周佩珩 - 电子科技大学 - 电子科学与工程学院

个人简介

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。教育背景： 2005.09－2009.12 PhD，材料物理与化学，电子科技大学学术经历： 2017.08－present 教授，微电子与固体电子学院，电子科技大学 2009.12－2017.08 讲师/副教授，微电子与固体电子学院，电子科技大学 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

研究领域

红外微纳结构及热辐射控制技术新型电磁超材料及器件低维电磁材料及动态磁化理论

近期论文

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[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