Fidelity assessment and tomography of symmetrically pulsed 2Q gates in MOS quantum dots.

Tuomo I Tanttu; Wee Han Lim; Yue Y Huang; Nard Dumoulin Stuyck; William Gilbert; MengKe Feng; Jesus D Cifuentes Pardo; Amanda E Seedhouse; Christopher Escott; Kohei M Itoh; Michael Thewalt; Fay E Hudson; Andrea Morello; Arne Laucht; Henry Yang; Andre Saraiva; Andrew S Dzurak

Fidelity assessment and tomography of symmetrically pulsed 2Q gates in MOS quantum dots.

ORAL

Abstract

Qubits based on silicon are one of the most promising pathways to scalable quantum computing. Recently several groups have demonstrated two-qubit primitive gate fidelities above 99% in Si-SiGe and phosphorus donors in silicon using either interleaved randomized benchmarking or Gate Set Tomography (GST) [1-5]. In this work, we study two-qubit gate fidelities in silicon MOS double quantum dot systems using three similar devices. We use three different quantum characterization, verification, and validation (QCVV) methods; interleaved randomized benchmarking, Fast Bayesian Tomography (FBT) [6] and GST. Using tunable exchange and composite pulses we demonstrate controlled phase gate and decoupled controlled phase gate in two of the three devices and show above 99% fidelity as measured by interleaved randomized benchmarking.

[1] Nielsen et al. Quantum 5, 557 (2021).

[2] Madzik et al. Nature 601 (2022),

[3] Xue et al. Nature 601 (2022)

[4] Noiri et al. Nature 601 (2022),

[5] Mills et al. Sci. Adv. 8 (2022),

[6] T.J. Evans, et al. Phys. Rev. Applied, 17:024068, 2022

March 10, 2023, 4:18 PM – March 10, 2023, 4:30 PM

Publication: Planned paper, being written at the moment.

Presenters

Tuomo I Tanttu

1) University of New South Wales, 2) Diraq Pty. Ltd, 1) University of New South Wales 2) Diraq, 1) University of New South Wales, 2) Diraq Pty. Ltd.

Authors

Tuomo I Tanttu

1) University of New South Wales, 2) Diraq Pty. Ltd, 1) University of New South Wales 2) Diraq, 1) University of New South Wales, 2) Diraq Pty. Ltd.
Wee Han Lim

1) University of New South Wales, 2) Diraq Pty. Ltd, 1) University of New South Wales, 2) Diraq Pty. Ltd., University of New South Wales
Yue Y Huang

UNSW, 1) University of New South Wales, University of New South Wales
Nard Dumoulin Stuyck

UNSW, 1) University of New South Wales, 2) Diraq Pty. Ltd.
William Gilbert

1) University of New South Wales, 2) Diraq Pty. Ltd, 1) University of New South Wales, 2) Diraq Pty. Ltd.
MengKe Feng

University of New South Wales, 1) University of New South Wales
Jesus D Cifuentes Pardo

University of New South Wales, 1) University of New South Wales
Amanda E Seedhouse

University of New South Wales
Christopher Escott

1) University of New South Wales, 2) Diraq Pty. Ltd, 1) University of New South Wales, 2) Diraq Pty. Ltd.
Kohei M Itoh

Keio Univ
Michael Thewalt

Simon Fraser Univ
Fay E Hudson

1) University of New South Wales, 2) Diraq Pty. Ltd, 1) University of New South Wales, 2) Diraq Pty. Ltd., University of New South Wales
Andrea Morello

University of New South Wales
Arne Laucht

1) University of New South Wales, 2) Diraq Pty. Ltd, 1) University of New South Wales, 2) Diraq Pty. Ltd., University of New South Wales, University of New South Wales, Diraq Pty. Ltd.
Henry Yang

1) University of New South Wales, 2) Diraq Pty. Ltd, 1) University of New South Wales, 2) Diraq Pty. Ltd., UNSW Sydney
Andre Saraiva

1) University of New South Wales, 2) Diraq Pty. Ltd, 1) University of New South Wales, 2) Diraq Pty. Ltd., UNSW Sydney, UNSW, Diraq, University of New South Wales, Diraq Pty. Ltd.
Andrew S Dzurak

1) University of New South Wales, 2) Diraq Pty. Ltd, 1) University of New South Wales, 2) Diraq Pty. Ltd., University of New South Wales, University of New South Wales, Diraq Pty. Ltd.