Plasmonic excitations in ordered assemblies of metallic nanoshells

机译：金属纳米壳有序组装中的等离子激发

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Periodic nanostructures for plasmonic engineering, comprising one or two types of silica core - metallic shell spherical particles, are studied by means of full electrodynamic calculations using the layer-multiple-scattering method. The complex photonic band structure of such three-dimensional crystals is analyzed in conjunction with relevant transmission spectra of corresponding finite slabs and the physical origin of the different optical modes is elucidated, providing a consistent interpretation of the underlying physics. In the case of binary structures, collective plasmonic modes originating from the two building components coexist, leading to broadband absorption and a rich structure of resonances and hybridization gaps over an extended frequency range.

机译：使用层-多重散射方法，通过完全电动力学计算，研究了包括一种或两种类型的二氧化硅核（金属壳球形颗粒）的等离子工程学的周期性纳米结构。结合相应的有限平板的透射光谱，分析了此类三维晶体的复杂光子能带结构，并阐明了不同光学模式的物理起源，为基础物理学提供了一致的解释。在二元结构的情况下，源自两个建筑成分的集体等离激元模式共存，从而导致宽带吸收以及在扩展频率范围内的丰富共振和杂交间隙结构。

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来源
《Photonic Crystal Materials and Devices VIII》|2008年|51-52|共8页
会议地点 Strasbourg(FR)
作者
N. Stefanou; C. Tserkezis; G. Gantzounis;
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作者单位

Section of Solid State Physics, University of Athens, Panepistimioupolis, GR-157 84 Athens, Greece;

rnSection of Solid State Physics, University of Athens, Panepistimioupolis, GR-157 84 Athens, Greece;

rnSection of Solid State Physics, University of Athens, Panepistimioupolis, GR-157 84 Athens, Greece;

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原文格式 PDF
正文语种 eng
中图分类特种结构材料;
关键词
plasmon; multiple scattering; transmittance; absorbance; band structure; nanoshell; photonic crystal; heterostructure;

机译：等离子体;多重散射;透射率;吸收率;能带结构;纳米壳;光子晶体;异质结构;;

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专利

1. Collective plasmonic modes in ordered assemblies of metallic nanoshells [J] . Tserkezis C, Gantzounis G, Stefanou N Journal of Physics. Condensed Matter . 2008,第7期

机译：金属纳米壳有序组装中的集体等离子体模式
2. Plasmonic interactions between a metallic nanoshell and a thin metallic film [J] . F. Le, N. Z. Lwin, N. J. Halas, Physical review. B, Condensed Matter And Materials Physics . 2007,第16期

机译：金属纳米壳与金属薄膜之间的等离子相互作用
3. Chiral Near-Fields Induced by Plasmonic Chiral Conic Nanoshell Metallic Nanostructure for Sensitive Biomolecule Detection [J] . Qu Yu, Bai Yu, Aba Tudahong, The journal of physical chemistry, C. Nanomaterials and interfaces . 2020,第25期

机译：等粒细胞锥形纳米金属纳米结构诱导的手性近场，用于敏感的生物分子检测
4. Plasmonic excitations in ordered assemblies of metallic nanoshells [C] . Conference on Photonic Crystal Materials and Devices . 2008

机译：金属纳米圆壳有序组装中的等离子体激发
5. Self-assembly on strained metallic interfaces, and, Novel collective excitations on metal surfaces. [D] . Diaconescu, Bogdan. 2007

机译：在应变金属界面上的自组装，以及金属表面上的新型集体激发。
6. Plasmonics enhancement of a luminescent or Raman-active layer in a multilayered metallic nanoshell [O] . Stephen J. Norton, Tuan Vo-Dinh -1

机译：发光或拉曼活性层的等离子体激元增强的多层金属纳米壳
7. Plasmonics enhancement of a luminescent or Raman-active layer in a multilayered metallic nanoshell [O] . Stephen J. Norton, Tuan Vo-Dinh 2009

机译：在多层金属纳米孔中提高发光或拉曼活性层的血管

Plasmonic excitations in ordered assemblies of metallic nanoshells

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