bob体育官网,bob体育最新版下载地址

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bob体育官网-bob体育最新版下载地址

周佩珩

邮箱:phzhou@uestc.edu.cn
电话:028-61830346
系别:微电子与固体电子系
职称:教授
教师个人主页:http://faculty.uestc.edu.cn/zhoupeiheng
教师简介
    致力于电磁功能材料及技术研究。先后承担了相关领域国家自然科学基金青年基金项目、面上项目、总装预研、总装探索等科研项目多项。获得国家技术发明二等奖、国防科技进步一等奖和国防技术发明二等奖等多项奖励,研究成果已经在重要背景上得到应用。在国际期刊上发表论文70余篇,SCI他引500余次。申请专利16项,授权4项;担任包括ACS Photonics、J. Alloys Compd. 等多个期刊评审,Shota Rustaveli National Science Foundation国际评审。
   
    欢迎对电磁场与物质相互作用的物理效应、电磁兼容环境设计及先进材料等有兴趣的同学参与我们的科研事业!
邮箱:phzhou@uestc.edu.cn,电话:028-61830346
 
教育背景:
         2005.09-2009.12  PhD,材料物理与化学,bob体育最新版下载地址  
 
学术经历:
         2017.08-present   教授,微电子与固体电子学院,bob体育最新版下载地址
         2009.12-2017.08   讲师/副教授,微电子与固体电子学院,bob体育最新版下载地址
         2007.11-2008.11   国家留学基金委联合培养计划,电子实验室,麻省理工大学
 
会员:IEEE,OSA
 
学术奖励:
         国家技术发明二等奖(2015),
         国防技术发明二等奖(2014),
         教育部科技进步二等奖(2014),
         教育部新世纪人才(2013),
         国防科技进步一等奖(2007),
         省优秀博士学术论文。
科学研究

研究方向


红外微纳结构及热辐射控制技术


基于SPPs的红外微纳结构设计及制备技术,应用于红外传感、探测、反探测以及热量控制系统;亚波长金属周期结构电磁仿真及热辐射计算,应用于特异电磁现象以及光-热能量转换等物理效应分析研究。


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Infrared watermark with stable radiation pattern at different T!



新型电磁超材料及器件


电磁超材料设计及应用技术,实现超材料对电磁波反射、透射、极化等传输特性的控制,应用于器件、部件的电磁特性设计以及探测、反探测技术。


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Flexible EM wave absorber

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Digital metasurface and radiation pattern control



低维电磁材料及动态磁化理论


新型低维纳米磁性薄膜及结构制备;纳米磁体动态磁化机理及模型计算;复合电磁性材料理论及电磁应用设计,应用于电子器件、电磁波吸收/屏蔽等背景。


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Sun-like composite structure

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Leaf-like composite structure

研究条件

   国家电磁辐射控制材料工程技术研究中心优越的实验平台、测试装备及强大的仿真计算能力,创造了国内一流国际先进的科研条件。欢迎访问网址:http://www.erc.uestc.edu.cn/


     学术成果

部分论文

[1] L. Yang, P. H. Zhou, T. X. Huang, et al. Modes coupling analysis of surface plasmon polaritons based resonance manipulation in infrared metamaterial absorber, Scientific Reports, 7:46093, 2017

[2] G. S. Zhen, X. J. Luo, P. H. Zhou, et al. Broadband thermal tunable infrared absorber based on the coupling between standing wave and magnetic resonance, Opt. Mater. Express, Vol. 7, No. 8, pp.2767, 2017

[3]X.J Luo, P. H. Zhou, X. Wang, et al. The four stages of anneal induced changes in magnetic anisotropy and microwave resonance of FeCoBSi thin films, J. Alloys Compounds, 705: 420-426, 2017

[4] L. B. Zhang, P. H. Zhou, H. Y. Chen, et al. Ultrabroadband design for linear polarization conversion and asymmetric transmission crossing X- and K- band, Scientific Reports, 6:33826, 2016.

[5] L. B. Zhang, P. H. Zhou, H. P. Lu, et al. Realization of bradband reflective polarization converter using asymmetric cross-shaped resonator, Opt. Mater. Express, Vol.6, No. 4, pp. 1393-1404, 2016.

