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彭 湃

发布人:发表时间:2017-05-09点击:

个人信息


姓名:彭湃(男)
出身日期:1983年3月
职称:副教授


电话:15827222525


研究方向:声学人工超材料(Acoustic/Elastic Metamaterial)

自然材料的物理性质通常取决于材料物质的化学成分和分/原子结构。人工超材料是一种人工复合材料,通过设计复合材料的内部微结构或表面结构来改变该复合材料的物理性质,甚至能突破自然材料的限制,在一定范围内实现负质量密度、负体模量和负切模量等材料参数。使用人工超材料能够设计和实现诸如完美透镜、隐身衣等新颖的光/声学器件。


主要教育/工作经历

2015.05 ~ 今 副教授 中国地质大学 新萄京集团3522cc

2011.10 ~ 2014.10 博士后 沙特国王科技大学 数学与计算机学院

2006.09 ~ 2011.07 博士研究生 武汉大学 物理科学与技术学院

2001.09 ~ 2005.07 本科 武汉大学 物理科学与技术学院


已发表论文:(h-index: 8

(1) Pan Li, Wenping Hu, Pai Peng, Xuefeng Zhu, Degang Zhao*; “Elastic topological interface states induced by incident angle”; International Journal of Mechanical Sciences, 225: 107359 (2022).

(2) Xu Zhihong, Li Pan, Liu Meiyu, Du Qiujiao, Guo Yifan, Peng Pai*, “An ultrathin acoustic metasurface composed of an anisotropic three-component resonator”; Applied Physics Express, 15(2): 27004 (2022).

(3) Zou Haozhen, Xu Zhihong, Hu Yang, Du Qiujiao, Peng Pai*; “Reflected continuously tunable acoustic metasurface with rotatable space coiling-up structure”; Physics Letters A, 426: 127891 (2022).

(4) Du Qiujiao*, Fan Li, Xu Rui, Xu Yang, Yang Hongwu, Peng Pai*; “A novel aseismic method using seismic metasurface design with mound structures”; Journal of Applied Physics, 130(21): 215101 (2021).

(5) Li Pan, Du Qiujiao, Xu Zhihong, Xu Yanlong, Wang Qing, Peng Pai*; “Stepped acoustic metasurface with simultaneous modulations of phase and amplitude”; Applied Physics Express, 14(12): 127001 (2021).

(6) Liu Fengming*, Peng Pai, Du QiuJiao, Ke Manzhu; “Effective medium theory for photonic crystals with quadrupole resonances”; Optics Letters, 46(18):4597 (2021).

(7) Zeng Yi, Peng Pai, Du Qiu-Jiao, Wang Yue-Sheng, Assouar Badreddine*; “Subwavelength seismic metamaterial with an ultra-low frequency bandgap”; Journal of Applied Physics, 28(1): 14901 (2020).

(8) Zou Haozhen, Xu Zhihong, Li Pan, Peng Pai*; “An ultra-thin acoustic metasurface with multiply resonant units”; Physics Letters A, 7: 126151 (2020).

(9) Zeng Yi, Xu Yang, Yang Hongwu, Muzamil Muhammad, Xu Rui, Deng Keke; Peng Pai, Du Qiujiao*; “A Matryoshka-like seismic metamaterial with wide band-gap characteristics”; International Journal of Solids and Strcutures, 185: 334 (2020).

(10) Li Pan, Chang Yun-Fan, Du Qiu-Jiao, Xu Zhi-Hong, Liu Mei-Yu, Peng Pai*; “Continuously tunable acoustic metasurface with rotatable anisotropic three-component resonators”; Applied Physics Express, 13(2): 25507 (2020).

(11) Xu Yanlong*, Cao Liyun, Peng Pai, Assouar Badreddine, Yang Zhichun; “Spatial waveguide mode separation for acoustic waves in a meta-slab composed of subunits with graded thicknesses”; Journal of Applied Physics, 126(16): 165110 (2019).

