Towards High-Fidelity Gates in the Soft Zero-Pi Qubit

Anjali Premkumar; Andras Gyenis; Pranav S Mundada; Sara F Sussman; Xanthe Croot; Ziwen Huang; Jens Koch; Andrew A Houck

Towards High-Fidelity Gates in the Soft Zero-Pi Qubit

ORAL

Abstract

The soft zero-pi circuit [1, 2, 3] has shown experimental evidence of protection against relaxation and dephasing, making it a promising candidate for high-fidelity quantum processing. However, in the most recent realization, the small hybridization gap and weak drive coupling limited flux-noise insensitivity and gate speed. Here, we show recent advances in pushing the soft zero-pi further into its protected regime, especially through increasing the ratio of the charging energies for the two participating modes. Further, we discuss efforts to improve gate speed and characterize fidelity of the multi-level system through randomized benchmarking.

[1] A. Kitaev. arXiv:cond-mat/0609441 (2006).

[2] P. Brooks, A. Kitaev, J. Preskill. Phys. Rev. A 87, 052306 (2013).

[3] A. Gyenis, P. Mundada, A. Di Paolo et. al. PRX Quantum 2, 010339 (2021).

March 15, 2022, 5:12 PM – March 15, 2022, 5:24 PM

Presenters

Anjali Premkumar

Princeton University

Authors

Anjali Premkumar

Princeton University
Andras Gyenis

Department of Electrical, Computer & Energy Engineering, University of Colorado Boulder, CO 80309, USA, University of Colorado Boulder
Pranav S Mundada

Q-CTRL, Princeton University
Sara F Sussman

Princeton University
Xanthe Croot

Princeton University
Ziwen Huang

Fermilab, Northwestern University
Jens Koch

Northwestern University
Andrew A Houck

Princeton University