张威 - 中国人民大学

个人简介

教育经历 2001年8月至2006年12月美国佐治亚理工学院物理系博士 Georgia Institute of Technology, Ph.D. in Physics 2003年8月至2006年8月美国佐治亚理工学院数学系硕士 Georgia Institute of Technology, M.S. in Mathematics 1997年9月至2001年7月北京大学物理系学士 Peking University, B.S. in Physics 工作经历 2021年6月至今北京市量子信息科学研究院兼职研究员 Beijing Academy of Quantum Information Sciences, Adjunct Researcher 2014年8月至今中国人民大学物理系教授 Renmin University of China, Professor 2008年10月至2014年7月中国人民大学物理系副教授 Renmin University of China, Associate Professor 2006年11月至2008年10月美国密歇根大学物理系博士后 University of Michigan, Research Fellow

研究领域

超冷量子气体 Ultracold quantum gases 1. 超冷费米气体中的配对超流 Paring physics in ultracold Fermi gases 2. 杂质体系中的极化子-分子转变 Polaron to molecule transition in impurity problems 3. 新奇拓扑相 Exotic topological phases 囚禁离子 Trapped ions 1. 物理体系的量子模拟 Quantum simulation 2. 量子计算系统研发 Quantum computation

近期论文

查看导师新发文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

1. Gaussian variational method to attractive Hubbard model in one and two dimensions, Y.-R. Shi, Y.-Y. He, R. Liu, and Wei Zhang, Submitted. 2. Approaching the quantum speed limit of high-fidelity quantum sate transfer in strong-coupling systems Y. Xu, D. Zhu, F.-X. Sun, Q. Y. He, and Wei Zhang, Submitted. 3. Nonreciprocal amplification transition in a driven-dissipative quantum network M. Tian, F. Sun, K. Shi, H. Xu, Q. Y. He, and Wei Zhang, Submitted. 4. Tighter upper bounds on the critical temperature of two-dimensional superconductors and superfluids: Approaching the supremum, T. Shi, Wei Zhang, and C. A. R. Sa de Melo, Submitted. 5. High-order exceptional point in an interacting quantum system of two qubits, T. Shi, L.-D. Zhang, S.-N. Zhang, and Wei Zhang, Acta Phys. Sin. 71, 130303 (2022). 6. Experimental Test of Contextuality based on State Discrimination with a Single Qubit, Q. Zhang, C. Zhu, Y. Wang, L. Ding, T. Shi, X. Zhang, S. Zhang, and Wei Zhang, Chin. Phys. Lett. 39,080301 (2022). 7. Tuning anomalous Floquet topological bands with ultra-cold atoms, J.-Y. Zhang, C.-R. Yi, L. Zhang, R.-H. Jiao, K.-Y. Shi, H. Yuan, Wei Zhang, X.-J. Liu, S. Chen, and J.-W. Pan, Submitted. 8. Experimentally ruling out joint reality based on operational completeness, Q. Zhang, Y. Xiang, X. Gao, C. Zhu, Y. Wang, L. Ding, X. Zhang, S. Zhang, S. Cheng, M. J. W. Hall, Q.-Y. He, and Wei Zhang, Submitted. 9. Topological invariants of Floquet topological phases under periodical driving, K.-Y. Shi, R.-Q. Chen, S. Zhang, and Wei Zhang, Phys. Rev. A 106, 053301 (2022). 10. Crossovers and quantum phase transitions in two-band superfluids: The evolution from BCS to Bose pairing by tuning interactions and band offset, Y.-R. Shi, Wei Zhang, and C. A. R. Sa de Melo, Europhys. Lett. 139, 36004 (2022). 11. Density induced BCS-Bose evolution in gated two-dimensional superconductors: The Berezinskii-Kosterlitz-Thouless transition as a function of carrier density,T. Shi, Wei Zhang, and C. A. R. Sa de Melo, Europhys. Lett. 139, 36003 (2022). 