吴迎，南京理工大学副教授、硕导。2018年获哈尔滨工业大学力学博士学位，导师于开平教授；博后在华南理工大学物理学院，合作导师李锋教授和刘正猷教授。长期从事振动主、被动控制和弹性波超材料方面的理论和实验研究，在弹性波拓扑超材料、片上高阶拓扑角态和声波拓扑螺旋缺陷态等方面取得了系列原创性成果，先后在Nature Materials，National Science Review、Physically Review Letters和Science Bulletin等期刊发表SCI论文35篇，被引910余次，H指数18。主持国家自然科学基金青年项目、中央高校基本科研业务费专项基金和博士后面上项目等。学术主页：https://scholar.google.com/citations?user=RGI1z-sAAAAJ&hl=en

海外经历：

2016.11 – 2017.11 华盛顿大学（西雅图）

人才培养：

已经协助培养2名本科生，2名硕士生，1名博士生

教育经历：

（1）2014.09 - 2018.07，哈尔滨工业大学，力学，博士
（2）2012.09 - 2014.07，哈尔滨工业大学，力学，硕士

（3）2008.09 - 2012.07， 中国矿业大学，力学，本科

工作经历：

2019.01 - 2022.04，华南理工大学，物理与光电学院博士后

招生信息：

课题组经费充足，每年拟招收1~2名硕士研究生，热忱欢迎具有力学专业背景，并对动力学与振动控制、声波/弹性波/力学超材料、拓扑绝缘体、微光机电系统感兴趣的同学与我联系。

《航空航天概论》

《振动理论》

《理论力学》——中、英文版

1. 拓扑弹性/声学超构材料
我们基于量子霍尔效应、量子自旋霍尔效应和量子谷霍尔效应的概念来研究一阶和高阶弹性/声学超构材料。 此外，超构材料中的拓扑缺陷，包括螺旋位错和向位错也属于我们的研究兴趣。

2. 弹性超构材料的热效应
超材料作为一种人为的周期结构，由于其间隙特性，可用于吸声和振动控制。这里我们主要研究热应力对超材料带隙特性的非线性影响， 涉及的研究内容包括结构的建模、激光测振以及热-结构耦合效应。

3. 动力学建模与振动控制
在轨的光学卫星需要抑制各种干扰。我们主要利用并联结构实现对卫星微振动的主动控制以满足低频率的振动控制，涉及控制器的动力学建模、控制算法设计和振动控制实验等方面。 

1. 科研项目：

[1]    国家自然科学基金委员会，青年科学基金项目，NO. 12302112，2024.01-2026.12，在研，30万，主持

[2]    中央高校基本科研业务费专项，青年人才培育专项（自然科学B类），NO. 30923010207, 2023.08-2026.08, 在研，20万，主持

[3]    广州市基础和应用基础研究项目，NO.202102020349， “二维拓扑材料的缺陷性质研究” ，2021.04-2023.04，5万元，结题，主持

[4]    中国博士后科学基金会，面上项目，NO. 2019M653172， 2020-01 至 2022-03，8万元，结题，主持

2. 代表性论文

1）在投文章

[1]    Ying Wu, et al., Fragile dislocation

[2]    Ying Wu, et al., Wormhole dislocation

[3]    Ying Wu, et al., C2 corner states and fractal topology

[4]    Ying Wu, et al., Non-Hermitian EP3 Evolution

[5]    Ying Wu, et al., Assembling metamaterials

2）已发表文章   * 通讯作者， # 共同一作

[16]  Ying Wu, Zhi-Kang Lin, Yating Yang, Zhida Song*, Feng Li*, Jian-Hua Jiang*, Probing fragile topology with dislocations, Science Bulletin (close to accept).

[15]  Yijie Liu, Boqing Lei, Peng Yu, Lei Zhong, Kaiping Yu, Ying Wu*, Second-order topological corner states in two-dimensional elastic wave metamaterials with nonsymmorphic symmetries, Mechanical System Signal Processing, 198 (2023) 110433. (IF=8.934)

[14]  Xiao-Ping Li, Di Zhou, Ying Wu*, Zhi-Ming Yu*, Feng Li*, and Yugui Yao*, Observation of Single Pair of Type-III Weyl Points in Sonic Crystals, Physical Reviews B. 2022, 106(22): L220302 (IF=3.908)

[13]  Ying Wu, Jiuyang Lu, Xueqin Huang, Yating Yang, Li Luo, Linyun Yang, Weiying Deng*, Feng Li*, Zhengyou Liu*, Topological materials for full-vector elastic waves, National Science Review, 10, 2023. (doi.org/10.1093/nsr/nwac203, IF=23.178，中科院1区，TOP期刊)

[12]  Linyun Yang, Ying Wu*, Kaiping Yu*, Rui Zhao, Wei Wang, Bernard Bonello, Bahram Djafari-Rouhanie, Robust Fano interaction between the first-order and higher-order topological states in phononic plates, International Journal of Mechanical Science  2022, 236: 107768. (IF=6.772，中科院1区，TOP期刊 )

