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The rich photonic world of plasmonic nanoparticle arrays
Materials Today ( IF 21.1 ) Pub Date : 2018-04-01 , DOI: 10.1016/j.mattod.2017.09.002
Weijia Wang , Mohammad Ramezani , Aaro I. Väkeväinen , Päivi Törmä , Jaime Gómez Rivas , Teri W. Odom

Metal nanoparticle arrays that support surface lattice resonances have emerged as an exciting platform for manipulating light–matter interactions at the nanoscale and enabling a diverse range of applications. Their recent prominence can be attributed to a combination of desirable photonic and plasmonic attributes: high electromagnetic field enhancements extended over large volumes with long-lived lifetimes. This Review will describe the design rules for achieving high-quality optical responses from metal nanoparticle arrays, nanofabrication advances that have enabled their production, and the theory that inspired their experimental realization. Rich fundamental insights will focus on weak and strong coupling with molecular excitons, as well as semiconductor excitons and the lattice resonances. Applications related to nanoscale lasing, solid-state lighting, and optical devices will be discussed. Finally, prospects and future open questions will be described.

中文翻译:

等离子体纳米粒子阵列的丰富光子世界

支持表面晶格共振的金属纳米粒子阵列已成为在纳米尺度上操纵光-物质相互作用并实现各种应用的令人兴奋的平台。它们最近的突出可归因于理想的光子和等离子体属性的组合:高电磁场增强扩展到大体积且寿命长。本综述将描述从金属纳米颗粒阵列获得高质量光学响应的​​设计规则、使其生产的纳米制造进展以及激发其实验实现的理论。丰富的基础见解将集中在与分子激子、半导体激子和晶格共振的弱耦合和强耦合上。与纳米级激光相关的应用,将讨论固态照明和光学设备。最后,将描述前景和未来的开放性问题。
更新日期:2018-04-01
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