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基于特殊的SiC周期性结构,理论分析了SiC表面特殊电磁模态的激发特性,并利用数值模拟的方法研究了该周期性结构的红外辐射/吸收特性。模拟结果表明该周期性结构在电磁波照射下可以支持多种电磁模态的激发,并且多种电磁模态之间存在相互耦合现象,证实了理论分析的结果。基于非线性优化算法,分别对结构在单个频率整个角度范围内的红外辐射/吸收特性,以及整个研究频段内的垂直方向红外辐射/吸收特性进行了优化。优化的结果显示,相比于原来的结构,优化后结构的等效发射率/吸收率有较显著地提升。 相似文献
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电磁波在媒质中的传输行为与媒质等频线的形状密切相关。双曲超材料的等频面为开放的双曲面,它支持任意大波矢的传播,将通常环境中以倏逝波形式存在的电磁波大波矢分量转换为传播场,从而实现更多奇特的电磁传输性。基于双曲线型等频面超材料,通过调节等频线的形状,制备出兼具双曲超材料和零折射率材料的新型材料,该材料不仅可以支持大波矢实现高方向性单向传输,同时可以将任意角度入射的电磁波以零角度折射,从而实现亚波长聚焦和超分辨特性。利用微波实验验证了高方向性单向传输特性、亚波长聚焦和超分辨特性,该研究为双曲超材料的理论和应用研究提供了更多的可能性。 相似文献
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零折射率材料是近几年发展起来的一种新型超构材料.它性质奇特,应用广泛,不仅活跃在科研前沿,也很值得推介到物理课堂.本文从经典电动力学出发,理论分析并数值模拟了零折射率材料内部电场、磁场的分布特性,以及零折射率材料平板的电磁透射特性.结果表明:对于双零折射率材料的平板,在与空气阻抗匹配的条件下,其透过率不随平板厚度的变化而变化,大小始终保持为1;而单零折射率材料的平板的透过率随着平板厚度的增加而减小.文章进一步分析了产生这两种特殊透射特性的原因.研究结果对于理解零折射率材料的特性以及设计零折射率材料的功能器件有很好的指导意义和参考价值. 相似文献
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设计了三种类型吸波体, 分别为基于正方形金属贴片(square metal patch, SMP) 结构超材料吸波体、 电阻型频率选择表面(Resistance Frequency Selective Surface, RFSS) 吸波体和SMP与RFSS的复合结构吸波体. 采用FDTD算法分别对这三种类型吸波体的电磁波吸收特性进行数值模拟分析. 模拟得到的结果表明: 在整个2-30 GHz频率范围内, SMP吸波体, 通过几何参数的设计可以实现多频窄带强吸收; RFSS吸波体, 通过方块电阻的设计可以实现高频宽带强吸收, 但强吸收的带宽有限; SMP与RFSS的复合结构吸波体, 在3-25 GHz之间吸收率大于90%以上, 且宽频范围内与自由空间具有较好的阻抗匹配特性. 相似文献
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提出了一种基于平行金属条和细金属线的双梯形二维超材料结构单元.该结构由介质板以及其两侧放置的一对反向对称梯形金属条组成.与传统二维超材料相比,该结构在电磁波平行入射时具有双左手频带特性,在电磁波双向入射情况下具有良好的左手频带拓展性,且结构易于制备.利用电磁仿真软件分别模拟电磁波垂直入射和平行入射条件下该结构的电磁性能.结果表明:该结构在两种入射情况下均能实现双负特性;梯形上底每增大0.5mm,双入射情况下结构的双负特性分别向高频移动0.2GHz和0.4GHz.该研究对基于平行金属条的左手材料的研究以及二维左手材料的发展具有参考价值. 相似文献
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基于树枝状金属结构单元的电磁谐振特性,设计了一种双面大小树枝状结构的超材料吸收器,该结构分别是正面二级树枝及正对的背面三级树枝.通过仿真模拟设计了不同的阻抗匹配方式,调节相应的结构参数,找到了阻抗匹配对吸收特性的影响.在最佳的阻抗匹配条件下,得到最大吸收率.实验测量表明,阻抗匹配条件下双面大小树枝模型可以实现90.01%吸收率.增加样品层数可以有效的增加吸收率,3层样品就可以达到99%以上的吸收率,实现工程意义的完美吸收. 相似文献
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为能够较好的计算混合介质等效复介电常数和复磁导率, 提出了一种基于等效电路理论的阻抗模拟方法.导出了材料的电磁参数与材料容抗、感抗之间的对应关系, 并建立了能够较完整、精确地刻画实际复合材料的模型.通过求解混合介质的等效阻抗, 进一步反演其等效电磁参数.将计算结果与经典理论公式以及基于有限差分的数值方法进行了比较, 结果都符合得很好, 说明该方法可以用于计算材料的等效电磁参数.另外, 引入薄膜层结构来刻画表面效应等因素, 使得计算结果更加符合实验结果, 弥补了经典公式在这方面的不足, 同时也体现了该方法在刻画实际模型时所具有的优势.
