基于导模共振效应提高石墨烯表面等离子体的局域特性  被引量：3

作　　者：李志全[1] 张明[1] 彭涛[1] 岳中[1] 顾而丹[1] 李文超[2] 

机构地区：[1]燕山大学电气工程学院,秦皇岛066004 [2]东北大学秦皇岛分校控制工程学院,秦皇岛066004

出　　处：《物理学报》2016年第10期219-226,共8页Acta Physica Sinica

基　　金：河北省百人计划(批准号:4570018);河北省自然科学基金(批准号:F2014501150)资助的课题~~

摘　　要：本文构建了一种包含石墨烯和亚波长光栅的复合结构,借助衍射光栅的导模共振效应,在石墨烯表面激发高局域性表面等离子体激元,研究了石墨烯与光栅结构对表面等离子体激元局域特性的影响规律,并借助基于有限元法的COMSOL软件,分析了缓冲层厚度、光栅周期、载流子迁移率和费米能级对石墨烯的表面电场、品质因子Q和有效模式面积Seff的影响.结果表明,石墨烯表面等离子体激元的局域性在特定的参数点获得显著提高:当μ=0.7 m^2/(V·s)时,品质因子达到最大值Q_(max)=1793;当p=235 nm或E_F=0.72eV时,表面电场达到了入射光的3000倍以上.强烈的局域性导致强烈的光-物质相互作用,因而本文提出的复合结构可实现高灵敏度传感器和高效率的非线性光学设备,极大地扩展了石墨烯在纳米光学领域中的应用.Graphene is a one-atom-thick planar sheet of sp^2-bonded carbon atoms that are densely packed in a honeycomb crystal lattice.Graphene has been found to support plasmons in a wide range from infrared to terahertz.The confinement of plasmons in graphene is stronger than that on metallic surface.Moreover,the plasmon properties can be dynamically adjusted by doping or grating graphene.In this study,a composite structure comprised of graphene and subwavelength grating is proposed.Highly confined plasmons in graphene are excited by using a diffraction grating with guided mode resonance effect.The wave vector of plasmonic wave in graphene is far larger than that of light in vacuum.To excite plasmons in graphene with a freespace optical wave,their large difference in wave vector must be overcome.Optical gratings are widely used to compensate for wave vector mismatches.A diffraction wave generated by the grating structure can overcome the large wave vector difference and excite surface plasmons.The guided-mode resonance can greatly enhance the intensity of the diffraction field and the coupling efficiency between graphene and incident light.When the phase matching between illuminating wave and a guide mode supported by grating is achieved,guided-mode resonance effect occurs.A nearly 100% diffraction efficiency peak in the reflection or transmission spectrum occurs at a certain wavelength.In this study,the influences of graphene and grating structure on the local characteristics（the surface electric field Ex/Ein,quality factor Q,and effective mode area S-eff））of surface plasmons are investigated.The effects of the structural parameters（the thickness of the buffer layer T2,the grating period p,the carrier mobility μ,and the Fermi level EF）on localization properties are analyzed by the finite element method（COMSOL）.The results reveal that the localizations of the surface plasmons in the graphene surface is significantly improved at the certain parameters.1）The increase of T2 will reduce the intensity of elec

关 键 词：石墨烯 表面等离子体 亚波长衍射光栅 导模 

分 类 号：O485[理学—固体物理] O53[理学—物理]