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夏百战

发布于:2018-03-23 星期五 17:43:29 点击数:12593

微信公众号:湖大机械波与声超构材料课题组图片 1.png

https://scholar.google.com/citations?user=AnWmNiwAAAAJ&hl=zh-CN

基本信息

夏百战

教授,博士生导师,岳麓学者

E-mail: xiabz2013@hnu.edu.cn

教育背景

2010.8-2015.4  湖南大学机械与运载工程学院,博士

2008.9-2010.6  湖南大学机械与运载工程学院,硕士研究生

2004.9-2008.6  湖南大学机械与运载工程学院,本科

工作履历

2020.01 - 至今        湖南大学机械与运载工程学院,教授

2017.01 - 2019.12   湖南大学机械与运载工程学院,副教授

2017.03 - 2018.03   美国密歇根大学安娜堡分校访问学者

2013.06- 2017.01   湖南大学机械与运载工程学院,助理教授

研究领域

研究领域为:机械/声学超材料设计、制备与应用基础研究。

1、深海、深空、超高速等极端工况下高强度/刚度,低频隔振降噪超构材料设计与智能组装技术研究。涉及学/机械超材料、声振控制技术、人工智能技术

2、水下隐形仿生机器人设计研发,及其在声隐身,声通讯,深海探测等领域的应用。涉及声学/机械超材料、声振控制技术、机器人技术、人工智能技术

3、生物微流控芯片设计研发,及其在微颗粒,细胞操纵领域的应用。涉及声学/机械超材料、声振控制技术、生物技术、人工智能技术


科研团队每年招收博士生1~2人,硕士研究生3~5人。课题组与美国、澳大利亚等国内外众多课题组有深入合作关系。课题组的研究生成功去往哈佛大学,密歇根大学安娜堡分校,佐治亚理工学院,密苏里大学,悉尼科技大学等国际顶尖高校联合培养。


科研项目

主持的科研项目如下:

9、弹性声子晶体板多维度深亚波长拓扑波动特性研究,国家自然科学基金,2020年,62万

8、XXX不确定优化设计,企业项目,2020,40万

7、优秀青年人才培育计划,2020年,15万

6、拓扑声波定向探测机理研究及装备研发,重点实验室自由探索项目,2020年,15万

5、亚波长水下隐身超材料研究,装备预研教育部联合基金青年人才基金项目,80万

4、非确定随机声固耦合系统的数值分析与优化方法研究,国家自然科学基金,25万

3、声子晶体多尺度分形设计,青年教师成长计划 ,25

2、具有非确定随机变量的声固耦合系统的数值分析方法研究,10万

1、自相似仿生分形周期性结构的振动与噪声性能分析与优化,10万



学术成果

以第一作者和通讯作者发表论文如下

Preprints

49 Hongqing Dai, Linbo Liu, Baizhan Xia*, Dejie Yu*, Experimental realization of topological on-chip acoustic tweezers, Under Review


2020年

48 Shengjie Zheng, Baizhan Xia*, Liang Tong, Junrui Jiao, Guiju Duan, Dejie Yu, Three-dimensional higher-order topological acoustic system with multidimensional topological states, Physical Review B, Accepted

47 范海燕 , 夏百战 *,三维声学超材料的高阶拓扑态,科学通报, 65卷, 15期: 1411-1419(2020)

46 Haiyan Fan, Baizhan Xia*, Liang Tong, Elastic phononic topological plate with edge and corner sates based on pseudospin-valley-coupling. Journal of Physics D: Applied Physics, accepted.

45 Shengjie Zheng, Guiju Duan, and Baizhan Xia*, Underwater acousticpositioning based on valley-chirality locked beam of sonic system.International Journal of Mechanical Sciences174:105463(2020).

44 Liang Tong, Haiyan Fan, and Baizhan Xia*, Elastic phononic plates with first-order and second-order topological phases. Journal of Physics D: Applied Physics 53.11, 115303 (2020).


2019年

43 Xianfeng Man, Zhen Luo, Jian Liu, Baizhan Xia*, Hilbert fractal acoustic metamaterials with negative mass density and bulk modulus on subwavelength scale. Materials & Design, 180, 107911 (2019).

42 Haiyan Fan, Baizhan Xia*, Liang Tong, Shengjie Zheng, Dejie Yu, "Elastic higher-order topological insulator with topologically protected corner states" Physical Review Letters, 122(20), 204301 (2019). (物理领域顶级期刊,ESI高被引论文

41  Baizhan Xia*, Haiyan Fan, Tingting Liu, "Topologically Protected Edge States of Phoxonic Crystals" International Journal of Mechanical Sciences,155, 197-205 (2019).

