Logical operations with a dynamical qubit in Floquet-Bacon-Shor code
Abstract
Quantum error correction (QEC) protects quantum systems against inevitable noises and control inaccuracies, providing a pathway towards fault-tolerant (FT) quantum computation. Stabilizer codes, including surface code and color code, have long been the focus of research and have seen significant experimental progress in recent years. Recently proposed time-dynamical QEC, including Floquet codes and generalized time-dynamical code implementations, opens up new opportunities for FT quantum computation. By employing a periodic schedule of low-weight parity checks, Floquet codes can generate additional dynamical logical qubits, offering enhanced error correction capabilities and potentially higher code performance. Here, we experimentally implement the Floquet-Bacon-Shor code on a superconducting quantum processor. We encode a dynamical logical qubit within a lattice of data qubits, alongside a conventional static logical qubit. We demonstrate FT encoding and measurement of the two-qubit logical states, and stabilize these states using repeated error detection. We showcase universal single-qubit logical gates on the dynamical qubit. Furthermore, by implementing a logical CNOT gate, we entangle the dynamical and static logical qubits, generating an error-detected logical Bell state with a fidelity of 75.9\%. Our results highlight the potential of Floquet codes for resource-efficient FT quantum computation.
Cite
@article{arxiv.2503.03867,
title = {Logical operations with a dynamical qubit in Floquet-Bacon-Shor code},
author = {Xuandong Sun and Longcheng Li and Zhiyi Wu and Zechen Guo and Peisheng Huang and Wenhui Huang and Qixian Li and Yongqi Liang and Yiting Liu and Daxiong Sun and Zilin Wang and Changrong Xie and Yuzhe Xiong and Xiaohan Yang and Jiajian Zhang and Jiawei Zhang and Libo Zhang and Zihao Zhang and Weijie Guo and Ji Jiang and Song Liu and Xiayu Linpeng and Jingjing Niu and Jiawei Qiu and Wenhui Ren and Ziyu Tao and Yuefeng Yuan and Yuxuan Zhou and Ji Chu and Youpeng Zhong and Xiaoming Sun and Dapeng Yu},
journal= {arXiv preprint arXiv:2503.03867},
year = {2025}
}
Comments
33 pages,17 figures