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Scaffold-Assisted Window Junctions for Superconducting Qubit Fabrication

Applied Physics 2025-03-17 v1 Quantum Physics

Abstract

The superconducting qubit is one of the promising directions in realizing fault-tolerant quantum computing (FTQC), which requires many high-quality qubits. To achieve this, it is desirable to leverage modern semiconductor industry technology to ensure quality, uniformity, and reproducibility. However, conventional Josephson junction fabrication relies mainly on resist-assistant double-angle evaporation, posing integration challenges. Here, we demonstrate a lift-off-free qubit fabrication that integrates seamlessly with existing industrial technologies. This method employs a silicon oxide (SiO2_2) scaffold to define an etched window with a well-controlled size to form a Josephson junction. The SiO2_2, which has a large dielectric loss, is etched away in the final step using vapor HF leaving little residue. This Window junction (WJ) process mitigates the degradation of qubit quality during fabrication and allows clean removal of the scaffold. The WJ process is validated by inspection and Josephson junction measurement. The scaffold removal process is verified by measuring the quality factor of the resonators. Furthermore, compared to scaffolds fabricated by plasma-enhanced chemical vapor deposition (PECVD), qubits made by WJ through physical vapor deposition (PVD) achieve relaxation time up to 57μs57\,\mu\text{s}. Our results pave the way for a lift-off-free qubit fabrication process, designed to be compatible with modern foundry tools and capable of minimizing damage to the substrate and material surfaces.

Keywords

Cite

@article{arxiv.2503.11010,
  title  = {Scaffold-Assisted Window Junctions for Superconducting Qubit Fabrication},
  author = {Chung-Ting Ke and Jun-Yi Tsai and Yen-Chun Chen and Zhen-Wei Xu and Elam Blackwell and Matthew A. Snyder and Spencer Weeden and Peng-Sheng Chen and Chih-Ming Lai and Shyh-Shyuan Sheu and Zihao Yang and Cen-Shawn Wu and Alan Ho and R. McDermott and John Martinis and Chii-Dong Chen},
  journal= {arXiv preprint arXiv:2503.11010},
  year   = {2025}
}
R2 v1 2026-06-28T22:20:01.509Z