Suppressing logical errors on an encoded subspace using logical dynamical decoupling. Part II: Experiment

Arian Vezvaee; Mario Morford-Oberst; Vinay Tripathi; Victor Kasatkin; Daniel A Lidar

Suppressing logical errors on an encoded subspace using logical dynamical decoupling. Part II: Experiment

ORAL

Abstract

Logical dynamical decoupling (LDD), i.e., utilizing the logical operators of quantum error correction codes as dynamical decoupling pulses, is shown to enhance the robustness of the encoded subspace beyond the limit set by the code's distance. In this talk, using the IBM cloud quantum processors, we experimentally demonstrate the implementation of LDD on an encoded subspace and show that they can simultaneously suppress the logical and physical errors, thus significantly enhancing the fidelity of the encoded logical states.

^*This research was supported by the Army Research Office MURI grant W911NF-22-S-0007 and by the Office of the Director of National Intelligence (ODNI), Intelligence Advanced Research Projects Activity (IARPA) and the Army Research Office, under the Entangled Logical Qubits program through Cooperative Agreement Number W911NF-23-2-0216. This research was conducted using IBM Quantum Systems provided through USC's IBM Quantum Innovation Center.

March 20, 2025, 11:42 AM – March 20, 2025, 11:54 AM

Presenters

Arian Vezvaee
- University of Southern California

Authors

Arian Vezvaee
- University of Southern California
Mario Morford-Oberst
- University of Southern California
Vinay Tripathi
- Univ of Southern California
Victor Kasatkin
- University of Southern California
Daniel A Lidar
- University of Southern California