中文

SiMOS quantum-dot spin qubits enabled by extreme-ultraviolet lithography

介观与纳米尺度物理 2026-07-14 v1 量子物理

摘要

The realization of large-scale silicon quantum processors requires spin qubits compatible with advanced semiconductor manufacturing technologies, demanding lithographic processes that combine nanometer-scale precision with exceptional uniformity. Although the highest-performing silicon spin qubits demonstrated to date have relied on electron-beam (e-beam) lithography, its serial exposure process limits reproducibility studies and wafer-scale fabrication. Here, we demonstrate high-performance silicon metal-oxide-semiconductor (SiMOS) spin qubits fabricated using extreme-ultraviolet (EUV) lithography in a 300 mm semiconductor pilot line. We report wafer-scale quantum-dot uniformity metrics, including 100 % room-temperature gate-to-gate leakage yield and sub-nanometer control of critical gate dimensions. We characterize four double-dot systems realized in two triple-quantum-dot devices. Gate set tomography (GST) reveals consistently high fidelities across all four systems, with values up to 99.8 % for SPAM, 99.9 % for single-qubit gates, and 99.1 % for two-qubit gates. The devices exhibit highly reproducible exchange turn-on characteristics of 10-13 dec/V, indicating high fabrication uniformity enabled by EUV patterning. These results establish EUV lithography as a viable manufacturing technology for quantum processors based on high-fidelity SiMOS spin qubits.

引用

@article{arxiv.2607.13121,
  title  = {SiMOS quantum-dot spin qubits enabled by extreme-ultraviolet lithography},
  author = {Thomas Van Caekenberghe and Paul Steinacker and Bart Raes and Sofie Beyne and Clement Godfrin and Jacques Van Damme and Sylvain Baudot and Arne Loenders and Gulzat Jaliel and Stefan Kubicek and Johan De Backer and Yannick Hermans and Sugandha Sharma and Shuchi Kaushik and Yuchao Jiang and Yosuke Shimura and Roger Loo and Vukan Levajac and Kristof Moors and George Simion and Florian K. Unseld and Ensar Vahapoglu and Ajit Dash and Tuomo Tanttu and Chris C. Escott and Chih Hwan Yang and Andre Saraiva and Arne Laucht and Wee Han Lim and Nard Dumoulin Stuyck and Massimo Mongillo and Danny Wan and Andrew S. Dzurak and Kristiaan De Greve},
  journal= {arXiv preprint arXiv:2607.13121},
  year   = {2026}
}

备注

11 pages, 4 figures, 3 extended data figures