个人简历：  

姓名：黄宏波 

性别：男               

出生年月：1994年10月  

职称：讲师  

最高学位：博士  

通讯地址：湖南省长沙市韶山南路498号  

电子邮箱：t20222633@csuft.edu.cn; hongbohuang@hnu.edu.cn  

学术概况：  

主要研究方向为机械/声学超材料设计与制备，振动噪声分析与控制。现为《Nature Communications》、《Journal of Applied Physics》、《Journal of Physics: Condensed Matter》等国际期刊审稿人，并在《Communications Physics》、《International Journal of Mechanical Sciences》、《Physical Review B》、《Mechanical Systems and Signal Processing》、《Physical Review Applied》等国际学术期刊共发表SCI论文20余篇，谷歌学术总引用达479次。目前本科研团队与湖南大学机械与运载工程学院、南京大学声学研究所、美国密苏里大学等高水平科研院所建立了长期紧密的合作关系，欢迎机械工程、材料成型及控制工程等专业的同学加入本团队，团队可为各位同学提供良好的软硬件平台条件，读研期间将有机会参与国家级科研项目，并可为有志于学术研究的同学提供宝贵的读博深造机会。  

教育和工作经历：  

2022.01—至今     中南林业科技大学，机电工程学院，专任教师 

2016.09—2021.12  湖南大学，机械工程，博士（硕博连读） 

2012.09—2016.06  浙江师范大学，机械设计制造及其自动化，学士 

教学情况  

主讲本科课程：机械工程材料 

科研项目：  

1.国家自然科学基金面上项目，外加磁场时磁弹性声子晶体板中波拓扑传输效应，12074114，2021-01至2024-12，62万，在研, 参与 

2.国家自然科学基金面上项目， 11374093， 周期性梯度压电和磁电弹性板中单通效应的研究，2014-01至2017-12，88万， 已结题, 参与 

3.湖北省重点实验室基金项目，基于声子晶体的水电站变压器隔振与降噪技术研究，2019-01至2020-12, 2万元，已结题，参与 

代表性论文： 

[1]Huang H B, Tan Z H, Huo S Y, Feng L Y, Chen J J, Han X. Topologically protected zero refraction of elastic waves in pseudospin-Hall phononic crystals. Communications Physics, 2020, 3(1): 46. (SCI一区Top，IF=6.368) 

[2]Huang H B, Huo S Y, Chen J J. Subwavelength elastic topological negative refraction in ternary locally resonant phononic crystals. International Journal of Mechanical Sciences, 2021, 198: 106391. (SCI一区Top，IF= 5.329) 

[3]Chen J J^#, Huang H B^#, Huo S Y, Tan Z H, Xie X P, Cheng J C, Huang G L. Self-ordering induces multiple topological transitions for in-plane bulk waves in solid phononic crystals. Physical Review B, 2018, 98(1): 014302. (SCI二区Top，IF=3.736) 

[4]Huang H B, Chen J J, Huo S Y. Simultaneous topological Bragg and locally resonant edge modes of shear horizontal guided wave in one-dimensional structure. Journal of Physics D: Applied Physics, 2017, 50(27): 275102. (SCI二区，IF=2.373) 

[5]Huang H B, Chen J J, Huo S Y. Recent advances in topological elastic metamaterials. Journal of Physics: Condensed Matter, 2021, 33: 503002. (SCI三区，IF=2.333) 

[6]Huang H B, Huo S Y, Chen J J. Reconfigurable Topological Phases in Two-Dimensional Dielectric Photonic Crystals. Crystals, 2019, 9(4): 221. (SCI四区，IF=2.404) 

[7]Huo S Y, Chen J J, Huang H B, Wei Y J, Tan Z H, Feng L Y, Xie X P. Experimental demonstration of valley-protected backscattering suppression and interlayer topological transport for elastic wave in three dimensional phononic crystals. Mechanical Systems and Signal Processing, 2021, 154: 107543. (SCI一区Top，IF=6.471) 

[8]Sui F H, Chen J J, Huang H B. Tunable topological edge states and rainbow trapping in two dimensional magnetoelastic phononic crystal plates based on an external magnetostatic field. International Journal of Mechanical Sciences, 2022: 107360. (SCI一区Top，IF= 5.329) 

[9]Feng L Y, Chen J J, Huang H B, Huo S Y, Tan Z H, Han X, Huang G L. High-efficiency elastic wave rectifier in one-dimensional linear magnetoelastic phononic crystal slabs by an external magnetostatic field. Physical Review Applied, 2020, 13(6): 064042. (SCI二区，IF=4.194) 

[10]Zhao J M, Huo S Y, Huang H B, Chen J J. Topological interface states of shear horizontal guided wave in one-dimensional phononic quasicrystal slabs. Physica Status Solidi (RRL)–Rapid Research Letters, 2018, 12(10): 1800322. (SCI二区，IF=3.729) 

[11]Huo S Y, Chen J J, Huang H B, Huang G L. Simultaneous multi-band valley-protected topological edge states of shear vertical wave in two dimensional phononic crystals with veins. Scientific Report, 2017, 7(1): 10335. (SCI三区，IF=4.122)