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A fast quantum interface between different spin qubit encodings

Author

Listed:
  • A. Noiri

    (RIKEN, Center for Emergent Matter Science (CEMS))

  • T. Nakajima

    (RIKEN, Center for Emergent Matter Science (CEMS))

  • J. Yoneda

    (RIKEN, Center for Emergent Matter Science (CEMS))

  • M. R. Delbecq

    (RIKEN, Center for Emergent Matter Science (CEMS)
    Laboratoire Pierre Aigrain, Ecole Normale Supérieure-PSL Research University, CNRS, Université Pierre et Marie Curie-Sorbonne Universités, Université Paris Diderot-Sorbonne Paris Cité)

  • P. Stano

    (RIKEN, Center for Emergent Matter Science (CEMS))

  • T. Otsuka

    (RIKEN, Center for Emergent Matter Science (CEMS)
    Tohoku University
    JST, PRESTO)

  • K. Takeda

    (RIKEN, Center for Emergent Matter Science (CEMS))

  • S. Amaha

    (RIKEN, Center for Emergent Matter Science (CEMS))

  • G. Allison

    (RIKEN, Center for Emergent Matter Science (CEMS))

  • K. Kawasaki

    (University of Tokyo)

  • Y. Kojima

    (University of Tokyo)

  • A. Ludwig

    (Lehrstuhl für Angewandte Festkörperphysik, Ruhr-Universität Bochum)

  • A. D. Wieck

    (Lehrstuhl für Angewandte Festkörperphysik, Ruhr-Universität Bochum)

  • D. Loss

    (RIKEN, Center for Emergent Matter Science (CEMS)
    University of Basel)

  • S. Tarucha

    (RIKEN, Center for Emergent Matter Science (CEMS)
    University of Tokyo)

Abstract

Single-spin qubits in semiconductor quantum dots hold promise for universal quantum computation with demonstrations of a high single-qubit gate fidelity above 99.9% and two-qubit gates in conjunction with a long coherence time. However, initialization and readout of a qubit is orders of magnitude slower than control, which is detrimental for implementing measurement-based protocols such as error-correcting codes. In contrast, a singlet-triplet qubit, encoded in a two-spin subspace, has the virtue of fast readout with high fidelity. Here, we present a hybrid system which benefits from the different advantages of these two distinct spin-qubit implementations. A quantum interface between the two codes is realized by electrically tunable inter-qubit exchange coupling. We demonstrate a controlled-phase gate that acts within 5.5 ns, much faster than the measured dephasing time of 211 ns. The presented hybrid architecture will be useful to settle remaining key problems with building scalable spin-based quantum computers.

Suggested Citation

  • A. Noiri & T. Nakajima & J. Yoneda & M. R. Delbecq & P. Stano & T. Otsuka & K. Takeda & S. Amaha & G. Allison & K. Kawasaki & Y. Kojima & A. Ludwig & A. D. Wieck & D. Loss & S. Tarucha, 2018. "A fast quantum interface between different spin qubit encodings," Nature Communications, Nature, vol. 9(1), pages 1-7, December.
    • Handle: RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-07522-1
    DOI: 10.1038/s41467-018-07522-1
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