40  Xianfeng Man, Baizhan Xia*, Zhen Luo, Jian Liu, “Three-dimensional Hilbert fractal acoustic metamaterials: low-frequency and multi-band sound insulation”  Journal of Physics D: Applied Physics,52, 195302 (2019).

39  Baizhan Xia*, Guobin Wang, and Shengjie Zheng, "Robust edge states of planar phononic crystals beyond high-symmetry points of Brillouin zones," Journal of the Mechanics and Physics of Solids 124, 471-488 (2019). (固体力学领域顶级期刊,ESI高被引论文


2018年

38  Longxiang Xie, Jian Liu, Guoliang Huang, Wenqing Zhu, and Baizhan Xia*, "A polynomial-based method for topology optimization of phononic crystals with unknown-but-bounded parameters," International Journal for Numerical Methods in Engineering 114, 777–800 (2018).

37  Bai-Zhan Xia*, Sheng-Jie Zheng, Ning Chen, Ting-Ting Liu, Jun-Rui Jiao, Hong-Qing Dai, De-Jie Yu, and Jian Liu, "Observation of valleylike edge states of sound at a momentum away from the high-symmetry points," Physical Review B 97 (15), 155124 (2018).

36  Baizhan Xia* and Lifang Wang, "Non-probabilistic interval process analysis of time-varying uncertain structures," Engineering Structures 175, 101-112 (2018).

35  Baizhan Xia*, Liping Li, Jian Liu, and Dejie Yu, "Acoustic metamaterial with fractal coiling up space for sound blocking in a deep subwavelength scale," Journal of Vibration and Acoustics 140 (1), 011011 (2018).

34  Jian Liu, Liping Li, Baizhan Xia*, and Xianfeng Man, "Fractal labyrinthine acoustic metamaterial in planar lattices," International Journal of Solids and Structures 132-133, 20-30 (2018).

33  Junhuang Chen, Baizhan Xia*, and Jian Liu, "A sparse polynomial surrogate model for phononic crystals with uncertain parameters," Computer Methods in Applied Mechanics and Engineering 339, 681-703 (2018).


2017年

32  Longxiang Xie, Baizhan Xia*, Jian Liu, Guoliang Huang, and Jirong Lei, "An improved fast plane wave expansion method for topology optimization of phononic crystals," International Journal of Mechanical Sciences 120, 171-181 (2017).

32  Bai-Zhan Xia*, Ting-Ting Liu, Guo-Liang Huang, Hong-Qing Dai, Jun-Rui Jiao, Xian-Guo Zang, De-Jie Yu, Sheng-Jie Zheng, and Jian Liu, "Topological phononic insulator with robust pseudospin-dependent transport," Physical Review B 96 (9), 094106 (2017).

30  Bai-Zhan Xia*, Jun-Rui Jiao, Hong-Qing Dai, Shengwen Yin, Sheng-Jie Zheng, Ting-Ting Liu, Ning Chen, and De-Jie Yu, "Steerable sound transport in a 3D acoustic network," Applied Physics Letters 111, 161903 (2017).

29  Baizhan Xia*, Hui Yin, and Dejie Yu, "Nondeterministic wave-based methods for low-and mid-frequency response analysis of acoustic field with limited information," Mechanical Systems and Signal Processing 84, 169-183 (2017).

28  BaiZhan Xia*, Yuan Qin, Ning Chen, DeJie Yu, and Chao Jiang, "Optimization of uncertain acoustic metamaterial with Helmholtz resonators based on interval model," Science China Technological Sciences 60 (3), 385-398 (2017).

27  Hongqing Dai, Tingting Liu, Baizhan Xia*, and Dejie Yu, "Quasilossless acoustic transmission in an arbitrary pathway of a network," Physical Review B 95 (5), 054109 (2017).

26  Hongqing Dai, Tingting Liu, Junrui Jiao, Baizhan Xia*, and Dejie Yu, "Double Dirac cone in two-dimensional phononic crystals beyond circular cells," Journal of Applied Physics 121 (13), 135105 (2017).

25  郑圣洁, 夏百战, 刘亭亭, and 于德介, "空间盘绕型声学超材料的亚波长拓扑谷自旋态," 物理学报 66 (22), 228101 (2017).

24  夏百战, 刘亭亭, 郑圣洁, and 于德介, "基于 Hilbert 分形的亚波长空间盘绕型声学超材料," 中国科学: 技术科学 47 (6), 639-645 (2017).

23  刘坚, 雷济荣, and 夏百战, "基于 Chebyshev 展开的区间穿孔板超材料分析," 力学学报 49 (1), 137-148 (2017).


2016年

22  Baizhan Xia*, Yuan Qin, Dejie Yu, and Chao Jiang, "Dynamic response analysis of structure under time-variant interval process model," Journal of Sound and Vibration 381, 121–138 (2016).

