2020
DOI: 10.1038/s41598-020-62770-w
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Photonic effects in natural nanostructures on Morpho cypris and Greta oto butterfly wings

Abstract: Photonic crystals are some of the more spectacular realizations that periodic arrays can change the behavior of electromagnetic waves. In nature, so-called structural colors appear in insects and even plants. Some species create beautiful color patterns as part of biological behavior such as reproduction or defense mechanisms as a form of biomimetics. The interaction between light and matter occurs at the surface, producing diffraction, interference and reflectance, and light transmission is possible under sui… Show more

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Cited by 32 publications
(21 citation statements)
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“…[ 40–44 ] Such grating architectures composed of cross‐hatch interior lamellae mutually with perpendicular intersections are also reported for ring‐banded PEA crystallized at T c = 28–30 °C known for displaying bio‐mimetic structures for iridescent properties, [ 39 ] which also resemble some of nature's crystal assemblies for bio‐photonic structures to produce complex light diffractions. [ 44–49 ] Such interior periodic assembly array in PBA ring‐banded spherulites is quite similar to those in beetles’ exoskeleton scales with a photonic crystal structure reported by Bartl, et. al.…”
Section: Resultsmentioning
confidence: 88%
“…[ 40–44 ] Such grating architectures composed of cross‐hatch interior lamellae mutually with perpendicular intersections are also reported for ring‐banded PEA crystallized at T c = 28–30 °C known for displaying bio‐mimetic structures for iridescent properties, [ 39 ] which also resemble some of nature's crystal assemblies for bio‐photonic structures to produce complex light diffractions. [ 44–49 ] Such interior periodic assembly array in PBA ring‐banded spherulites is quite similar to those in beetles’ exoskeleton scales with a photonic crystal structure reported by Bartl, et. al.…”
Section: Resultsmentioning
confidence: 88%
“…Common natural examples of static photonic structures include the alternating layers found in butterfly wings, [2,3] the opal-like structures of bird feathers, [4,5] and beetle carapaces [6,7] (Figure 1a-c). However, biology presents not only static but also dynamic color.…”
Section: Scope Of the Articlementioning
confidence: 99%
“…This periodic modulation creates a “Bragg reflector” that selectively reflects light of wavelengths that fall in the forbidden bandgap of the structure, following Bragg's law (Equation ):λ=2dnavgcosθwhere λ denotes the bandgap's central wavelength, n avg the average refractive index, d the thickness of one periodic structure, and θ the angle of incident light. Common natural examples of static photonic structures include the alternating layers found in butterfly wings, [ 2,3 ] the opal‐like structures of bird feathers, [ 4,5 ] and beetle carapaces [ 6,7 ] ( Figure a–c). However, biology presents not only static but also dynamic color.…”
Section: General Introductionmentioning
confidence: 99%
“…Insects are notable for the diversity of nanostructures with optical activity found on their cuticles, which have been reported to give rise to diffraction, interference, reflectance, and iridescence effects [5] . Such biological nanostructures often lead to striking visual phenomena: for example, the structural coloration [6] and iridescence of the wings of Morpho butterflies [7,8] is attributed to multiple slit interference effects from light interactions with periodic grating-like structures.…”
Section: Introductionmentioning
confidence: 99%