Fluid-enabled significant enhancement and active tuning of magnetic resonances in free-standing plasmonic metamaterials

Eunice Sok Ping Leong; Yan Jun Liu; Jie Deng

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Fluid-enabled significant enhancement and active tuning of magnetic resonances in free-standing plasmonic metamaterials

机译：Fluid-enabled显著增强和活跃调优自立式磁力共振电浆超材料

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摘要

We report significantly enhanced magnetic resonance by fluid infiltration in a free-standing metamaterial that consists of metal-dielectric-metal films on an ultrathin Si3N4 membrane patterned with etched through nanohole arrays, When different fluids are drop-casted on the structure, the magnetic resonance has high sensitivities of 282 nm per RiU in peak shift and 12% per RIU in peak intensity change, whereas the electric resonance has nearly no changes. This work shows a promising way of using fluids to actively tune the magnetic resonance of metamaterial structures by combining with micro/nano-fluidic technologies.

机译：我们报告显著增强的磁性共振通过液体渗透由独立的超材料超薄metal-dielectric-metal电影氮化硅膜的蚀刻nanohole数组,当不同的液体drop-casted结构,磁共振具有较高的敏感性为282海里RiU峰转变和12%每RiU峰强度变化,而电共振几乎没有变化。承诺的方式使用液体积极调整超材料结构的核磁共振结合微/ nano-fluidic技术。

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来源
《Nanoscale》 |2014年第19期|11106-11111|共6页
作者
Eunice Sok Ping Leong; Yan Jun Liu; Jie Deng;
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作者单位

Institute of Materials Research and Engineering, Agency for Science, Technology and Research (A*STAR), 3 Research Link, Singapore 117602, Singapore.;

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正文语种英语
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关键词
left-handed materials; Fluid; ELECTRIC RESONANCEFREE STANDINGFluid infiltrationtuningHIGH SENSITIVITYMagnetic Resonancepeak shift;

机译：左手材料;流体;电动RESONANCEFREESENSITIVITYMagnetic Resonancepeak转变;

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Fluid-enabled significant enhancement and active tuning of magnetic resonances in free-standing plasmonic metamaterials

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