个人简介
2009-2019在同济大学获学士学位和博士学位,随后在香港浸会大学和新加坡国立大学从事博士后研究工作至2023年2月,于2023年4月加入中国海洋大学物理与光电工程学院。研究方向为拓扑声学、拓扑光学、非厄米物理、周期驱动拓扑物理。目前在顶级杂志Nature Communications, Physical Review X、 Physical Review Letters、 Physical Review B等上发表论文20篇。
2019-10至2023-01,新加坡国立大学,博士后研究员;2009-09至2013-07,香港浸会大学,博士后
近期论文
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1. Weiwei Zhu, Weiyin Deng, Yang Liu, Jiuyang Lu, Zhi-Kang Lin, Hai-Xiao Wang, Xueqin Huang, Jian-Hua Jiang* and Zhengyou Liu*, "Topological phononic metamaterials", arXiv: 2302. 01426 (2023). ,
2. Weiwei Zhu and Jiangbin Gong*, “Photonic corner skin modes”, arXiv: 2301.12694 (2023) ,
3. Zheyu Cheng, Raditya Weda Bomantara, Haoran Xue, Weiwei Zhu, Jiangbin Gong*, and Baile Zhang*, “Observation of pi/2 modes in an acoustic Floquet system", Physical Review Letters 129, 254301 (2022). ,
4. Weiwei Zhu*, Jiangbin Gong*, and Raditya Weda Bomantara*, “Topological pi mode and beyond”, Science Bulletin 67, 2145 (2022). ,
5. He Gao, Haoran Xue*, Zhongming Gu, Linhu Li, Weiwei Zhu, Zhongqing Su, Jie Zhu*, Baile Zhang*, and Yidong Chong*, “Anomalous Floquet non-Hermitian skin effect in a ring resonator lattice”, Physical Review B 106, 134112 (2022). ,
6. Weiwei Zhu* and Jiangbin Gong*, “Hybrid skin-topological modes without asymmetric couplings”, Physical Review B 106, 035425 (2022). ,
7. Wei-Xin Teo, Weiwei Zhu* and Jiangbin Gong*, “Tunable two-dimensional laser arrays with zero-phase locking”, Physical Review B 105, L201402 (2022). ,
8. Weiwei Zhu, Haoran Xue, Jiangbin Gong*, Yidong Chong*, and Baile Zhang*, “Time-periodic corner states from Floquet higher-order topology”, Nature Communications 13, 11 (2022). ,
9. Linhu Li, Weiwei Zhu, and Jiangbin Gong*, “Direct dynamical characterization of higher-order topological phases with nested band inversion surfaces”, Science Bulletin 66, 1502 (2021). ,
10. Weiwei Zhu, Muhammad Umer, and Jiangbin Gong*, “Floquet higher-order Weyl and nexus semimetals”, Physical Review Research 3, L032026 (2021). ,
11. Weiwei Zhu, Yidong Chong*, and Jiangbin Gong*, “Symmetry analysis of anomalous Floquet topological phases”, Physical Review B 104, L020302 (2021). ,
12. Weiwei Zhu, Wei-Xin Teo, Linhu Li*, and Jiangbin Gong*, “Delocalization of topological edge states”, Physical Review B 103, 195414 (2021). ,
13. Zeguo Chen, Weiwei Zhu, Yang Tan, Licheng Wang, and Guancong Ma*, “Acoustic realization of a four-dimensional higher-order Chern insulator and boundary-modes engineering”, Physical Review X 11, 011016 (2021). ,
14. Weiwei Zhu, Yidong Chong*, and Jiangbin Gong*, “Floquet higher-order topological insulator in a periodically driven bipartite lattice”, Physical Review B 103, L041402 (2021). ,
15. Jun Jiang, Jie Ren*, Zhiwei Guo*, Weiwei Zhu, Yang Long, Haitao Jiang, and Hong Chen*, “Seeing topological winding number and band inversion in photonic dimer chain of split-ring resonators”, Physical Review B 101, 165427 (2020). ,
16. Weiwei Zhu and Guancong Ma*, “Distinguishing topological corner modes in higher-order topological insulators of finite size”, Physical Review B 101, 161301R (2020). ,
17. Weiwei Zhu, Yang Long, Hong Chen, and Jie Ren*, “Quantum valley Hall effects and spin-valley locking in topological Kane-Mele circuit networks”, Physical Review B 99, 115410 (2019). ,
18. Yuan Li, Yong Sun, Weiwei Zhu et. al,“Topological LC-circuits based on microstrips and observation of electromagnetic modes with orbital angular momentum”, Nature Communications 9, 4598 (2018). ,
19. Weiwei Zhu, Xinsheng Fang, Dongting Li, Yong Sun, Yong Li*, Yun Jing*, and Hong Chen*, “Simultaneous observation of a topological edge state and exceptional point in an open and non-Hermitian acoustic system”, Physical Review Letters 121, 124501 (2018). ,
20. Weiwei Zhu, Ya-qiong Ding, Jie Ren, Yong Sun*, Yunhui Li, Haitao Jiang, and Hong Chen*, “Zak phase and band inversion in dimerized one-dimensional locally resonant metamaterials”, Physical Review B 97, 195307 (2018). ,
21. Weiwei Zhu, Gaomin Wu, Hong Chen, and Jie Ren*, “Nonlinear heat radiation induces thermal rectifier in asymmetric holey composites”, Frontiers in Energy Research 6, 9 (2018). ,
22. Weiwei Zhu, Shanshan Hou, Yang Long, Hong Chen, and Jie Ren*, “Simulating quantum spin Hall effect in the topological Lieb lattice of a linear circuit network”, Physical Review B 97, 075310 (2018). ,
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