Improvement strategies for multiplexed readout of superconducting qubits with fidelity beyond 99%

ORAL

Abstract

We present our recent results on improving single-shot readout fidelity of superconducting qubits utilizing various techniques. We take advantage of higher energy levels of the qubits to circumvent the coherence limit, apply additional readout tones to extract more information and employ machine learning algorithms to improve classification success probabilities. With these mitigation strategies, we boost our readout fidelity for a multi-qubit system beyond 99%.

*We acknowledge support from the Knut and Alice Wallenberg Foundation through the Wallenberg Center for Quantum Technology (WACQT).

Presenters

  • Liangyu Chen

    • Chalmers University of Technology
    • Chalmers Univ of Tech

Authors

  • Liangyu Chen

    • Chalmers University of Technology
    • Chalmers Univ of Tech

  • Hangxi Li

    • Chalmers University of Technology

  • Yong Lu

    • Chalmers Univ of Tech

  • Shahnawaz Ahmed

    • Chalmers Univ of Tech

  • Janka Biznarova

    • Chalmers Univ of Tech
    • Chalmers University of Technology

  • Anton Frisk Kockum

    • Chalmers University of Technology
    • Chalmers Univ of Tech

  • Christian Krizan

    • Chalmers University of Technology

  • Sandoko Kosen

    • Chalmers Univ of Tech
    • Chalmers University of Technology

  • Amr Osman

    • Chalmers Univ of Tech
    • Chalmers University of Technology

  • Anita F Fadavi Roudsari

    • Chalmers University of Technology
    • Chalmers Univ of Tech

  • Marcus Rommel

    • Chalmers University of Technology
    • Chalmers Univ of Tech

  • Christopher Warren

    • Chalmers University of Technology

  • Sandoko Kosen

    • Chalmers Univ of Tech
    • Chalmers University of Technology

  • Jonas Bylander

    • Chalmers Univ of Tech
    • Chalmers University of Technology

  • Giovanna Tancredi

    • Chalmers Univ of Tech
    • Chalmers University of Technology