关键词:
等效电磁参数
阻抗模拟
等效电路
混合介质 相似文献
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This paper reports the design of a metamaterial absorber with direction-selective and polarisation-insensitive property.Both theoretical and simulated results reveal that the absorber has a distinct absorption point with direction selectivity at 7.48 GHz,which is related to the resonance of the metamaterial and is not influenced by the polarisation.The retrieved impedance indicates that the impedance of the absorber can be tuned to approximatively match the impedance of the free space on one side and not to match the impedance of the free space on the other side.This design can result in the minimal reflectance,the minimal transmission and the highest absorbance at the absorption frequency.The distribution of the power loss indicates that the absorber is an excellent electromagnetic wave collector:the wave is first trapped and reinforced in certain specific locations,and then mostly consumed.The distribution of the surface current is consistent with the design,the retrieved impedance and the distribution of the power loss.This absorber may have applications in many scientific and technological areas. 相似文献
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提出了一种利用含有负介电常量和磁导率张量的各向异性超常材料实现偏振分离的方法。通过分析电磁波在无损耗各向异性超常材料中的传输性质以及透射率与入射角度的关系,分类比较了由不同符号的介电常量和磁导率张量组合而成具有不同波矢面的各向异性超常材料的偏振分离特性,比较结果表明波矢面为单叶双曲面和椭球双叶双曲面的各向异性超常材料的偏振分离特性强。前者可以实现入射波中的s分量和p分量中某一分量正折射,另一分量负折射,且在一定条件下可以同时全透射,从而实现大角度偏振分离。后者在一定条件下可实现入射波中的s分量和p分量某一分量全反射,另一分量全透射,从而实现偏振分离。最后,对从各向同性介质入射到这两种各向异性超常材料中的高斯光波的传输进行了模拟计算,结果表明这两种各向异性超常材料可以实现很好的偏振分离功能,有潜力成为新型的偏振分离元件。 相似文献
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The engineering in artificial inclusions of metamaterials has immense potential to explore in the field of electromagnetic wave manipulation that created enormous opportunities in the design of millimetre or sub-millimetres structures. In this research paper, Parabolic Split Ring Resonator (PSRR) based MNZ (Mu-Near-Zero) metamaterial with a wider refractive index is introduced for WiFi/WiMax/Wireless/ISM band applications and printing on Rogers RT-5880 lossy substrate with a copper-based metallic structure at 5.8 GHz within the microwave frequency region. The resonant frequency, negative permittivity, near-zero permeability, and negative refractive index are between 5.5-6.3 GHz. This proposed metamaterial structure is analysed with array structures, different substrate material, different orientations, and split gaps. 相似文献
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太赫兹超材料吸收器作为一种重要的太赫兹功能器件,被广泛应用于生物医学传感、电磁隐身、军用雷达等多个领域。但这种传统的超材料吸收器结构具有可调谐性差、功能单一、性能指标不足等缺点,已经无法满足复杂多变的电磁环境的要求,因此可调谐超材料吸收器逐渐成为了太赫兹功能器件领域的研究热点。为实现超材料吸收器吸收特性的调谐,通常从调节谐振单元或基底材料的电磁特性或调节超材料结构单元的几何尺寸两个方面出发。设计了一种基于石墨烯和二氧化钒的太赫兹宽带可调谐超材料吸收器。该吸收器由工字型二氧化钒谐振层、连续石墨烯层和被Topas介质隔开的金属反射层组成。数值模拟结果表明,当二氧化钒材料处于全金属状态(电导率为200 000 S·m-1)且石墨烯的费米能级设为0.1 eV时,吸收率超过90%的吸收带宽达到了2.8 THz。通过调节石墨烯的费米能级,使其在0.1~0.3 eV之间变化时,该吸收器的工作频率发生了明显的蓝移。由于二氧化钒材料从绝缘状态到金属状态的相变特性,通过控制电导率使其在100~200 000 S·m-1之间变化时,所提出的宽频结构在反射器和吸收器两种工作状态之间自由切换。此外,还分别监测了该超材料吸收器在1.87,3.04和4.16 THz三个完美吸收峰处的表面电流分布,讨论了其工作机理。所设计的结构通过石墨烯和二氧化钒两个独立可调“开关”实现了对吸收器工作频率和吸收振幅的双重控制,为设计多功能太赫兹器件提供了新的发展思路。 相似文献
