Fast flux gates in inductively coupled fluxonium qubits

Helin Zhang; Srivatsan Chakram; Tanay Roy; Chunyang Ding; Brian Baker; Daniel Weiss; Ziwen Huang; Jens Koch; David I Schuster

Fast flux gates in inductively coupled fluxonium qubits

ORAL

Abstract

The heavy-fluxonium qubit is a promising building block for superconducting quantum processors due to its long relaxation and dephasing times at the flux-frustration point. However, the suppressed charge matrix elements and small splitting between computational states have made it challenging to perform fast single and two-qubit gates with conventional methods. In order to achieve high-fidelity initialization and readout, we demonstrate protocols utilizing higher levels beyond the computational subspace. We realize fast qubit control using a universal set of single-cycle flux gates, which are comprised of directly synthesizable pulses, and reach fidelities exceeding 99.8%. Finally, we discuss a set of flux-controlled two-qubit gates for inductively coupled fluxonium qubits. We believe that the fast, flux-based control combined with the coherence properties of the heavy fluxonium make this circuit one of the most promising candidates for next-generation superconducting qubits.

^*This work was supported by ARO Grant No. W911NF-15-1-0421; SUB0000079

March 15, 2021, 11:42 AM – March 15, 2021, 11:54 AM

Presenters

Helin Zhang
- University of Chicago

Authors

Helin Zhang
- University of Chicago
Srivatsan Chakram
- Department of Physics and Astronomy, Rutgers University
- Physics and Astronomy, Rutgers University
- Rutgers University
- University of Chicago
Tanay Roy
- University of Chicago
- The James Franck Institute and Department of Physics, The University of Chicago
Chunyang Ding
- University of Chicago
Brian Baker
- Physics and Astronomy, Northwestern University
- Physics, Northwestern University
Daniel Weiss
- Department of Physics and Astronomy, Northwestern University
- Physics, Northwestern University
Ziwen Huang
- Northwestern University
- Physics, Northwestern University
Jens Koch
- Physics, Northwestern University
- Northwestern University
- Department of Physics and Astronomy, Northwestern University
- Physics and Astronomy, Northwestern University
David I Schuster
- University of Chicago
- The James Franck Institute and Department of Physics, University of Chicago
- The James Franck Institute and Department of Physics, The University of Chicago