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Vacuum-gap transmon qubits realized using flip-chip technology

Photo from academic.microsoft.com

Xuegang Li,1, ∗ Yingshan Zhang,1, ∗ Chuhong Yang,1, ∗ Zhiyuan Li,1 Junhua Wang,1 Tang Su,1 Mo Chen,1 Yongchao Li,1 Chengyao Li,1 Zhenyu Mi,1 Xuehui Liang,1 Chenlu Wang,1 Zhen Yang,1 Yulong… Click to show full abstract

Xuegang Li,1, ∗ Yingshan Zhang,1, ∗ Chuhong Yang,1, ∗ Zhiyuan Li,1 Junhua Wang,1 Tang Su,1 Mo Chen,1 Yongchao Li,1 Chengyao Li,1 Zhenyu Mi,1 Xuehui Liang,1 Chenlu Wang,1 Zhen Yang,1 Yulong Feng,1 Kehuan Linghu,1 Huikai Xu,1 Jiaxiu Han,1 Weiyang Liu,1 Peng Zhao,1 Teng Ma,1 Ruixia Wang,1 Jingning Zhang,1 Yu Song,1 Pei Liu,2 Ziting Wang,3 Zhaohua Yang,3 Guangming Xue,1, † Yirong Jin,1, ‡ and Haifeng Yu1, § 1Beijing Academy of Quantum Information Sciences, Beijing 100193, China 2State Key Laboratory of Low Dimensional Quantum Physics, Department of Physics, Tsinghua University, Beijing 100084, China 3Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190, China (Dated: June 2, 2021)

Keywords: qubits realized; vacuum gap; physics; realized using; transmon qubits; gap transmon

Journal Title: Applied Physics Letters
Year Published: 2021

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