共查询到19条相似文献,搜索用时 217 毫秒
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使用时域有限差分法,研究了各向异性特异材料(AMM)作为包层的AMM/介质/AMM波导中表面等离子体的共振性质.色散关系表明,当特异材料为负磁导率的always-cutoff型时,AMM/介质/AMM波导支持TE极化的表面等离子体,表面等离子体的波长随着中间介质层的厚度和特异材料磁等离子体频率的减小而变短.在有限长度AMM/介质/AMM波导中,由于两端界面的反射,表面等离子体模在波导中形成Fabry-Perot共振,而实现亚波长的表面等离子体微腔.在共振频率,电场强度在微腔的中部达到最大值,而磁场分别在两端界面处达到最大,电磁能强局域在中间介质层中,这一性质将在可调的具有强局域特性的亚波长微腔及腔量子电动力学中具有潜在的应用. 相似文献
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表面等离子体共振(SPR)是近年来兴起的一种光学检测技术。其主要利用光波经全反射后产生的倏逝场与金属相互作用而感知外界介质的折射率变化。理论上任何介质折射率变化现象的发生都能被SPR技术检测到。在实际应用中,SPR传感器存在灵敏度不高,检测信号不强等缺点,因此对提高SPR传感器检测灵敏度的研究一直备受关注。氧化石墨烯又被看成是石墨烯的氧化物,它有着与石墨烯相近似的光电学特性,但又比石墨烯更容易进行化学修饰,因此被广泛用作SPR传感芯片的表面镀层来提高灵敏度。将氧化石墨烯用于修饰SPR芯片以提高灵敏度的报道很多,但对氧化石墨烯的使用量说法不一,并且在制备氧化石墨烯修饰传感芯片时需要浸泡很长一段时间,大大影响了芯片制备效率。该研究中使用长直链功能化聚乙二醇(polyethylene glycol, PEG)对SPR金芯片表面进行化学改性,用流动冲刷的方法使氧化石墨烯溶液对芯片进行修饰。通过对折射率变化响应信号的对比,最终确定氧化石墨烯最佳使用浓度为0.5 mg·mL-1,并且将修饰时间降到20 min以内。研究了不同波长入射光对氧化石墨烯修饰后芯片共振峰的影响,并对芯... 相似文献
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基于复合纳米结构的局域表面等离子体光学传感器 总被引:1,自引:0,他引:1
局域表面等离子体光学传感器由于其体积小、灵敏度高、免标记等特点成为目前传感器研究热点之一。然而由于银纳米结构的生物兼容性以及氧化问题,成为该传感器发展的瓶颈。提出了利用金/银混合的金属纳米结构克服上述困难,并从有限时域差分数值计算方法入手,设计了银层50nm,金层5nm的六边形分布三角形复合传感结构,并利用纳米球自组装技术实现了该类型传感器。同时,与生物分子蛋白A的结合实验结果表明,该传感器在生物分子溶液浓度213.85nM的条件下仍然具有较高的灵敏度。 相似文献
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以SU-8光刻胶作为波导芯层材料,设计了基于金纳米粒子的局域表面等离子体共振(LSPR)波导传感器。根据Mie理论,建立了金纳米粒子的消光模型,理论分析了纳米粒子半径、待测物折射率等因素对局域表面等离子体共振曲线的影响。分析表明:当待测液体折射率增大时,LSPR共振峰的位置发生红移。随着金纳米粒子半径的逐渐增大,传感器灵敏度增加。共振吸收峰逐渐由单峰变为双峰,其中一个峰位于520 nm波长附近,主要由表面等离子体吸收造成;另一个峰随金纳米粒子半径的增大而逐渐红移,主要由表面等离子体散射造成。 相似文献
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Coupling interaction between a single emitter and the propagating surface plasmon polaritons in a graphene microribbon waveguide 下载免费PDF全文
The coupling interaction between an individual optical emitter and the propagating surface plasmon polaritons in a graphene microribbon (GMR) waveguide is investigated by numerical calculations, where the emitter is situated above the GMR or in the same plane of the GMR, The results reveal a multimode coupling mechanism for the strong interaction between the emitter and the propagating plasmonic waves in graphene. When the emitter is situated in the same plane of the GMR, the decay rate from the emitter to the surface plasmon polaritons increases more than 10 times compared with that in the case with the emitter above the GMR. 相似文献
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In this work, we demonstrate surface plasmon resonance properties and field confinement under a strong interaction between a waveguide and graphene nanoribbons (GNRs), obtained by coupling with a nanocavity. The optical transmission of a waveguide–cavity–graphene structure is investigated by finite-difference time-domain simulations and coupled-mode theory. The resonant frequency and intensity of the GNR resonant modes can be precisely controlled by tuning the Fermi energy and carrier mobility of the graphene, respectively. Moreover, the refractive index of the cavity core, the susceptibility χ(3) and the intensity of incident light have little effect on the GNR resonant modes, but have good tunability to the cavity resonant mode. The cavity length also has good tunability to the resonant mode of cavity. A strong interaction between the GNR resonant modes and the cavity resonant mode appears at a cavity length of L1 = 350 nm. We also demonstrate the slow-light effect of this waveguide–cavity–graphene structure and an optical bistability effect in the plasmonic cavity mode by changing the intensity of the incident light. This waveguide–cavity–graphene structure can potentially be utilised to enhance optical confinement in graphene nano-integrated circuits for optical processing applications. 相似文献
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Broadband tunability of surface plasmon resonance in graphene-coating silica nanoparticles 下载免费PDF全文
