Thin-film optics

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Dichroic filters are created using thin film optics.
Thin film interference caused by ITO defrosting coating on an Airbus cockpit window. The film thickness is intentionally non-uniform to prevent uneven removal of ice/frost.
A pattern of coloured light formed by interference between white light being reflected from the surface of a thin film of diesel fuel on the surface of water, and the diesel-water interface.
Hafnium oxidized ingots which exhibits thin film optical effects.

Thin-film optics is the branch of optics that deals with very thin structured layers of different materials.[1] In order to exhibit thin-film optics, the thickness of the layers of material must be on the order of the wavelengths of visible light (about 500 nm). Layers at this scale can have remarkable reflective properties due to light wave interference and the difference in refractive index between the layers, the air, and the substrate. These effects alter the way the optic reflects and transmits light. This effect, known as thin-film interference, is observable in soap bubbles and oil slicks.

More general periodic structures, not limited to planar layers, are known as photonic crystals.

In manufacturing, thin film layers can be achieved through the deposition of one or more thin layers of material onto a substrate (usually glass). This is most often done using a physical vapor deposition process, such as evaporation or sputter deposition, or a chemical process such as chemical vapor deposition.

Thin films are used to create optical coatings. Examples include low emissivity panes of glass for houses and cars, anti-reflective coatings on glasses, reflective baffles on car headlights, and for high precision optical filters and mirrors. Another application of these coatings is spatial filtering.[2]

Examples in the natural world

Thin-film layers are common in the natural world. Their effects produce colors seen in soap bubbles and oil slicks, as well as the structural coloration of some animals. The wings of many insects act as thin-films, because of their minimal thickness. This is clearly visible in the wings of many flies and wasps. In butterflies, the thin-film optics is visible when wing itself is not covered by wing scales, which is the case in the blue wing spots of the Aglais io and the blue-green patches of the Graphium sarpedon.[3]

See also

References

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Further reading

  • M. F. Land (1972). "The physics and biology of animal reflectors," Progress in Biophysics and Molecular Biology, 24:75–106. doi:10.1016/0079-6107(72)90004-1 . An excellent introduction to thin-film optics, with a focus on biology. Cites more rigorous treatments.
  • Z. Knittl: Optics of thin films, Wiley, 1981.
  • D.G. Stavenga, "Thin film and multilayer optics cause structural colors of many insects and birds" Materials Today: Proceedings 1S, 109 – 121 (2014).
  • I. Moreno, et al., "Thin-film spatial filters," Optics Letters 30, 914–916 (2005)
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