Shuai Chen (born Nov. 1975), is professor at Hefei National Laboratory for Physical Sciences at the Microscale, USTC. He received his BS degree from Jilin University in July 1997 and his PhD. from Peking University January 2005. He worked as a postdoc in the cold atom physics and quantum information research group of Physics Research Institute in Heidelberg University from February 2005 to January 2009. From 2009, he is professor at USTC. Prof. Shuai has published more than 20 papers, including Science (1)、Nature (1)、Nature Physics(3)、Nature Photonics (1) Physical Review Letters (6). His work was selected in 2009 China's Top 10 Science &Technology News. He is PI for Quantum Simulation with Ultra-Cold Atoms Research, which is funded by Ministry of Science and Technology of China with Fundamental Research Program. His current interests include Quantum Simulation and high precision measurement with Ultra-Cold Atoms, especially spin-orbit couplings induced artificial gauge field, synthesis of topological quantum state and portable atom interferometer.
Related Publications
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Realization of an ideal Weyl semimetal band in a quantum gas with 3D spin-orbit coupling. Science 372, 271-276 (2021).
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Ultra-low noise magnetic field for quantum gases. Review of Scientific Instruments 90, 054708 (2019).
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Ultra-low noise and high bandwidth bipolar current driver for precise magnetic field control. Review of Scientific Instruments 90, 014701 (2019).
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Observing Topological Charges and Dynamical Bulk-Surface Correspondence with Ultracold Atoms. Physical Review Letters 123, 190603 (2019).
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Ultra-low noise and high bandwidth bipolar current driver for precise magnetic field control. Review of Scientific Instruments 90, (2019).
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High-contrast transparency comb of the electromagnetically-induced-transparency memory. Physical Review A 98, 033802 (2018).
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Magnetic-enhanced modulation transfer spectroscopy and laser locking for 87 Rb repump transition. Optics Express 26, 27773 (2018).
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Precision mapping the topological bands of 2D spin-orbit coupling with microwave spin-injection spectroscopy. Science Bulletin 63, 1464-1469 (2018).
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Uncover Topology by Quantum Quench Dynamics. Physical Review Letters 121, 250403 (2018).
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Dirac-, Rashba-, and Weyl-type spin-orbit couplings: Toward experimental realization in ultracold atoms. Physical Review A 97, 011605 (2018).