Progress in Practical Fault-Tolerant Quantum Error Correction

INVITED · Y69 · ID: 782434

Presentations

  • Tailored quantum error correction for large-scale quantum computing under structured noise

    ORAL · Invited

    Publication: J. Claes, J.E. Bourassa, and S. Puri, Tailored cluster states with high threshold under biased noise, arXiv:2201.10566
    J. Claes and S. Puri, Large scale quantum computing with the XZZX surface code and Kerr cat qubits, in preparation
    K. Sahay, J. Claes, J. Jin, J.D. Thompson, S. Puri, High-threshold fault-tolerance in measurement-based error correction with fusion-based circuits, in preparation

    Presenters

    • Jahan Claes

      Yale University

    Authors

    • Jahan Claes

      Yale University

    View abstract →

  • The Kerr cat: spectral kissing and phase-flip robustness

    ORAL · Invited

    Publication: [1] Grimm, A., Frattini, N.E., Puri, S. et al. Stabilization and operation of a Kerr-cat qubit. Nature 584, 205–209 (2020).
    [2] Frattini, N.E., Cortiñas, R.G., Venkatraman, J. et al. The squeezed Kerr oscillator: spectral kissing and phase-flip robustness. Arxiv 2209.03934 (2022).

    Presenters

    • Nicholas E Frattini

      JILA and NIST, Yale University, JILA, National Institute of Standards and Technology

    Authors

    • Nicholas E Frattini

      JILA and NIST, Yale University, JILA, National Institute of Standards and Technology

    • Rodrigo G Cortinas

      Yale University

    • Jayameenakshi Venkatraman

      Yale University

    • Xu Xiao

      Yale University

    • Qile Su

      Yale University

    • Chan U U Lei

      Yale University, Quantum Circuits, Inc.

    • Benjamin J Chapman

      Yale University

    • Vidul R Joshi

      Yale University

    • Steven M Girvin

      Yale University

    • Shruti Puri

      Yale University

    • Michel H Devoret

      Yale University

    View abstract →