Constructions for universal gates and magic states

FOCUS · MAR-A09 · ID: 3990651

Presentations

  • ORAL

    Publication: https://arxiv.org/abs/2509.05212

    Presenters

    • Pei-Kai Tsai

      • Yale University

    Authors

    • Kaavya Sahay

      • Yale University

    • Pei-Kai Tsai

      • Yale University

    • Kathleen (Katie) M Chang

      • Yale University

    • Qile Su

      • Yale University

    • Thomas B Smith

      • Yale University

    • Shraddha Singh

      • Yale University

    • Shruti Puri

      • Yale University

    View abstract →

  • ORAL

    Presenters

    • Kathleen (Katie) M Chang

      • Yale University

    Authors

    • Kathleen (Katie) M Chang

      • Yale University

    • Pei-Kai Tsai

      • Yale University

    • Kaavya Sahay

      • Yale University

    • Qile Su

      • Yale University

    • Thomas B Smith

      • Yale University

    • Shraddha Singh

      • Yale University

    • Shruti Puri

      • Yale University

    View abstract →

  • ORAL

    Publication: [1] S. Bravyi and A. Kitaev, Universal quantum computation with ideal clifford gates and noisy ancillas, Phys. Rev. A 71,
    022316 (2005).
    [2] T. Itogawa, Y. Takada, Y. Hirano, and K. Fujii, Efficient magic state distillation by zero-level distillation, PRX Quantum
    6, 020356 (2025).
    [3] C. Gidney, N. Shutty, and C. Jones, Magic state cultivation: growing t states as cheap as cnot gates (2024), arXiv:2409.17595
    [quant-ph].
    [4] K. Sahay, P.-K. Tsai, K. Chang, Q. Su, T. B. Smith, S. Singh, and S. Puri, Fold-transversal surface code cultivation (2025),
    arXiv:2509.05212 [quant-ph].
    [5] J. Claes, Cultivating t states on the surface code with only two-qubit gates (2025), arXiv:2509.05232 [quant-ph].
    [6] G. Vidal, L. Masanes, and J. I. Cirac, Storing quantum dynamics in quantum states: A stochastic programmable gate, Phys.
    Rev. Lett. 88, 047905 (2002).

    Presenters

    • Yifan Liu

      • Harvard University

    Authors

    • Yifan Liu

      • Harvard University

    • Chen Zhao

      • QuEra Computing Inc.

    • Arthur M Jaffe

      • Harvard University

    • Liyuan Chen

      • Harvard University

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  • ORAL

    Publication: Hybrid Lattice Surgery: Non-Clifford Gates via Non-Abelian Surface Codes. arXiv:2510.20890

    Presenters

    • Yanzhu Chen

      • Florida State University

    Authors

    • Sheng-Jie Huang

      • University of Oxford
      • Mathematical Institute, University of Oxford
      • Max Planck Institute for the Physics of Complex Systems

    • Alison Warman

      • University of Oxford

    • Sakura Schafer-Nameki

      • University of Oxford

    • Yanzhu Chen

      • Florida State University

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  • ORAL

    Publication: submitted manuscript: Fault-tolerant quantum computing with the parity code and noise-biased qubits (https://doi.org/10.1103/PhysRevApplied.23.044032)

    Presenters

    • Christophe Goeller

      • Parity Quantum Computing Germany GmbH

    Authors

    • Christophe Goeller

      • Parity Quantum Computing Germany GmbH

    • Anette Messinger

      • Parity Quantum Computing GmbH

    • Konstantin Tiurev

      • Parity Quantum Computing Germany GmbH

    • Nitica Sakharwade

      • Parity Quantum Computing GmbH

    • Michael Fellner

      • ParityQC
      • Parity Quantum Computing GmbH

    • Berend Klaver

      • Parity Quantum Computing GmbH

    • Valentin Torggler

      • Parity Quantum Computing Germany GmbH

    • Wolfgang Lechner

      • ParityQC
      • University of Innsbruck

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