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本文引用的文献

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Optical diffraction by the microstructure of the wing of a moth.飞蛾翅膀微观结构产生的光学衍射。
Appl Opt. 1995 Sep 20;34(27):6049-57. doi: 10.1364/AO.34.006049.
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Light and color on the wing: structural colors in butterflies and moths.翅膀上的光与色:蝴蝶和蛾类的结构色
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Polarization-sensitive color mixing in the wing of the Madagascan sunset moth.马达加斯加日落蛾翅膀中的偏振敏感颜色混合。
Opt Express. 2007 Mar 5;15(5):2691-701. doi: 10.1364/oe.15.002691.
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Sculpted-multilayer optical effects in two species of Papilio butterfly.两种凤蝶的雕刻多层光学效应。
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5
A review of the diversity and evolution of photonic structures in butterflies, incorporating the work of John Huxley (The Natural History Museum, London from 1961 to 1990).对蝴蝶光子结构的多样性与进化的综述,其中纳入了约翰·赫胥黎(1961年至1990年任职于伦敦自然历史博物馆)的研究成果。
Philos Trans R Soc Lond B Biol Sci. 2008 Jul 27;363(1502):2465-80. doi: 10.1098/rstb.2007.2258.
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Gyroid cuticular structures in butterfly wing scales: biological photonic crystals.蝴蝶翅膀鳞片中的回旋状表皮结构:生物光子晶体
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Metal slits and liquid crystals at microwave frequencies.微波频率下的金属狭缝与液晶
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8
Anatomically diverse butterfly scales all produce structural colours by coherent scattering.在解剖学上形态各异的蝴蝶鳞片均通过相干散射产生结构色。
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Directionally controlled fluorescence emission in butterflies.蝴蝶中定向控制的荧光发射
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Wavelength-selective and anisotropic light-diffusing scale on the wing of the Morpho butterfly.闪蝶翅膀上的波长选择性和各向异性光散射鳞片。
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一种利用光和微波进行表征的生物亚微米厚度光学宽带反射器。

A biological sub-micron thickness optical broadband reflector characterized using both light and microwaves.

作者信息

Vukusic P, Kelly R, Hooper I

机构信息

School of Physics, University of Exeter, Exeter EX4 4QL, UK.

出版信息

J R Soc Interface. 2009 Apr 6;6 Suppl 2(Suppl 2):S193-201. doi: 10.1098/rsif.2008.0345.focus. Epub 2008 Nov 28.

DOI:10.1098/rsif.2008.0345.focus
PMID:19042180
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2706481/
Abstract

Broadband optical reflectors generally function through coherent scattering from systems comprising one of three designs: overlapped; chirped; or chaotic multilayer reflectors. For each, the requirement to scatter a broad band of wavelengths is met through the presence of a variation in nanostructural periodicity running perpendicular to the systems' outer surfaces. Consequently, the requisite total thickness of the multilayer can often be in excess of 50 mum. Here, we report the discovery and the microwave-assisted characterization of a natural system that achieves excellent optical broadband reflectivity but that is less than 1 mum thick. This system, found on the wing scales of the butterfly Argyrophorus argenteus, comprises a distinctive variation in periodicity that runs parallel to the reflecting surface, rather than perpendicular to it. In this way, the requirement for an extensively thick system is removed.

摘要

宽带光学反射器通常通过由三种设计之一组成的系统进行相干散射来发挥作用

重叠式、啁啾式或混沌多层反射器。对于每一种,通过存在垂直于系统外表面的纳米结构周期性变化来满足散射宽波段波长的要求。因此,多层结构所需的总厚度通常可能超过50微米。在这里,我们报告了一种天然系统的发现及其微波辅助表征,该系统实现了优异的光学宽带反射率,但厚度小于1微米。这个系统是在蝴蝶银斑蝶的翅鳞上发现的,它包含一种与反射面平行而非垂直的独特周期性变化。通过这种方式,消除了对非常厚的系统的需求。