Bio-Inspired Band-Gap Tunable Elastic Optical Multilayer Fibers

The concentrically‐layered photonic structure found in the tropical fruit Margaritaria nobilis serves as inspiration for photonic fibers with mechanically tunable band‐gap. The fibers show the spectral filtering capabilities of a planar Bragg stack while the microscopic curvature decreases the stron...

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Veröffentlicht in:	Advanced materials (Weinheim) 2013-04, Vol.25 (15), p.2239-2245
Hauptverfasser:	Kolle, Mathias, Lethbridge, Alfred, Kreysing, Moritz, Baumberg, Jeremy J., Aizenberg, Joanna, Vukusic, Peter
Format:	Artikel
Sprache:	eng
Schlagworte:	bandgap-tuning biooptics biophotonics Communications Curvature cylindrical Bragg fibers Elasticity Elongation Embryophyta - chemistry Fibers Filtering Fruit - chemistry Multilayers Optical Fibers photonic fibers Photonics Photons Spectra
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creator	Kolle, Mathias Lethbridge, Alfred Kreysing, Moritz Baumberg, Jeremy J. Aizenberg, Joanna Vukusic, Peter
description	The concentrically‐layered photonic structure found in the tropical fruit Margaritaria nobilis serves as inspiration for photonic fibers with mechanically tunable band‐gap. The fibers show the spectral filtering capabilities of a planar Bragg stack while the microscopic curvature decreases the strong directional chromaticity associated with flat multilayers. Elongation of the elastic fibers results in a shift of the reflection of over 200 nm.
doi_str_mv	10.1002/adma.201203529
format	Article
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subjects	bandgap-tuning biooptics biophotonics Communications Curvature cylindrical Bragg fibers Elasticity Elongation Embryophyta - chemistry Fibers Filtering Fruit - chemistry Multilayers Optical Fibers photonic fibers Photonics Photons Spectra
title	Bio-Inspired Band-Gap Tunable Elastic Optical Multilayer Fibers
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