[11]  Zhi-Kang Lin, Ying Wu *, Bin Jiang, Yang Liu, Shi-Qiao Wu, Feng Li*, Jian-Hua Jiang*, Topological Wannier cycles induced by sub-unit-cell artificial gauge flux in a sonic crystal. Nature Materials, 21, 430–437 (2022). (IF=47.656，中科院1区，TOP期刊)

[10]  Ying Wu, Mou Yan, Zhi-Kang Lin, Haixiao Wang, Feng Li*, Jianhua Jiang*, On-chip higher-order topological micromechanical metamaterials, Science Bulletin, 2021, 66(19) : 1959-1966 (IF=20.577, 中科院1区，TOP期刊)

[9]   Ying Wu, Kaiping Yu*, Jian Jiao, Dengqing Cao, Weichao Chi, Jie Tang. Dynamic isotropy design and analysis of a six-DOF active micro-vibration isolation manipulator on satellites. Robotics and Computer-Integrated Manufacturing 2017, 49:408-425. (IF=10.103, 中科院1区, TOP期刊)

[8]   Ying Wu, Kaiping Yu*, Jian Jiao, Rui Zhao. Dynamic modeling and robust nonlinear control of a six-DOF active micro-vibration isolation manipulator with parameter uncertainties. Mechanism and Machine Theory 2015, 92:407-435. (IF=4.930, 中科院1区, TOP期刊)

[7]   Ying Wu, Kaiping Yu*, Linyun Yang, Rui Zhao, Xiaotian Shi, Kuo Tian. Effect of thermal stresses on frequency band structures of elastic metamaterial plates. Journal of Sound and Vibration 2018, 413C: 101-119. (IF=4.761, 中科院2区, TOP期刊)

[6]   Ying Wu, Rajesh Chaunsali, Hiromi Yasuda, Kaiping Yu*, Jinkyu Yang*. Dial-in topological metamaterial based on bi-stable Stewart platform. Scientific Report, 2018, 8:112.  (IF=4.996, 中科院3区, TOP期刊)

[5]   Jian Jiao#, Ying Wu#, Kaiping Yu*, Rui Zhao. Dynamic modeling and experimental analyses of Stewart platform with flexible hinges, Journal of Vibration and Control 2019, 25(1): 151-171 (IF=2.633, 中科院3区)

[4]   Ying Wu, Kaiping Yu*, Xiao Li, Haotian Zhou. Generalized thermoelastic wave band gaps in phononic crystals without energy dissipation. Journal of Physics D Applied Physics 2015, 49(2):025502. (IF=3.409, 中科院3区)

[3]   Ying Wu, Kaiping Yu*, Linyun Yang, Rui Zhao. Generalized thermoelastic band structures of Rayleigh wave in one-dimensional phononic crystals. Meccanica 2018, 53(4-5): 923-935. (IF=2.538, 中科院3区)

[2]   骆全斌,黄学勤,邓伟胤,吴迎*,陆久阳*,刘正猷, 声子晶体板中的第二类狄拉克点和边缘传输, 物理学报, 2021, 70(18): 184302.（编辑推荐）doi: 10.7498/aps.70.20210712.

[1]   Ying Wu, Kaiping Yu*: Modeling and active vibration control of six-DOF manipulator through μ-synthesis with parameter uncertainties. Ninth International Symposium on Precision Engineering Measurement and Instrumentation, Changsha, China, August 8-10, 2014. (SCI) DOI:10.1117/12.2180664

3）学术会议

[1]     Rajesh Chaunsali*+, Chunwei Chen, Ying Wu, Xiaotiao Shi, Timothy Gormley, Jinkyu Yang. Topological manipulation of stress waves by tunable 1D and 2D mechanical structures. ITUAM symposium on Acoustic/elastic metamaterial and their design and applications. June 5 –June 8 2018, Beijing Institute of Technology, Beijing, China.

[2]     Ying Wu, Rajesh Chaunsali, Hiromi Yasuda, Kaiping Yu*, Jinkyu Yang*: "Topologically tunable metamaterial based on bi-stable Stewart platform. SPIE Health Monitoring of Structural and Biological Systems XII. (Accepted as Oral presentation)

[3]     Ying Wu, Kaiping Yu*, Linyun Yang, Xiaotian Shi, Jinkyu Yang: Tunable Linked Stewart Platform Metamaterials. PHONONICS 2017: 4th International Conference on Phononic Crystals/ Metamaterials, Phonon Transport/Coupling and Topological Phononics, Changsha, China, June 4-June 9, 2017

[4]     Linyun Yang, Kaiping Yu*, Ying Wu: Achieve Low-frequency and Wide-ranged Band-gap Phononic-crystal Plate by Topology Optimization Approach. PHONONICS 2017: 4th International Conference on Phononic Crystals/ Metamaterials, Phonon Transport/Coupling and Topological Phononics, Changsha, China, June 4-June 9, 2017

[5]     吴迎，全矢量弹性波拓扑超材料（口头报告），第二届全国超材料大会，南京，5.11-5.14，2023