12. Non-universal Fermi polaron in quasi two-dimensional quantum gases Y.-R. Shi, J.-G. Chen, K.-Y. Gao, and Wei Zhang, Chin. Phys. B. 31,080305 (2022). 13. Information retrieval and eigenstates coalescence in a non-Hermitian quantum system with anti-PT symmetry, L. Ding, K. Shi, Y. Wang, Q. Zhang, C. Zhu, L. Zhang, J. Yi, S. Zhang, X. Zhang, and Wei Zhang, Phys. Rev. A 105, L010204 (2022). 2021 1. Spontaneous formations of dynamical steady states in polariton condensates, Z.-X Niu and Wei Zhang, Front. in Phys. 9, 696278 (2021). 2. Nature of the polaron-molecule transition in the Fermi polaron problem, C. Peng, R. Liu, Wei Zhang, and X. Cui, Phys. Rev. A 103, 063312 (2021). 3. Embracing the era of quantum technology: The status quo and prospect of quantum computing, Wei Zhang, Acad. Front. 215, 64 (2021). 4. Fermi polaron in dissipative bath with spin-orbit coupling, J. Zhou and Wei Zhang, Europhys. Lett. 134, 30004 (2021). 5. Fulde-Ferrell-Larkin-Ovchinnikov states in equally populated Fermi gases in a two-dimensional moving optical lattice, J.-G. Chen, Y.-R. Shi, R. Zhang, K.-Y. Gao, and Wei Zhang, Chin. Phys. B 30, 100305 (2021). 6. Precision measurement with trapped ions, L.-Y. Ding, Q.-X. Zhang, C.-H. Zhu, Y.-X. Wang, X. Zhang, and Wei Zhang, Sci. Sin. Phys. Mech. Astron. 51, 074206 (2021). 7. Experimental determination of PT-symmetric exceptional points in a single trapped ion, L-Y. Ding, K.-Y. Shi, Q.-X. Zhang, D.-N. Shen, X. Zhang, and Wei Zhang, Phys. Rev. Lett. 126, 083604 (2021). 2020 1. Universal and Efimov trimers in alkaline-earth and alkali mixture gas with spin-orbit coupling, Q. Ji, R. Zhang, and Wei Zhang, Phys. Rev. A 102, 063313 (2020). 2. Precision measurements with cold atoms and trapped ions, Q. Zhang, Y. Wang, C. Zhu, Y. Wang, X. Zhang, K. Gao, and Wei Zhang, Chin. Phys. B 29, 093203 (2020). 3. Towards quantum simulation of Sachdev-Ye-Kitaev model, Y. Cao, Y.-N. Zhou, T.-T. Shi, and Wei Zhang, Sci. Bull. 65, 1170 (2020). 4. Bose-Einstein condensates in an eightfold symmetric optical lattice, Z.-X. Niu, Y.-H. Tai, J.-S. Shi, and Wei Zhang, Chin. Phys. B 29, 056103 (2020). 5. High-performance frequency stabilization of ultraviolet diode lasers by using dichroic atomic vapor spectroscopy and transfer cavity, D. Shen, L. Ding, Q. Zhang, C. Zhu, Y. Wang, Wei Zhang, and X. Zhang, Chin. Phys. B 29, 074210 (2020). 6. Non-Gaussian variational approach to Fermi polarons in one- and two-dimensional lattices, R. Liu, Y.-R. Shi, and Wei Zhang, Phys. Rev. A 102, 033305 (2020). 7. Many-body localization in generalized Kondo lattice with disorder, Y. Cao and Wei Zhang, Europhys. Lett. 129, 20001 (2020). 8. Some recent progresses on the study of ultracold quantum gases with spin-orbit coupling, T.-T. Shi, L.-J. Wang, J.-K. Wang, and Wei Zhang, Acta Phys. Sin. 69, 016701 (2020).