Erasure Qubits Based on Fluxonium Circuits – Part 2

Helin Zhang; Junyoung An; Max Hays; Junghyun Kim; Ilan T Rosen; David A Rower; Kate Azar; William P Banner; Gabriel Cutter; Miguel S S. Moreira; Jeffrey M Gertler; Michael Gingras; Thomas M Hazard; Bethany M Niedzielski; Mallika T Randeria; Hannah M Stickler; Mollie E Schwartz; Joel I-Jan Wang; Terry P Orlando; Simon Gustavsson; Jeffrey A Grover; Kyle Serniak; William D Oliver

Erasure Qubits Based on Fluxonium Circuits – Part 2

ORAL

Abstract

Erasure qubits can be appealing in certain quantum error correction codes, as they can significantly increase the error threshold and the code distance by converting the dominating errors in the system to detectable erasure errors. In superconducting qubit architectures, erasure qubits based on transmons and high-Q cavities have been demonstrated to have long coherence and high gate fidelities. In this presentation, we report designs of erasure qubits based on fluxonium circuits. We realize mid-circuit erasure checks without any ancilla systems, which shouldn't perturb the logical qubit subspace. We analyze the error that comes from false erasure checks and the dephasing induced by erasure checks. We demonstrate that fluxonium qubits can be useful building blocks of an erasure qubit, particularly due to their long coherence times. Part 2 will focus on early experimental data.

^*This research was sponsored by the Army Research Office Grant No. W911NF-23-1-0045; in part by the U.S. Department of Energy, Office of Science, National Quantum Information Science Research Centers, Co-design Center for Quantum Advantage (C2QA) under contract number DE-SC0012704; and in part under Air Force Contract No. FA8702-15-D-0001. J.A. acknowledges support from Korea Foundation for Advanced Studies. The views and conclusions contained herein are those of the authors and should not be interpreted as representing the official policies, either expressed or implied, of the Army Research Office or the U.S. Government.

March 19, 2025, 10:36 AM – March 19, 2025, 10:48 AM

Presenters

Helin Zhang
- Massachusetts Institute of Technology

Authors

Helin Zhang
- Massachusetts Institute of Technology
Junyoung An
- Massachusetts Institute of Technology
Max Hays
- MIT
- Massachusetts Institute of Technology (MIT)
- Massachusetts Institute of Technology
Junghyun Kim
- Massachusetts Institute of Technology
Ilan T Rosen
- Massachusetts Institute of Technology
David A Rower
- MIT
- Massachusetts Institute of Technology
Kate Azar
- MIT Lincoln Laboratory
William P Banner
- Massachusetts Institute of Technology
Gabriel Cutter
- Massachusetts Institute of Technology
Miguel S S. Moreira
- MIT
- Massachusetts Institute of Technology
Jeffrey M Gertler
- MIT Lincoln Laboratory
Michael Gingras
- MIT Lincoln Laboratory
Thomas M Hazard
- MIT Lincoln Laboratory
Bethany M Niedzielski
- MIT Lincoln Laboratory
Mallika T Randeria
- MIT Lincoln Laboratory
Hannah M Stickler
- MIT Lincoln Laboratory
Mollie E Schwartz
- MIT Lincoln Laboratory
- Lincoln Laboratory, Massachusetts Institute of Technology
Joel I-Jan Wang
- Massachusetts Institute of Technology
Terry P Orlando
- Massachusetts Institute of Technology
Simon Gustavsson
- Massachusetts Institute of Technology
Jeffrey A Grover
- Massachusetts Institute of Technology
Kyle Serniak
- MIT Lincoln Laboratory
- Lincoln Laboratory, Massachusetts Institute of Technology
William D Oliver
- Massachusetts Institute of Technology
- Massachusetts Institute of Technology (MIT)