6 Papers
72 Citations
Sirui Cao is an academic researcher from University of Science and Technology of China. The author has contributed to research in topics: Qubit & Quantum computer. The author has an hindex of 3, co-authored 6 publications.
Chat about Author
Papers
Strong Quantum Computational Advantage Using a Superconducting Quantum Processor.
Yulin Wu,Wan-Su Bao,Sirui Cao,Fusheng Chen,Ming-Cheng Chen,X. H. Chen,Tung-Hsun Chung,Hui Deng,Yajie Du,Daojin Fan,Ming Gong,Cheng Guo,Chu Guo,Shaojun Guo,L. Han,Linyin Hong,He-Liang Huang,Yongheng Huo,Liping Li,Na Li,Shaowei Li,Yuan Li,Futian Liang,Chun Lin,Jin Lin,Haoran Qian,Dan Qiao,Hao Rong,Hong Su,Lihua Sun,Liangyuan Wang,Shiyu Wang,Dachao Wu,Yu Xu,Kai Yan,Weifeng Yang,Yang Yang,Yangsen Ye,Jianghan Yin,Chong Ying,Jiale Yu,Chen Zha,Cha Zhang,Haibin Zhang,Kaili Zhang,Yiming Zhang,H. L. Zhao,Youwei Zhao,Liang Zhou,Qingling Zhu,Chao-Yang Lu,Cheng-Zhi Peng,Xiaobo Zhu,Jian-Wei Pan +53 more
TL;DR: Zuchongzhi as mentioned in this paper is a two-dimensional programmable superconducting quantum processor, which is composed of 66 functional qubits in a tunable coupling architecture, and performs random quantum circuits sampling for benchmarking.
846
Quantum computational advantage via 60-qubit 24-cycle random circuit sampling
Qingling Zhu,Sirui Cao,Fusheng Chen,Ming-Cheng Chen,X. H. Chen,Tung-Hsun Chung,Hui Deng,Yajie Du,Daojin Fan,Ming Gong,Cheng Guo,Chu Guo,Shaojun Guo,L. Han,Linyin Hong,He-Liang Huang,Yongheng Huo,Liping Li,Na Li,Shaowei Li,Yuan Li,Futian Liang,Chun Lin,Jin Lin,Haoran Qian,Dan Qiao,Hao Rong,Hong Su,Lihua Sun,Liangyuan Wang,Shiyu Wang,Dachao Wu,Yulin Wu,Yu Xu,Kai Yan,Weifeng Yang,Yang Yang,Yangsen Ye,Jianghan Yin,Chong Ying,Jiale Yu,Chen Zha,Cha Zhang,Haibin Zhang,Kaili Zhang,Yiming Zhang,H. L. Zhao,Youwei Zhao,Liang Zhou,Chao-Yang Lu,Cheng-Zhi Peng,Xiaobo Zhu,Jian-Wei Pan +52 more
TL;DR: Zuchongzhi 2.1 as mentioned in this paper has 66 qubits in a two-dimensional array in a tunable coupler architecture, and the readout fidelity is improved to an average of 97.74%.
72
Realization of High-Fidelity Controlled-Phase Gates in Extensible Superconducting Qubits Design with a Tunable Coupler
Yangsen Ye,Sirui Cao,Yulin Wu,X. H. Chen,Qingling Zhu,Shaowei Li,Fusheng Chen,Ming Gong,Chen Zha,He-Liang Huang,Youwei Zhao,Shiyu Wang,Shaojun Guo,Haoran Qian,Futian Liang,Jin Lin,Yu Xu,Cheng Guo,Lihua Sun,Na Li,Hui Deng,Xiaobo Zhu,and Jian-Wei Pan +22 more
22
Quantum walks on a programmable two-dimensional 62-qubit superconducting processor
Ming Gong,Shiyu Wang,Chen Zha,Ming-Cheng Chen,He-Liang Huang,Yulin Wu,Qingling Zhu,Youwei Zhao,Shaowei Li,Shaojun Guo,Haoran Qian,Yangsen Ye,Fusheng Chen,Chong Ying,Jiale Yu,Daojin Fan,Dachao Wu,Hong Su,Hui Deng,Hao Rong,Kaili Zhang,Sirui Cao,Jin Lin,Yu Xu,Lihua Sun,Cheng Guo,Na Li,Futian Liang,Victor M. Bastidas,Kae Nemoto,William J. Munro,William J. Munro,Yongheng Huo,Chao-Yang Lu,Cheng-Zhi Peng,Xiaobo Zhu,Jian-Wei Pan +36 more
TL;DR: In this article, an 8x8 two-dimensional square superconducting qubit array composed of 62 functional qubits was designed and fabricated to demonstrate single and two particle quantum walks and implemented a Mach-Zehnder interferometer where the quantum walker coherently traverses in two paths before interfering and exiting.
17
•Posted Content
Quantum Computational Advantage via 60-Qubit 24-Cycle Random Circuit Sampling
Qingling Zhu,Sirui Cao,Fusheng Chen,Ming-Cheng Chen,X. H. Chen,Tung-Hsun Chung,Hui Deng,Yajie Du,Daojin Fan,Ming Gong,Cheng Guo,Chu Guo,Shaojun Guo,L. Han,Linyin Hong,He-Liang Huang,Yongheng Huo,Liping Li,Na Li,Shaowei Li,Yuan Li,Futian Liang,Chun Lin,Jin Lin,Haoran Qian,Dan Qiao,Hao Rong,Hong Su,Lihua Sun,Liangyuan Wang,Shiyu Wang,Dachao Wu,Yulin Wu,Yu Xu,Kai Yan,Weifeng Yang,Yang Yang,Yangsen Ye,Jianghan Yin,Chong Ying,Jiale Yu,Chen Zha,Cha Zhang,Haibin Zhang,Kaili Zhang,Yiming Zhang,H. L. Zhao,Youwei Zhao,Liang Zhou,Chao-Yang Lu,Cheng-Zhi Peng,Xiaobo Zhu,Jian-Wei Pan +52 more
TL;DR: Zuchongzhi et al. as discussed by the authors demonstrated a superconducting quantum computing system, which has 66 qubits in a two-dimensional array in a tunable coupler architecture.
4