Dr. Xing-Can Yao was born in Chong Qing, November 1983. He obtained the bachelor's and doctor's degree in 2006 and 2012, respectively, both in University of Science and Technology of China. He is now a professor of USTC . He is devoted to the experimental study of the fundamental quantum physics and quantum information processing with ultracold atoms and photons. He has achieved several experimental breakthroughs, including the realization of eight photon entanglement, demonstrating of topological quantum error correction, observation of coupled vortex lattices in a Bose and Fermi double superfluid, and etc. Both of these experiments have been actively discussed in many scientific meetings and reported in many scientific media such as Nature, Nature Physics, Physics world, technology review. Until now, he has published many papers on the high-profile journals, including 1 Nature, 3 Nature Photonics, 1 Nature Physics, 4 Physical Review Letters, and etc. His research work have been selected twice as the "China's top ten science and technology news" and "China's top ten scientific progress". His PhD thesis was awarded as "100 outstanding doctoral theses of Chinese Academy of Science".
Related Publications
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Experimental nested purification for a linear optical quantum repeater. Nature Photonics 11, 695-699 (2017).
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Two-Hierarchy Entanglement Swapping for a Linear Optical Quantum Repeater. Physical Review Letters 119, 1-6 (2017).
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Observation of Coupled Vortex Lattices in a Mass-Imbalance Bose and Fermi Superfluid Mixture. Physical Review Letters 117, 145301 (2016).
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Production of large 41K Bose-Einstein condensates using D1 gray molasses. Physical Review A 94, 033408 (2016).
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Narrow-linewidth cooling of Li atoms using the 2S-3P transition. Applied Physics B 122, 281 (2016).
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Implementation of a Measurement-Device-Independent Entanglement Witness. Physical Review Letters 112, 140506 (2014).
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Experimental realization of a concatenated Greenberger-Horne-Zeilinger state for macroscopic quantum superpositions. Nature Photonics 8, 364-368 (2014).
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Experimental demonstration of topological error correction. Nature 482, 489-494 (2012).
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Observation of eight-photon entanglement. Nature Photonics 6, 225-228 (2012).
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Experimental measurement-based quantum computing beyond the cluster-state model. Nature Photonics 5, 117 (2011).