Add to ORKGWe studied the structural as well as spatial and spectral reflectance characteristics of the wing scales of lycaenid butterfly species, where the scale bodies consist of perforated multilayers. The extent of the spatial scattering profiles was measured with a newly built scatterometer. The width of the reflectance spectra, measured with a microspectrophotometer, decreased with the degree of perforation, in agreement with the calculations based on multilayer theory.
The colors of butterfly wings are determined by the structural as well as pigmentary properties of t...
Butterfly wings often feature multilayer thin-film (approximately 0.1 μm) structures within its scal...
The colors of butterfly wings are determined by the structural as well as pigmentary properties of t...
We studied the structural as well as spatial and spectral reflectance characteristics of the wing sc...
microspectrophotometry of lycaenid butterfly wing scales with perforated multilayer
We studied the structural as well as spatial and spectral reflectance characteristics of the wing sc...
We studied the structural as well as spatial and spectral reflectance characteristics of the wing sc...
We studied the structural as well as spatial and spectral reflectance characteristics of the wing sc...
We studied the structural as well as spatial and spectral reflectance characteristics of the wing sc...
We describe an imaging scatterometer allowing hemispherical reflectance measurements as a function o...
We describe an imaging scatterometer allowing hemispherical reflectance measurements as a function o...
The angular and spectral reflectance of single scales of five different butterfly species was measur...
The angular and spectral reflectance of single scales of five different butterfly species was measur...
The colors of butterfly wings are determined by the structural as well as pigmentary properties of t...
Butterfly wings often feature multilayer thin-film (approximately 0.1 μm) structures within its scal...
The colors of butterfly wings are determined by the structural as well as pigmentary properties of t...
Butterfly wings often feature multilayer thin-film (approximately 0.1 μm) structures within its scal...
The colors of butterfly wings are determined by the structural as well as pigmentary properties of t...
We studied the structural as well as spatial and spectral reflectance characteristics of the wing sc...
microspectrophotometry of lycaenid butterfly wing scales with perforated multilayer
We studied the structural as well as spatial and spectral reflectance characteristics of the wing sc...
We studied the structural as well as spatial and spectral reflectance characteristics of the wing sc...
We studied the structural as well as spatial and spectral reflectance characteristics of the wing sc...
We studied the structural as well as spatial and spectral reflectance characteristics of the wing sc...
We describe an imaging scatterometer allowing hemispherical reflectance measurements as a function o...
We describe an imaging scatterometer allowing hemispherical reflectance measurements as a function o...
The angular and spectral reflectance of single scales of five different butterfly species was measur...
The angular and spectral reflectance of single scales of five different butterfly species was measur...
The colors of butterfly wings are determined by the structural as well as pigmentary properties of t...
Butterfly wings often feature multilayer thin-film (approximately 0.1 μm) structures within its scal...
The colors of butterfly wings are determined by the structural as well as pigmentary properties of t...
Butterfly wings often feature multilayer thin-film (approximately 0.1 μm) structures within its scal...
The colors of butterfly wings are determined by the structural as well as pigmentary properties of t...