共查询到19条相似文献,搜索用时 124 毫秒
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近年来,金属亚波长结构由于在负折射材料方面存在巨大应用价值,及可作为太赫兹波段的光学限制器等器件应用,引起了研究者们的广泛关注。本文采用电子束曝光离子束刻蚀的方法在金膜上制备了亚波长的超大长宽比U型开口矩形谐振器阵列结构,利用时域有限差分方法(FDTD)和太赫兹时域光谱技术(THz-TDS)对U型阵列结构的太赫兹波透射光谱响应进行了测量和分析,讨论了透过率对结构几何参数的依赖特性和异常透射的物理机制。通过这种U型开口谐振器能够实现太赫兹波的强局域和场增强,可将太赫兹波局域在波长千分之一的尺寸上,从而实现了太赫兹的异常透射现象,这种超大长宽比的U型开口谐振器可在太赫兹探测、太赫兹成像及其他光学器件的设计上得以应用。 相似文献
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本文设计一种基于单屏改进型开口谐振环(SRR)的太赫兹频率选择表面(FSS). 改进型 SRR 谐振单元由具有开口缝的金属贴片组成, 开口缝的物理尺寸会影响其阶跃特征阻抗特性. 本文通过对改进型 SRR 单元结构建立LC等效电路模型, 提取等效电路模型参数, 并结合传输线理论, 得到 FSS 的基频计算公式和谐波关系式. 相比于传统均匀 SRR, 本文所提出的改进型 SRR 多频带传输的控制更为灵活. 基于此特点, 设计了一款中心频率依次为 0.46 THz, 0.86 THz和 1.03 THz, 可应用于射电天文的三通带太赫兹 FSS. 采用电磁仿真软件对影响该 FSS 传输特性的关键参数、周期间隔、小型化程度以及入射角敏感性等重要指标进行分析研究. 结果表明, 改进型 SRR 三通带 FSS 在三个通带内的反射系数分别为 -37.6 dB, -13 dB和 -19.6 dB, 在0°–60° 范围内均具有稳定的频率响应特性, 且具有小型化程度高、损耗低等特点. 这种三通带 FSS 在太赫兹频段射电天文方面有潜在的应用价值. 相似文献
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开口谐振环(SRRs) 结构可以激励磁谐振, 实现负的磁导率. 提出在SRRs两环间隙内引入相对交错的金属短线, 并研究了金属短线对谐振频率的影响. 结果表明: 随着金属短线数目的增多, 谐振频率显著降低, 同时金属短线的结构参数如长度、宽度及间距也会对谐振频率产生影响. 最后验证了金属短线的引入对减小器件尺寸有明显作用, 且不因介质基底的存在而受到影响. 新型磁谐振单元可为今后超材料的设计及实际应用提供新的参考.
关键词:
左手材料
开口谐振环
太赫兹
小型化 相似文献
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本文设计了一种基于开口谐振环(split ring resonator, SRR)混合排列单元格的小型化双频带超材料(metamaterial, MM). 该MM的单元结构为发卡式SRR, 所设计的双频带MM可以应用于无线局域网(2.4 GHz) 和全球微波互联接入(3.5GHz)系统. 并且, 采用柔性介质作为基板增加了MM的柔韧度和普适性, 实验和测试结果表明: 双频带MM的中心频率可以通过调节SRR的尺寸进行控制. 此外, 本文也对MM在不同入射角的情况进行了分析, 结果表明MM对入射角度不敏感.最后, 通过MM的表面电流分布情况研究, 进一步解释了其双频带谐振频率的产生原理. 相似文献
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理论和实验已经表明,金属开口谐振环(split ring resonators,简称SRR)可以实现材料的有效磁导率μeff在某一频率范围内为负.采用波导法实验研究了不同几何尺寸的六边形SRR在X波段微波作用下的近邻相互作用.实验发现,相同尺寸的六边形SRR周期性排列而成的一维负磁导率材料存在一个谐振频率;当缺陷谐振环引入一维负磁导率材料时,主谐振频率和缺陷环谐振频率同时发生移动;主谐振频率和缺陷环谐振频率的移动量随缺陷与双环谐振频率之差的增加而减小,当缺陷环谐振频率与双环谐振频率接近时,环间的相互作用增强,频率的移动量增大.
关键词:
负磁导率
缺陷效应
开口谐振环 相似文献
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Negative magnetic permeability of split ring resonator (SRR) is theoretically investigated in the visible light region. In our calculations, we considered the delay of the current inside the metal SRR in order to estimate the permeability of the SRR precisely. From the results, the silver SRR array with small capacitance exhibits negative permeability in all the visible range. The dependence of the permeability on the filling factor of the SRR elements is also discussed. 相似文献
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In this study we provide experimental methods to identify the magnetic resonance of split ring resonantors (SRR) at the microwave
frequency regime. Transmission measurements were performed on both single SRR unit cell and periodic arrays of SRRs. The magnetic
response of the SRR structure was demonstrated by comparing the transmission spectra of SRRs with closed ring resonators (CRR).
