Significantly enhanced transmission achieved with double-layered metallic aperture arrays with sub-skin-depth Ag film 被引量：1

Significantly enhanced transmission achieved with double-layered metallic aperture arrays with sub-skin-depth Ag film

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摘要 We present both theoretical and experimental investigation on significantly enhanced transmission through （Ag/Au） double-layered metallic aperture arrays with sub-skin-depth Ag film due to the coupling role of a surface plasmon polariton at the Ag/Au interface by evanescent waves. The results indicate that the enhanced transmittance is highly dependent on the Ag film thickness. When the Ag film thickness increases, the peak transmit- tance firstly increases and then decreases. Moreover, other metal material properties are also discussed. The highest peak transmittance is obtained when the Ag film thickness is 4 nm. The finite-difference time-domain simulations agree well with the experimental results. This finding provides an effective way to control the enhanced transmis- sion for double-layered metallic aperture arrays, which has potential applications in designing a high-performance plasmonic thermal emitter. We present both theoretical and experimental investigation on significantly enhanced transmission through （Ag/Au） double-layered metallic aperture arrays with sub-skin-depth Ag film due to the coupling role of a surface plasmon polariton at the Ag/Au interface by evanescent waves. The results indicate that the enhanced transmittance is highly dependent on the Ag film thickness. When the Ag film thickness increases, the peak transmit- tance firstly increases and then decreases. Moreover, other metal material properties are also discussed. The highest peak transmittance is obtained when the Ag film thickness is 4 nm. The finite-difference time-domain simulations agree well with the experimental results. This finding provides an effective way to control the enhanced transmis- sion for double-layered metallic aperture arrays, which has potential applications in designing a high-performance plasmonic thermal emitter.

作者肖功利杨宏艳

机构地区 School of Information and Communication School of Computer Science and Engineering

出处《Journal of Semiconductors》 EI CAS CSCD 2012年第12期1-4,共4页 半导体学报（英文版）

关键词 optics at surfaces surface plasmon polariton coupling sub-skin-depth FDTD method double-layeredmetallic aperture arrays enhanced transmission optics at surfaces surface plasmon polariton coupling sub-skin-depth FDTD method double-layeredmetallic aperture arrays enhanced transmission

分类号 O484.4 [理学—固体物理]

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参考文献2

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2012年第12期

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