21  Baizhan Xia*, Hongqing Dai, and Dejie Yu, "Symmetry-broken metamaterial for blocking, cloaking, and supertunneling of sound in a subwavelength scale " Applied Physics Letters 108, 251902 (2016).

20  Baizhan Xia*, Ning Chen, Longxiang Xie, Yuan Qin, and Dejie Yu, "Temperature-controlled tunable acoustic metamaterial with active band gap and negative bulk modulus," Applied Acoustics 112, 1-9 (2016).

19  夏百战*, 覃缘, 于德介, and 陈宁, "区间模型下声学超材料的可靠性优化," 机械工程学报 52 (13), 94-102 (2016).


2015年及以前

18  Baizhan Xia and Dejie Yu, "Optimization based on reliability and confidence interval design for the structural-acoustic system with interval probabilistic variables," Journal of Sound and Vibration 336, 1–15 (2015).

17  Baizhan Xia, Shengwen Yin, and Dejie Yu, "A new random interval method for response analysis of structural–acoustic system with interval random variables," Applied Acoustics 99, 31-42 (2015).

16  Baizhan Xia, Hui Lü, Dejie Yu, and Chao Jiang, "Reliability-based design optimization of structural systems under hybrid probabilistic and interval model," Computers & Structures 160, 126–134 (2015).

15  Baizhan Xia, Dejie Yu, Xu Han, and Chao Jiang, "Unified response probability distribution analysis of two hybrid uncertain acoustic fields," Computer Methods in Applied Mechanics and Engineering 276, 20-34 (2014).

14  Baizhan Xia and Dejie Yu, "Change-of-variable interval stochastic perturbation method for hybrid uncertain structural-acoustic systems with random and interval variables," Journal of Fluids and Structures 50, 461–478 (2014).

13  Baizhan Xia and Dejie Yu, "Response Analysis of Acoustic Field With Convex Parameters," Journal of Vibration and Acoustics - ASME 136 (4), 041017 (2014).

12  Baizhan Xia and Dejie Yu, "Transformed perturbation stochastic finite element method for static response analysis of stochastic structures," Finite Elements in Analysis and Design 79, 9-21 (2014).

11  Baizhan Xia and Dejie Yu, "An interval random perturbation method for structural-acoustic system with hybrid uncertain parameters," International Journal for Numerical Methods in Engineering 97 (3), 181–206 (2014).

10  Baizhan Xia and Dejie Yu, "Modified Interval and Subinterval Perturbation Methods for the Static Response Analysis of Structures with Interval Parameters " Journal of Structural engineering - ASCE 140 (5), 04013113 (2014).

9  Baizhan Xia, Dejie Yu, Jian Liu, and Yantao Liu, "A radial interpolation finite element method for 2D homogeneous and multifluid coupling acoustic problems," Noise Control Eng r. J. 61 (3), 330-344 (2013).

8  Baizhan Xia, Dejie Yu, and Jian Liu, "Probabilistic Interval Perturbation Methods for Hybrid Uncertain Acoustic Field Prediction," Journal of Vibration and Acoustics - ASME 135 (2), 021009 (2013).

7  Baizhan Xia, Dejie Yu, and Jian Liu, "Interval and subinterval perturbation methods for a structural-acoustic system with interval parameters," Journal of Fluids and Structures 38, 146–163 (2013).

6  Baizhan Xia, Dejie Yu, and Jian Liu, "Hybrid uncertain analysis for structural-acoustic problem with random and interval parameters," Journal of Sound and Vibration 332 (11), 2701–2720 (2013).

5  Baizhan Xia, Dejie Yu, and Jian Liu, "Hybrid uncertain analysis of acoustic field with interval random parameters," Computer Methods in Applied Mechanics and Engineering 256, 56–69 (2013).

4  Baizhan Xia and Dejie Yu, "Response probability analysis of random acoustic field based on perturbation stochastic method and change-of-variable technique," Journal of Vibration and Acoustics - ASME 135 (5), 051032 (2013).

3  Baizhan Xia and Dejie Yu, "Modified Interval Perturbation Finite Element Method for a Structural-Acoustic System With Interval Parameters," Journal of Applied Mechanics - ASME 80 (4), 041027 (2013).

2  Baizhan Xia and Dejie Yu, "Interval analysis of acoustic field with uncertain-but-bounded parameters," Computers & Structures 112-113, 235-244 (2012).

1  Baizhan Xia and Dejie Yu, "Modified sub-interval perturbation finite element method for 2D acoustic field prediction with large uncertain-but-bounded parameters," Journal of Sound and Vibration 331 (16), 3774-3790 (2012).