师资队伍

彭 湃

发布人:发表时间:2017-05-09点击:



彭湃(男),1983年生,湖北武汉人,研究方向为声学人工超材料(Acoustic/Elastic Metamaterial)。发表PRL、PRB等SCI论文共28篇,主持并结题国家自然科学基金1 项、中央高校基金1 项。担任国际期刊《Crystals》(IF=2.67)客座编辑,担任PRL等国际期刊审稿人。获得国家发明专利授权1项,实用新型专利授权4项。Email:paipeng@cug.edu.cn


主要教育/工作经历:

2015.05 ~ 今 副教授 中国地质大学(武汉) 数学与物理学院

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

2006.09 ~ 2011.07 硕博 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


以第一作者或通讯作者(*)发表论文:

(16) Wenjie Yu, Pai Peng*, Wei Hu, Qiujiao Du and Fengming Liu; “Mode conversions for elastic waves transmitted and reflected by ultrathin elastic metamaterial plates with anisotropic resonances”; Appl. Phys. Express 16: 017001 (2022).

(15) Qing Wang, Wenjie Yu, Herui Chang, Du Qiujiao, Fengming Liu, Zhengyou Liu* and Pai Peng*; “Total conversion between the longitudinal and transverse waves by ultrathin elastic metamaterials with anisotropic resonances”; Appl. Phys. Express 15: 117001 (2022).

(14) Yifan Guo, Fengming Liu, Qiujiao Du and Pai Peng*, “Total conversion between the longitudinal and transverse waves by an ultrathin elastic metamaterial plate with U-shaped slits”; Applied Physics Express 15: 127002 (2022).

(13) 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).

(12) 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).

(11) 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).

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

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

(8) 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).

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

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

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

(4) 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).

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

(2) 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).

(1) 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).


其他合作论文:

(12) 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).

(11) 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).

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

(9) 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) 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).

(7) 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).

(6) 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).

(5) 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).

(4) 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).

(3) 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).

(2) 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).

(1) 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).


获国家专利授权:

(1)发明专利《一种可同时调振幅与位相的声学超表面》(2023)彭湃;李攀

专利号:ZL20181158806.X 授权号:CN109448693B

(2)实用新型专利《一种基于固体板的反射声波位相调控装置》(2020) 彭湃;李攀

专利号:ZL201922232226.5 授权号:CN211578368U

(3)实用新型专利《一种可调局域反射波位相的反射型梯度声学装置》(2020) 彭湃;邹浩祯

专利号:ZL201921647422.2 授权号:CN211207176U

(4)实用新型专利《一种可调控反射波位相的声学装置》 (2020) 彭湃;常云帆

专利号:ZL201920953343.8 授权号:CN201865609U

(5)实用新型专利《一种可同时调控振幅与位相的声学超表面》(2019) 彭湃;李攀

专利号:ZL201822183474.0 授权号:CN209515189U