个人简介
EDUCATIONPh.D. Physics, Hong Kong University of Science and Technology, Hong Kong, China, 2014.B.S. Physics, Beijing Normal University, Beijing, China, 2010. POSITIONSAug 2019 – present Assistant Professor, Institute of Applied Physics and Materials Engineering, University of Macau, Macao, China2016 – 2019 Research Fellow, University of Birmingham, Birmingham, UK2015 – 2016 Research Associate, Chinese University of Hong Kong, Hong Kong, China2014 – 2015 Post-doctoral Fellow, Hong Kong University of Science and Technology, Hong Kong, ChinaTEACHINGUndergraduate CoursesTo be announced Ph.D. CoursesAPME8031 Advanced Micro and Nano-systems: from Fundamentals to Applications
研究领域
Ghost imaging and single-pixel imaging Optical properties of metamaterialsElectric transport experiment on topological materials and 2D materials
近期论文
Ghost imaging & Single-pixel imaging:1.H. C. Liu*#, H. Yang#, J. Xiong*, and S. Zhang*, “Positive and negative ghost imaging”, Physical Review Applied 12, 034019 (2019).2.H. C. Liu*, and S. Zhang*, “Computational ghost imaging with thermal objects in long-wave infrared range”, Applied Physics Letters 111, 031110 (2017).3.H. C. Liu*, “High-order correlation of chaotic bosons and fermions”, Physical Review A 94, 023827 (2016).4.H. C. Liu and J. Xiong*, “The role of the degree of polarization in Nth-order thermal ghost imaging”, Journal of Physics B: At. Mol. Opt. Phys. 47, 145503 (2014).5.H. C. Liu, and J. Xiong*, “Properties of high-order ghost imaging with natural light”, Journal of the Optical Society of America A 30, 956-961 (2013). Metamaterials & Topological photonics:1.H. C. Liu*, B. Yang, Q. H. Guo, J. H. Shi, C. Y. Guan, G. X. Zheng, H. Mühlenbernd, G.X. Li, T. Zengtgraf, and S. Zhang*, “Single-pixel computational ghost imaging with helicity-dependent metasurface hologram”, Science Advances 3, e1701477 (2017).2.Q. H. Guo#, O. B. You#, B. Yang#, J. B. Sellman, E. Blythe, H. C. Liu, Y. J. Xiang, J. Li, D. Y. Fan, J. Chen*, C. T. Chan*, and S. Zhang*, “Observation of three-dimensional photonic Dirac points and spin-polarized surface arcs”, Physical Review Letters 122, 203903 (2019).3.B. Yang#, Q. H. Guo#, B. Tremain#, R. J. Liu#, L. E. Barr, W. L. Gao, H. C. Liu, Y. J. Xiang, J. Chen, C. Fang, A. Hibbins*, L. Lu*, and S. Zhang*, “Ideal Weyl points and helicoid surface states in artificial photonic crystal structures”, Science 359, 1013-1016 (2018).4.Q. H. Guo#, B. Yang#, L. B. Xia, W. L. Gao, H. C. Liu, J. Chen, Y. J. Xiang*, and S. Zhang*, “Three dimensional photonic Dirac points in metamaterials”, Physical Review Letters 119, 213901 (2017).5.B. Yang#, Q. H. Guo#, B. Tremain#, L. E. Barr, W. L. Gao, H. C. Liu, B. Beri, Y. J. Xiang, D. Y. Fan, A. Hibbins*, and S. Zhang*, Nature Communications 8, 97 (2017). Topological materials & Superconductors:1.H. C. Liu, H. Li, Q. L. He, I. K. Sou, S. K. Goh*, and J. N. Wang*, “Robust two-dimensional superconductivity and vortex system in Bi2Te3/FeTe heterostructures”, Scientific Reports 6, 26168 (2016).2.H. C. Liu, S. G. Liu, Y. Yi, H. T. He, and J. N. Wang*, “Shubnikov-de Haas oscillations in n and p type Bi2Se3 flakes”, 2D Materials 2, 045002 (2015). 3.Q. L. He#, H. C. Liu#, M. Q. He, Y. H. Lai, H. T. He, G. Wang, K. T. Law, R. Lortz, J. N. Wang, and I. K. Sou*, “Two-dimensional superconductivity at the interface of Bi2Te3/FeTe heterostructure”, Nature Communications 5, 4247 (2014).4.H. C. Liu#, H. Z. Lu#, H. T. He, B. K. Li, S. G. Liu, Q. L. He, G. Wang, I. K. Sou, S. Q. Shen*, and J. N. Wang*, “Tunable interaction-induced localization of surface electrons in antidot nanostructured Bi2Te3 thin films”, ACS Nano 8, 9616-9621 (2014).5.H. C. Liu, H. T. He, B. K. Li, S. G. Liu, Q. L. He, G. Wang, I. K. Sou, and J. N. Wang*, “Interface effect in Nb-Bi2Te3 hybrid structure”, Applied Physics Letters 103, 152601 (2013).
标签: 澳门大学 应用物理及材料工程研究院