[6]  X. J. Luo, P. H. Zhou, H. P. Lu, et al. Study on ferromagnetic properties in FeCo-based amorphous thin films with different thickness. Thin Solid Films, 619: 227-230, 2016

[5] X. J. Luo, P. H. Zhou, X. L. Weng, et al.  Resonance frequency of ferromagnetic thin film controlled by rectangle antidot arrays, IEEE Tran. Magn, 51(11): 1-4, 2015

[6] P. H. Zhou, X. J. Luo, L. Zhang, et al. Spin orientation driven static and dynamic magnetic process in amorphous FeCoBSi thin films, J. Appl. Phys., 117(21): 213906, 2015

[7] L. B. Zhang, P. H. Zhou, H. Y. Chen, et al. Adjustable wideband reflective converter based on cut-wire metasurface, J. Opt., 17(10):105105, 2015

[8] A. A. Khurram, S. A. Rakha, P. H. Zhou, et al. Correlation of electrical conductivity, dielectric properties, microwave absorption, and matrix properties of composited filled with graphene nanoplatelets and carbon nanotubes, J. Appl. Phy., 118(4):044105, 2015

[9] N. Zhang, P. H. Zhou*, D. M. Cheng, X. L. Weng, J. L. Xie, and L. J. Deng, Dual-band absorption of mid-infrared metamaterial absorber based on distinct dielectric spacing layers, Opt. Lett., Vol. 38, pp. 1125-1127, 2013

[10] G. R. Zhang, P. H. Zhou*, H. B. Zhang, L. B. Zhang, J. L. Xie, and L. J. Deng, Analysis and design of triple-band high-impedance surface absorber with periodic diversified impedance, J. Appl. Phys., Vol. 114, pp. 164103, 2013

[11] H. B. Zhang*, P. H. Zhou, H. P. Lu, Y. Q. Xu, D. F. Liang, and L. J. Deng, Resistance selection of high impedance surface absorbers for perfect and broadband absorption, IEEE Trans. Antennas Propag., Vol. 61, pp. 976-979, 2013

[12] N. Zhang, P. H. Zhou*, J. L. Xie, and L. J. Deng, Comparisons of two subwavelength aperture arrays with different lattice structure for light transmission, Optik, Vol. 124, pp. 2401-2405, 2013

[13] D. M. Cheng, J. L. Xie, P. H. Zhou, H. B. Zhang, N. Zhang, and L. J. Deng*, Numerical study of a new negative index material in mid-infrared spectrum, Opt. Express, Vol. 20, No. 23, pp. 25744-25751, 2012

[14] H. B. Zhang, P. H. Zhou, H. P. Lu, Y. Q. Xu, J. L. Xie and L. J. Deng. Soft magnetic film based metamaterial absorber. Electronics Letters, 2012, 48:435

[15] H. B. Zhang, P. H. Zhou, L. W. Deng, J. L. Xie, D. F. Liang and L. J. Deng. Frequency-dispersive resistance of high impedance surface absorber with trapezoid-coupling pattern. J. Appl. Phys., 2012, 112:014106

[16] P. H. Zhou*, L. R. Huang, J. L. Xie, D. F. Liang, H. P. Lu, and L. J. Deng, A study on the effective permittivity of carbon/PI honeycomb composites for radar absorbing design, IEEE Trans. Antenna Propag., Vol. 60, No. 6, pp. 3679-3683, 2012

[17] P. H. Zhou, T. Liu, J. L. Xie and L. J. Deng. Damping effect on resonance bounds of nanostructure ferromagnets and composites. J. Appl. Phys., 2012, 111:113912

[18] T. Liu, P. H. Zhou, D. F. Liang, J. L. Xie, L. J. Deng. Multi-resonances behavior of Ni nanobelt/paraffin composites at microwave frequencies. Journal of Alloys and Compounds. 2012, 524:25

[19] T. Liu, P. H. Zhou, D. F. Liang and L. J. Deng. Electromagnetic absorption properties of flowerlike cobalt composites at microwave frequencies. Chinese Physics B, 2012, 21(5): 50302-050302

[20] Y. Q. Xu*, P. H. Zhou, H. B. Zhang, L. Chen, and L. J. Deng, A wide-angle planar metamaterial absorber based on split ring resonator coupling, J. Appl. Phys., Vol. 110, pp. 044102, 2011

[21] H. Y. Chen*, L. J. Deng, and P. H. Zhou, Suppression of surface wave from finite conducting surfaces with impedance loading at margins, J. Electromag. Waves Appl., Vol. 24, No. 14/15, pp. 1977-1989, 2010

[22] P. H. Zhou*, L. Zhang, and L. J. Deng, Spin wave mode transition induced by surface anisotropy and characteristic length in magnetic nanoparticles, Appl. Phys. Lett., Vol. 96, pp. 112510, 2010


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