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This paper reports the design of a multiband metamaterial (MM) absorber in the terahertz region. Theoretical and simulated results show that the absorber has four distinct and strong absorption points at 1.69, 2.76, 3.41 and 5.06 THz, which are consistent with `fingerprints' of some explosive materials. The retrieved material parameters show that the impedance of MM could be tuned to match approximately the impedance of the free space to minimise the reflectance at absorption frequencies and large power loss exists at absorption frequencies. The distribution of the power loss indicates that the absorber is an excellent electromagnetic wave collector: the wave is first trapped and reinforced in certain specific locations and then consumed. This multiband absorber has applications in the detection of explosives and materials characterisation. 相似文献
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We present the design of a multiband left-handed three-dimensional (3D) metamaterial based on improved fishnet structure at terahertz frequencies. The design realizes a three-dimensional material by mechanical stacking of multiple layers. The electromagnetic properties of the metamaterial have been investigated by numerical simulation. The results show that simultaneously negative values of permittivity, permeability and refractive index are found around the frequencies of 0.73, 0.85 and 1.12 THz for the electromagnetic wave normal incidence. The proposed metamaterial with independent polarization and compact effect offers a way to develop THz 3D materials and devices suitable for multifrequencies. 相似文献
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Arising from the proposed Transmission Line(TL) model for ERR and wire structure, a TL model for a metamaterial absorber is proposed. The S-parameters obtained by this TL model demonstrate the same shapes as the simulation. An investigation of the TL model and average absorption power densities shows that the metamaterial absorber does not simply convert the electromagnetic wave into thermal energy, but concen- trate the electromagnetic wave into a small space where it is finally absorbed. This suggests that the metamaterial absorber can be applied to solar cells for the purpose of light trapping. 相似文献
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Three-dimensional surface current loops in broadband responsive negative refractive metamaterial with isotropy 下载免费PDF全文
We propose a bulk negative refractive index (NRI) metamaterial composed of periodic array of tightly coupled metallic cross-pairs printed on the six sides of a cube for applications of superlenses. The structural characteristics of the three-dimensional (3D) metamaterial consist in the high symmetry and the superposition of metallic cross-pairs, which can increase the magnetic inductive coupling between adjacent cross-pairs and realize a broadband and isotropic NRI. The proposed 3D structure is simulated using the CST Microwave Studio 2006 to verify the design validity. The simulation results show that the proposed structure can not only realize simultaneously an electric and magnetic response to an incident electromagnetic (EM) wave, but also exhibit a broadband NRI whose relative bandwidth can reach up to 56.7%. In addition, the NRI band is insensitive to the polarization and the incident angle of the incident EM wave. Therefore, the proposed metamaterial is a good candidate material as three-dimensional broadband isotropic NRI metamaterial. 相似文献