Graphene decorated nanomaterials and nanostructures can potentially be used in military and medical science applications. In this article, we study the optical properties of a graphene wrapping silica core–shell spherical nanoparticle under illumination of external light by using the Mie theory. We find that the nanoparticle can exhibit surface plasmon resonance(SPR) that can be broadly tuned from mid infrared to near infrared via simply changing the geometric parameters. A simplified equivalent dielectric permittivity model is developed to better understand the physics of SPR, and the calculation results agree well qualitatively with the rigorous Mie theory. Both calculations suggest that a small radius of graphene wrapping nanoparticle with high Fermi level could move the SPR wavelength of graphene into the near infrared regime. 相似文献
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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 m2/(V·s)时, 品质因子达到最大值Qmax = 1793; 当p = 235 nm或EF = 0.72 eV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. 相似文献
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石墨烯中等离激元具有特殊的光电性质,其和入射光的强烈耦合可以引起光吸收的增强.本文基于时域有限差分法和多体自洽场理论研究了等离激元对处于光学谐振腔中的石墨烯光吸收的影响.由于石墨烯中等离激元与入射光动量和能量不匹配而不能直接相互作用,因此石墨烯上施加了金属光栅结构.研究发现光栅结构能够对入射光进行动量补偿并且能够引起其下石墨烯中的电场强度产生很大程度增强,从而导致在该石墨烯结构中太赫兹等离激元和入射光发生强烈耦合而产生太赫兹等离极化激元,同时引起石墨烯光吸收的增强.希望本文能够加深对石墨烯光电特性的理解以及可以为基于石墨烯的太赫兹光电装置提供一定的理论依据. 相似文献
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Low-cost,high performance surface plasmon resonance-compatible films characterized by the surface plasmon resonance technique 下载免费PDF全文
A new analytical method based on the surface plasmon resonance (SPR) technique is presented, with which SPR curves for both wavelength and angular modulations can be obtained simultaneously via only a single scan of the incident angle. Using this method, the SPR responses of TiO2-coated Cu films are characterized in the wavelength range from 600 nm to 900 nm. For the first time, we determine the effective optical constants and the thicknesses of TiO2-coated Cu films using the SPR curves of wavelength modulation. The sensitivities of prism-based SPR refractive index sensors using TiO2-coated Cu films are investigated theoretically for both wavelength and angular modulations, the results show that in the case of sensitivity with wavelength modulation, TiO2-coated Cu films are not as good as the Au film, however, they are more suitable than the Au film for SPR refractive index sensors with angular modulation because a higher sensitivity can be achieved. 相似文献
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基于理论分析, 实验研究了二维磁单负材料/双正材料/磁单负材料表面等离子波导的滤波效应. 研究表明, 该波导结构具有低通滤波性质, 引入分支缺陷之后, 由于谐振效应该波导具有带阻滤波效应. 分支缺陷相当于亚波长谐振腔, 谐振腔的长度决定带阻滤波器的中心频率, 而中心频率几乎不受缺陷位置的影响; 滤波器透射率下降的幅度由耦合距离决定. 通过引入谐振腔及改变谐振腔的长度、数量以及耦合间距等参数, 可以实现可调节的表面等离子波导滤波器. 实验结果与理论分析符合得很好, 该性质将在可调的单通道或多通道带阻滤波器件中具有潜在的应用价值.
关键词:
表面等离子激元
特异材料波导
谐振腔
滤波器 相似文献
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本文对表面等离子体显微镜的原理、架构和应用进行了综述,指出表面等离子体显微镜技术的未来发展方向是着力提高横向分辨率,接近光学衍射极限,以及发展与电化学、力学等微纳操纵手段结合的表面等离子体显微镜,形成微纳尺度下显微成像和操纵的闭环测量路径。 相似文献
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Tunable localized surface plasmon resonances in one-dimensional h-BN/graphene/h-BN quantum-well structure 下载免费PDF全文
The graphene/hexagonal boron-nitride(h-BN) hybrid structure has emerged to extend the performance of graphenebased devices. Here, we investigate the tunable plasmon in one-dimensional h-BN/graphene/h-BN quantum-well structures.The analysis of optical response and field enhancement demonstrates that these systems exhibit a distinct quantum confinement effect for the collective oscillations. The intensity and frequency of the plasmon can be controlled by the barrier width and electrical doping. Moreover, the electron doping and the hole doping lead to very different results due to the asymmetric energy band. This graphene/h-BN hybrid structure may pave the way for future optoelectronic devices. 相似文献