Terahertz Response of a Microfabricated Rod-Split-Ring-Resonator Electromagnetic Metamaterial

H.O. Moser; B.D.F. Casse; O. Wilhelmi; B.T. Saw

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Terahertz Response of a Microfabricated Rod-Split-Ring-Resonator Electromagnetic Metamaterial

机译：微型杆-分离-环-共振器电磁超材料的太赫兹响应

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The first electromagnetic metamaterials (EM~3) produced by microfabrication are reported. They are based on the rod-split-ring-resonator design as proposed by Pendry et al. [IEEE Trans. Microwave Theory Tech. 47, 2075 (1999)] and experimentally confirmed by Smith et al. [Phys. Rev. Lett. 84, 4184 (2000)] in the GHz frequency range. Numerical simulation and experimental results from far infrared (FIR) transmission spectroscopy support the conclusion that the microfabricated composite material is EM~3 in the range 1-2.7 THz. This extends the frequency range in which EM~3 are available by about 3 orders of magnitude well into the FIR, thereby widely opening up opportunities to verify the unusual physical implications on electromagnetic theory as well as to build novel electromagnetic and optical devices.

机译：报告了通过微细加工生产的第一种电磁超材料（EM〜3）。它们基于Pendry等人提出的杆裂环谐振器设计。 [IEEE Trans。微波理论技术。 47，2075（1999）]并由Smith等人通过实验证实。 [物理牧师84，4184（2000）]在GHz频率范围内。远红外（FIR）透射光谱的数值模拟和实验结果支持以下结论：微细复合材料的EM〜3在1-2.7 THz范围内。这将EM〜3可用的频率范围扩展到FIR大约3个数量级，从而为核实对电磁理论的异常物理影响以及构建新型的电磁和光学设备提供了广阔的机会。

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来源
《Physical review letters》 |2005年第6期|p.063901.1-063901.4|共4页
作者
H.O. Moser; B.D.F. Casse; O. Wilhelmi; B.T. Saw;
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Singapore Synchrotron Light Source, National University of Singapore, 5 Research Link, Singapore 117603, Republic of Singapore;

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正文语种 eng
中图分类物理学;
关键词
photonic bandgap materials; electromagnetic wave propagation; radiowave propagation; collective excitations (including excitons, polarons, plasmons and other charge-density excitations); optical constants (including refractive index, complex dielectric c;

机译：光子带隙材料;电磁波传播;无线电波传播;集体激发（包括激子;极化子;等离激元和其他电荷密度激发）;光学常数（包括折射率;复介电常数;

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Terahertz Response of a Microfabricated Rod-Split-Ring-Resonator Electromagnetic Metamaterial

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