Add to ORKGThe cellular microstructure of insect scales can be detailed intricately with three-dimensional structures and multiple thin-film layers. In butterflies, iridescent scales can reflect bright colors through thin-film interference and other optical phenomena; the balance of radiation is absorbed for thermoregulatory purposes. Results of numerical and experimental investigations into the function, properties, and structure of these scales are presented. Of particular interest are the numerical modeling of the microscale radiative effects in the scales, determining the optical properties of the biological material, and the cellular development of thin-film structures
Many bright colors in nature are generated by the optical effects of biological structures. These in...
An innovative device for spectral imaging and reflectivity measurements is developed to study irides...
An innovative device for spectral imaging and reflectivity measurements is developed to study irides...
The cellular microstructure of insect scales can be detailed intricately with three-dimensional stru...
Butterfly wings often feature multilayer thin-film (approximately 0.1 μm) structures within its scal...
Butterfly wings often feature multilayer thin-film (approximately 0.1 μm) structures within its scal...
Multilayer thin-film structures in butterfly wing scales produce a colorful iridescence from reflect...
Multilayer thin-film structures in butterfly wing scales produce a colorful iridescence from reflect...
Multilayer thin-film structures in butterfly wing scales produce a colorful iridescence from reflect...
Multilayer thin-film structures in butterfly wing scales produce a colorful iridescence from reflect...
Multilayer thin-film structures in butterfly wing scales produce a colorful iridescence from reflect...
Multilayer thin-film structures in butterfly wing scales produce a colorful iridescence from reflect...
Multilayer structures of biological thin films play numerous roles in insects, plants, lizards, and ...
Regular three-dimensional periodic structures have been observed in the scales of over half a dozen ...
The coloration of butterflies that exhibit human visible iridescence from violet to green has been e...
Many bright colors in nature are generated by the optical effects of biological structures. These in...
An innovative device for spectral imaging and reflectivity measurements is developed to study irides...
An innovative device for spectral imaging and reflectivity measurements is developed to study irides...
The cellular microstructure of insect scales can be detailed intricately with three-dimensional stru...
Butterfly wings often feature multilayer thin-film (approximately 0.1 μm) structures within its scal...
Butterfly wings often feature multilayer thin-film (approximately 0.1 μm) structures within its scal...
Multilayer thin-film structures in butterfly wing scales produce a colorful iridescence from reflect...
Multilayer thin-film structures in butterfly wing scales produce a colorful iridescence from reflect...
Multilayer thin-film structures in butterfly wing scales produce a colorful iridescence from reflect...
Multilayer thin-film structures in butterfly wing scales produce a colorful iridescence from reflect...
Multilayer thin-film structures in butterfly wing scales produce a colorful iridescence from reflect...
Multilayer thin-film structures in butterfly wing scales produce a colorful iridescence from reflect...
Multilayer structures of biological thin films play numerous roles in insects, plants, lizards, and ...
Regular three-dimensional periodic structures have been observed in the scales of over half a dozen ...
The coloration of butterflies that exhibit human visible iridescence from violet to green has been e...
Many bright colors in nature are generated by the optical effects of biological structures. These in...
An innovative device for spectral imaging and reflectivity measurements is developed to study irides...
An innovative device for spectral imaging and reflectivity measurements is developed to study irides...