Mimicking the structure of Morpho butterfly wing surface: a highly reflective nanostructure assembled by nanospheres

IF 1.1 4区 物理与天体物理 Q4 NANOSCIENCE & NANOTECHNOLOGY
Yaohui Wang, Linfeng Jiang, XiaoHong Li
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引用次数: 0

Abstract

Abstract. Inspired by the surface structure of Morpho butterfly wings, we theoretically propose a biomimetic nanosphere structure with high optical reflectivity. By adjusting the geometric parameters and material parameters of the nanostructure, we obtain reflectivity >99  %   in a certain band; the high-reflection bandwidth depends on the period width, filling factor, and number of nanospheres. Its high-reflectivity bandwidth is less dependent on the incidental light angle compared with general single-layer or multilayer coatings for reflection enhancement. Unlike the biomimetic structures that are completely the same as the Morpho butterfly surface, this simplified structure can be assembled in ways other than photolithography and electron-beam lithography. We also analyzed several deviations of the structure, and the results show that our design allowed these deviations, which is helpful to achieving the effect of the structure in the preparation process. At the same time, the equivalent medium theory was used to analyze the nanostructure. The nanosphere structure has excellent potential applications in optical devices that require high reflectivity, such as laser resonant cavity and optical filters.
模拟大闪蝶翅膀表面结构:由纳米球组装的高反射纳米结构
摘要受形态蝶翅膀表面结构的启发,我们从理论上提出了一种具有高光学反射率的仿生纳米球结构。通过调整纳米结构的几何参数和材料参数,我们获得了>99的反射率  %   在某个波段;高反射带宽取决于周期宽度、填充因子和纳米球的数量。与用于增强反射的一般单层或多层涂层相比,其高反射率带宽较少依赖于偶然光角度。与与Morpho蝴蝶表面完全相同的仿生结构不同,这种简化的结构可以通过光刻和电子束光刻以外的方式组装。我们还分析了结构的几个偏差,结果表明我们的设计允许这些偏差,这有助于在制备过程中实现结构的效果。同时,利用等效介质理论对纳米结构进行了分析。纳米球结构在需要高反射率的光学器件中具有极好的潜在应用,如激光谐振腔和光学滤波器。
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来源期刊
Journal of Nanophotonics
Journal of Nanophotonics 工程技术-光学
CiteScore
2.60
自引率
6.70%
发文量
42
审稿时长
3 months
期刊介绍: The Journal of Nanophotonics publishes peer-reviewed papers focusing on the fabrication and application of nanostructures that facilitate the generation, propagation, manipulation, and detection of light from the infrared to the ultraviolet regimes.
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