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Unlike most natural colours that are based on pigment absorption, the striking iridescent and intense colouration of many butterflies, birds or beetles stems from the interaction of light with periodic sub-micrometer surface or volume patterns, so called photonic structures. These structural colours are increasingly well understood, but they are difficult to create artificially and exploit technologically.In this thesis the field of natural structural colours and biomimetic photonic structures is covered in a wide scope, ranging from plant photonics to theoretical optics. It demonstrates diffractive elements on the petal surfaces of many flowering plant species; these form the basis for the study of the role of structural colours in pollinator attraction.Self-assembly techniques, combined with scale able nanofabrication methods, were used to create complex artificial photonic structures inspired by those found in nature. In particular, the colour effect of a Papilio butterfly was mimicked and, by variation of its design motive, enhanced. All photonic effects described here are underpinned by state-of-the-art model calculations.
Ranging from plant photonics to theoretical optics, this book covers natural structural colours and biomimetic photonic structures as well complex artificial photonic structures. The photonic effects discussed are supported by state-of-the-art calculations.
1. Theoretical Aspects of Photonic Structures2. Structure Colours in Nature3. Materials and Techniques4. Static and Tuneable One-Dimensional Photonic Structures5. Microfabrication of Photonic Structures with Higher Dimensionality6. Mimicry of Papilio blumei's Colourful Wing Scale Structure7. Conclusions and Future Work8. Acknowledgements9. Related PublicationUnlike most natural colours that are based on pigment absorption, the striking iridescent and intense colouration of many butterflies, birds or beetles stems from the interaction of light with periodic sub-micromel³@Copyright © 2018 - 2024 ShopSpell