Effects of the changes in the effective dielectric constant of the SRR medium on the band-gaps of SRR are investigated experimentally.
SRRs not only exhibit a magnetic resonance band gap but also a band gap due to the electric resonance. Finally, we present
the effect of electric coupling to the magnetic resonance of bianisotropic SRRs by utilizing SRRs with different orientations,
and incident electromagnetic wave polarizations. 相似文献
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研究在开口金属谐振环(SRR)结构嵌入一个电容二极管后,通过电压调控二极管的电容使得SRR结构的等效电容值发生改变,能实现对SRR的谐振频率和等效磁导率的调控,从而提出了一种智能的微波磁性超材料结构.采用时域差分有限元法(Finite-Difference Time-Domain)和恢复算法模拟了变容二极管的工作电压变化下,SRR结构谐振频率和磁导率的变化规律.研究结果表明工作电压增大使变容二极管的电容值减小时,将导致SRR结构的谐振频率向低频段移动,其磁导率的共振频率也将向低频移动.最后指出了SRR结构与常规磁性材料(如铁氧体)磁导率色散行为的不同之处.
关键词:
超材料
微波磁导率 相似文献
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We present an expanded LC-model for nanoscale split-ring resonators (SRR), including the influence of dielectric host materials. The LC-model is experimentally verified by changing the geometry of the SRR unit cell as well as by optofluidic tuning, where the SRR samples are covered with index oil. The extended model can be used as a general guideline for metal SRR structures with arbitrary dielectric host materials. 相似文献
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We report the true left-handed transmission of a composite metamaterial (CMM) consisting of periodically stacked split-ring resonator (SRR) and wire elements. The negative permeability (μ < 0) gap is demonstrated explicitly by comparing SRR and closed-ring resonator structures. We confirm experimentally that the plasma cut-off frequency of the CMM is determined by the combined dielectric response of SRR and wire elements, and it is much lower than that of the wire-only medium. This is crucial to identify the left-handed transmission bands of the CMM. We further investigate the effect of intralayer and interlayer disorder on the transmission spectrum of CMM arising from misaligned fabrication and stacking of the SRR layers. We found that the intralayer disorder affects the μ < 0 gap of SRRs and the left-handed transmission band of CMM significantly, whereas the SRR transmission is rather immune to interlayer disorder. 相似文献
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Jiafu Wang Shaobo Qu Zhuo Xu Jieqiu Zhang Hua Ma Yiming Yang Chao Gu 《Photonics and Nanostructures》2009,7(2):108-113
In this paper, we showed that split-ring resonator (SRR) pairs can be used as broadband planar left-handed metamaterials (LHMs). Simulations were carried out for one layer of infinite LHM slab using SRR pairs. The results showed that by carefully adjusting dimensions of the SRR pairs, magnetic and electric resonances can be coexistent at some frequency ranges and in the frequency range where there are both negative magnetic and electric responses, there is a broad LH band. Equivalent circuits for the magnetic and electric resonance were offered to give a qualitative and quantitative explanation of the LH behaviors of LHMs using SRR pairs. 相似文献
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基于开口谐振环(split-ring resonator, SRR)奇异的电磁特性, 设计并制备了一种覆盖C和X波段的高增益SRR-Vivaldi端射天线. 采用等效分析方法对SRR结构谐振特性进行了研究, 并将其应用于传统Vivaldi天线指数渐变槽线前方, 使SRR结构形成特殊谐振能力的引向器, 将天线表面电流集中于端射方向, 在保证天线尺寸和带宽不变的前提下, 实现了天线增益的有效提升. 仿真和测试结果表明, 新型SRR-Vivaldi天线在C波段增益平均提高75.44%, xoy面和xoz面半功率波束宽度都缩减20°以上; 在X波段增益平均提高24.46%, xoz面半功率波束宽度大约缩减25°. 该结构具有低成本、设计简单、便于加工、利于共形等优点, 为端射天线提高增益和增强定向性提供了新思路. 相似文献
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《Waves in Random and Complex Media》2013,23(2):235-242
AbstractThis paper presents dual-band wearable antenna using split-ring resonator (SRR). The SRR is placed near patch and feed line. SRR makes a major contribution to the first operating band (2.32 GHz), but it has a minor effect on the second operating band (3.5 GHz). The wearable antenna at 3.5 GHz (without using SRR) is also presented for comparison sake. The simulation results are analyzed and compared with the measured results, which shows that there is a good agreement between them. 相似文献