English

High-contrast ZZ interaction using superconducting qubits with opposite-sign anharmonicity

Quantum Physics 2024-09-12 v5

Abstract

For building a scalable quantum processor with superconducting qubits, ZZ interaction is of great concern because its residual has a crucial impact to two-qubit gate fidelity. Two-qubit gates with fidelity meeting the criterion of fault-tolerant quantum computationhave been demonstrated using ZZ interaction. However, as the performance of quantum processors improves, the residual static-ZZ can become a performance-limiting factor for quantum gate operation and quantum error correction. Here, we introduce a superconducting architecture using qubits with opposite-sign anharmonicity, a transmon qubit and a C-shunt flux qubit, to address this issue. We theoretically demonstrate that by coupling the two types of qubits, the high-contrast ZZ interaction can be realized. Thus, we can control the interaction with a high on/off ratio to implement two-qubit CZ gates, or suppress it during two-qubit gate operation using XY interaction (e.g., an iSWAP gate). The proposed architecture can also be scaled up to multi-qubit cases. In a fixed coupled system, ZZ crosstalk related to neighboring spectator qubits could also be heavily suppressed.

Keywords

Cite

@article{arxiv.2002.07560,
  title  = {High-contrast ZZ interaction using superconducting qubits with opposite-sign anharmonicity},
  author = {Peng Zhao and Peng Xu and Dong Lan and Ji Chu and Xinsheng Tan and Haifeng Yu and Yang Yu},
  journal= {arXiv preprint arXiv:2002.07560},
  year   = {2024}
}
R2 v1 2026-06-23T13:45:18.612Z