Implementation of a multi-mode qubit in coaxial circuit QED: Part 1

ORAL

Abstract

Alternative qubit design is an active field of research in superconducting quantum systems. In particular, multi-mode quantum circuits can allow error-protected subspaces, nonlinear coupling for multi-qubit operations, and additional mechanisms for state readout or control. In this talk we introduce a simple multi-mode coaxial transmon qubit - a two-mode qubit with a dipole-like differential mode and a coaxial common mode. We discuss the qubit Hamiltonian, analyze its sensitivity to fabrication imperfections, and discuss the effects of quasi-particle tunnelling in this system. Finally, we consider extensions of the design to multi-qubit settings.

*This work was supported by the EPSRC, Oxford Quantum Circuits Ltd, and from the European Union’s Horizon 2020 research and innovation programme under grant agreement MSCA-IF-EF-ST 832814.

Presenters

  • Sophia Sosnina

    • University of Oxford

Authors

  • Sophia Sosnina

    • University of Oxford

  • James Wills

    • University of Oxford

  • Simone D Fasciati

    • University of Oxford

  • Salha Jebari

    • University of Oxford

  • Giulio Campanaro

    • University of Oxford

  • Shuxiang Cao

    • University of Oxford

  • Peter Spring

    • University of Oxford

  • Takahiro Tsunoda

    • University of Oxford

  • Ian Yang

    • University of Oxford

  • Peter J Leek

    • University of Oxford

  • Brian Vlastakis

    • University of Oxford