(12) Xu Yanlong*, Cao Liyun, Peng Pai, Zhou Xiaoling, Assouar Badreddine, Yang Zhichun; “Beam splitting of flexural waves with a coding meta-slab”; Applied Physics Express, 12(9): 97002 (2019).

(13) Xu Yang, Xu Rui, Peng Pai, Yang Hongwu, Zeng Yi, Du Qiujiao*; “Broadband H-shaped seismic metamaterial with a rubber coating”; EPL, 127(1): 17002 (2019).

(14) Zeng Yi, Xu Yang, Deng Keke, Peng Pai, Yang Hongwu, Muzamil Muhammad, Du Qiujiao*; “A broadband seismic metamaterial plate with simple structure and easy realization”; Journal of Applied Physics, 125(22): 224901 (2019).

(15) Liu Meiyu, Li Pan, Du Qiujiao, Peng Pai*; “Reflected wavefront manipulation by acoustic metasurfaces with anisotropic local resonant units”; EPL, 125(5): 54004 (2019).

(16) Xu Yanlong*, Peng Pai; “High quality broadband spatial reflections of slow Rayleigh surface acoustic waves modulated by a graded grooved surface”; Journal of Applied Physics, 117(3): 35103 (2015).

(17) Peng Pai, Xiao Bingmu, Wu Ying*; “Flat acoustic lens by acoustic grating with curled slits”; Physics Letters A, 45: 3389 (2014).

(18) Peng Pai, Qiu Chunyin, Liu Zhengyou, Wu, Ying*; “Controlling elastic waves with small phononic crystals containing rigid inclusions”; EPL, 106(4): 46003 (2014).

(19) Peng Pai, Asiri Sharefa, Zhang Xiujuan, Li Yan, Wu Ying*; “A lumped model for rotational modes in periodic solid composites”; EPL, 104(2): 26001 (2013).

(20) Peng Pai, Mei Jun, Wu Ying*; “Lumped model for rotational modes in phononic crystals”; Physical Review B, 86(13): 134304 (2012).

(21) Peng Pai, Qiu Chunyin*, Ding Yiqun, He Zhaojian, Yang Hai, Liu Zhengyou; “Acoustic tunneling through artificial structures: From phononic crystals to acoustic metamaterials”; Solid State Communications, 151(5): 400 (2011).

(22) Peng Pai, Qiu Chunyin*, Hao Rui, Lu Jiuyang Liu Zhengyou; “Acoustic transmission enhancement through a stiff plate drilled with subwavelength side openings”; EPL, 93(3): 34004 (2011).

(23) He Zhaojian, Jia Han, Qiu Chunyin, Peng Shasha, Mei Xuefei, Cai Feiyan, Peng Pai, Ke Manzhu, Liu Zhengyou*; “Acoustic Transmission Enhancement through a Periodically Structured Stiff Plate without Any Opening”; Physical Review Letters, 105(7): 74301 (2010).

(24) Ke Manzhu, Liu Zhengyou, Cheng Zhigang, Li Jing, Peng Pai (彭湃), Shi Jing*; “Flat superlens by using negative refraction in two-dimensional phononic crystals”; Solid State Communications, 142(3): 177 (2007).

【综述】彭湃, 刘正猷;拓扑声子晶体”; 《物理实验》41(05): 1-9 2021)。

参与的科研项目:
(1)国家自然科学基金委国家杰出青年基金:《人工晶体》(50425206)
(2)国家自然科学基金项目:《声子晶体板的表面波特性研究》(10974147),《非局域共振型声学超常材料的特性与应用》(11004155),《弹性波/声波超常材料研究》(10874131)
(3)国家自然科学基金委与香港联合资助局合作项目:《波功能材料研究》(10731160613)
(4)自然科学部主任基金:《声子晶体表面波机理探讨及实验实现》(10944003)