard, B. Lanyon, Telecom-wavelength quantum repeater node based on a trapped-ion processor Phys. Rev. Lett. 130 (2023)
    [3] V Krutyanskiy, M Canteri, M Meraner, V Krcmarsky, BP Lanyon, Multimode ion-photon entanglement over 101 kilometers of optical fiber, arXiv preprint arXiv:2308.08891 (2023)

    Presenters

    • Viktor Krutianskii

      University of Innsbruck

    Authors

    • Viktor Krutianskii

      University of Innsbruck

    • Marco Canteri

      University of Innsbruck

    • Josef Schupp

      Alpine Quantum Technologies

    • Vojtech Krchmarsky

      University of Innsbruck

    • James Bate

      Innsbruck University

    • Martin Meraner

      University of Innsbruk

    • Ben P Lanyon

      University of Innsbruck

    View abstract →