Generation of genuine entanglement up to 51 superconducting qubits
Author:
Cao SiruiORCID, Wu Bujiao, Chen Fusheng, Gong MingORCID, Wu Yulin, Ye Yangsen, Zha Chen, Qian Haoran, Ying Chong, Guo Shaojun, Zhu Qingling, Huang He-Liang, Zhao Youwei, Li Shaowei, Wang Shiyu, Yu Jiale, Fan Daojin, Wu Dachao, Su Hong, Deng Hui, Rong Hao, Li Yuan, Zhang Kaili, Chung Tung-Hsun, Liang FutianORCID, Lin Jin, Xu Yu, Sun Lihua, Guo Cheng, Li Na, Huo Yong-HengORCID, Peng Cheng-ZhiORCID, Lu Chao-YangORCID, Yuan Xiao, Zhu XiaoboORCID, Pan Jian-WeiORCID
Publisher
Springer Science and Business Media LLC
Subject
Multidisciplinary
Reference35 articles.
1. Nielsen, M. A. & Chuang, I. L. Quantum Computation and Quantum Information (Cambridge Univ. Press, 2010). 2. Horodecki, R., Horodecki, P., Horodecki, M. & Horodecki, K. Quantum entanglement. Rev. Mod. Phys. 81, 865–942 (2009). 3. Einstein, A., Podolsky, B. & Rosen, N. Can quantum-mechanical description of physical reality be considered complete? Phys. Rev. 47, 777–780 (1935). 4. Greenberger, D. M., Horne, M. A., Shimony, A. & Zeilinger, A. Bell’s theorem without inequalities. Am. J. Phys. 58, 1131–1143 (1990). 5. Ladd, T. D. et al. Quantum computers. Nature 464, 45–53 (2010).
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