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Transmission enhancement properties of double-layered metallic hole arrays 被引量:2

Transmission enhancement properties of double-layered metallic hole arrays
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摘要 We report experimental results on enhanced light transmission through double-layered (Ag/Au) metallic hole arrays within a skin-depth. Zero-order transmission spectrums are characterized as a function of Ag film's thickness, which extends from 5/15, 5/6 to approximately 5, where 5 is a skin-depth. In contrast with other reported results (Refs. [11 - 13]) in single-layered metallic hole arrays, our experimental results show much more dramatic properties of transmission process dependent on sub-5 thickness. It is shown that there is no negligible transmission enhancement at 5/15. At 5/6, much higher transmission efficiency can be achieved. With film's thickness being close to 5, the transmission efficiency declines contrarily. Simultaneously, the corresponding resonant peak also slightly moves toward the shorter wavelength. It is proposed that the coupling of surface plasmon polaritons (SPPs) at Ag/Au interface within 5 is involved in the process. We report experimental results on enhanced light transmission through double-layered (Ag/Au) metallic hole arrays within a skin-depth. Zero-order transmission spectrums are characterized as a function of Ag film's thickness, which extends from 5/15, 5/6 to approximately 5, where 5 is a skin-depth. In contrast with other reported results (Refs. [11 - 13]) in single-layered metallic hole arrays, our experimental results show much more dramatic properties of transmission process dependent on sub-5 thickness. It is shown that there is no negligible transmission enhancement at 5/15. At 5/6, much higher transmission efficiency can be achieved. With film's thickness being close to 5, the transmission efficiency declines contrarily. Simultaneously, the corresponding resonant peak also slightly moves toward the shorter wavelength. It is proposed that the coupling of surface plasmon polaritons (SPPs) at Ag/Au interface within 5 is involved in the process.
作者 肖功利 姚翔 纪新明 周嘉 包宗明 黄宜平
机构地区 The State Key Laboratory of ASIC and System The State Key Laboratory of ASIC and System
出处 《Chinese Optics Letters》 SCIE EI CAS CSCD 2008年第10期791-793,共3页 中国光学快报(英文版)
基金 the National Natural Science Foundation of China(No.90607015) the Doctoral Fund of Ministry of Education of China(No.20070246099)
关键词 Light transmission Metallic soaps SKIN Light transmission Metallic soaps Skin
分类号 TN25 [电子电信—物理电子学]
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参考文献10

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同被引文献15

  • 1王建业,纪新明,吴飞蝶,周嘉,黄宜平.MEMS光声气体传感器光声腔的研究[J].传感器与微系统,2006,25(2):86-88. 被引量:6
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  • 3Kong Secong-Ho,Orreia Jose Higino,de Graaf Ger,et al.Integrated Silicon Microspecrometers[J].IEEE Instrumentation & Measurement Magazine,2001,9:34-38.
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  • 5Ye Yong-Hong,Zhang Jia-Yu.Enhanced Light Transmission Through Cascaded Metal Films Perforated with Periodic Hole Arrays[J].Opt,Lett,2005,30(12):1521-1523.
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  • 7Xiao Gongli,Yao Xiang,Ji Xinming,et al.Effect of the Ratio of Hole Radius to Lattice Spacing on Transmission Characteristics for Metal/Dielectric Photonic Crystal[C] //Beijing 2008 9th international conference on Solid-State and Integrated Circuit Technology,IEEE press Vol.Ⅲ.PP.1025-1028.
  • 8Ghang S H,Gray S K,Schatz G C.Surface Plasmon Generation and Light Transmission by Isolated Nanoholes and Arrays of Nanoholes in Thin Metal Films[J].Opt,Express,2005,13:3150-3165.
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  • 10Visser T D.Surface Plasmons at Work[J].Nature Phys,2006,2:509 -510.

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Chinese Optics Letters
2008年 第10期

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