In gemology, chatoyancy (/ʃəˈtɔɪ.ənsi/ shə-TOY-ən-see), also called chatoyance or the cat's eye effect,[1] is an optical reflectance effect seen in certain gemstones, woods, and carbon fiber. Coined from the French œil de chat, meaning 'cat's eye'. The chatoyant effect is typically characterized by one or more well-defined bands of reflected light, reminiscent of a cat's eye, which appear to glide across the material's surface as the chatoyant object or observer shifts position.

Tiger's eye
Tiger's eye

Chatoyancy is caused by either the presence of fibrous structures within the material, such as in tiger's eye quartz, or by fibrous inclusions and cavities, as seen in cat's eye chrysoberyl. In cat's eye chrysoberyl, the chatoyant effect is caused by the presence of rutile, composed mostly of titanium dioxide, which aligns perpendicularly to create the cat's eye appearance.[2][3]

Description

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Chatoyancy in the gemstone chrysoberyl is induced by the presence of the mineral rutile, a mineral primarily composed of titanium dioxide. These rutile precipitates align perpendicularly, contributing to the cat's eye effect.[4] This alignment is attributed to the rutile's lattice parameter, which matches only one of the three orthorhombic crystal axes of chrysoberyl, leading to its preferred orientation in that direction.

Optimal presentation of effect

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A cabochon yellow-green quartz showing the cat's-eye effect.

To bring out the chatoyancy effect, gemstones are typically fashioned into a cabochon cut, characterized by a rounded, flat base rather than facets, with the fibrous structures aligned parallel to the base. High-quality specimens display a single, sharply defined band of light that moves across the stone when rotated, while lower-quality stones may show a banded effect similar to cat's-eye quartz. Faceted stones do not showcase the effect well.

Varieties of chatoyant materials

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Gem species known for this phenomenon include the aforementioned quartz, chrysoberyl, beryl (especially. aquamarine varieties), charoite, tourmaline, labradorite, selenite, feldspar, apatite, moonstone, thomsonite and scapolite amongst others. Chatoyancy is not limited to gemstones but can also be found in various wood species and carbon fiber. Synthetically made gemstones with optical fibers can also have chatoyancy. These gemstones are available in a variety of vibrant colors.[citation needed]

Cat's eye terminology

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Chatoyance on Tiger's Eye

When the term "cat's eye" is used to describe a gemstone by itself, it typically refers to cat's eye chrysoberyl [5][better source needed]. It can also be used as an adjective to indicate the chatoyance phenomenon in another stone, for example, cat's eye aquamarine.

In woodworking

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Chatoyancy in wood occurs in various species[6] – particularly hardwoods and the various types of Nanmu woods of China and South East Asia, particularly where stresses from the weight of the growing tree result in denser patches, or where stresses cause burl or bird’s eye. This ‘figure’, which has a striking three-dimensional appearance, is highly prized by woodworkers and their clients alike, and is featured regularly in furniture, musical instruments, and other decorative wood products. Figuring takes on a variety of forms and is referred to as flame, ribbon, tiger stripe, quilting, among other names.[7]

This effect is sometimes called wet look, since wetting wood with water often displays the chatoyancy, albeit only until the wood dries. Certain finishes cause the wood grain to become more pronounced. Oil finishes, epoxy, and shellac can strongly bring out the wet look effect. When the refractive index of the finish nearly matches that of the wood, light scattering no longer occurs at the wood surface, adding the appearance of depth to the wood's figure.

Measurement

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No method to measure wood chatoyance is unanimously accepted by the scientific community. Some methods have been proposed, such as one named PZC,[8] which was used to measure typical values for a number of wood species; some results are reported below:[9]

Wood
(common name)
PZC average
Afrormosia 14.2
Afzelia 14.1
Alder 15.0
Alder, Red 16.8
Anigre 14.4
Ash, American White 11.5
Ash, European 12.8
Ash, Olive 14.9
Beech, European 10.6
Birch 18.3
Black Locust 16.4
Bocote 11.5
Bog Oak 11.6
Bubinga 19.2
Cedar, European 7.6
Cedar, Spanish 21.3
Cerejeira 14.1
Cherry, Black 18.0
Cherry, Sweet 15.7
Chestnut, Sweet 14.4
Cypress, Mediterranean 9.3
Ebony, Macassar 11.3
Elm 14.5
Etimoe 22.1
Eucalyptus 13.9
Fir, Douglas 11.1
Fir, European Silver 10.0
Granadillo 14.3
Guarea 17.2
Ipe 11.7
Iroko 21.8
Jatoba 17.5
Khaya 23.0
Koa 26.4
Koto 12.5
Larch, European 10.9
Limba 16.1
Limba, Black 18.7
Lime, European 12.2
Louro Faia 17.4
Louro Preto 11.3
Mahogany, Honduras 21.4
Makore 21.0
Mansonia 18.0
Maple, European 14.2
Maple, Hard 16.1
Movingui 15.3
Mulberry 18.2
Oak, Red 12.2
Oak, Sessile 12.6
Obeche 11.1
Okoume 23.6
Olive 8.3
Osage Orange, Green 17.0
Ovangkol 20.0
Padouk 17.4
Pear 10.5
Pine, Swiss Stone 10.7
Pine, unspecified 13.2
Poplar 14.7
Poplar, Yellow 11.9
Purpleheart 13.7
Red Gum 12.6
Rosewood, Cocobolo 9.5
Rosewood, Indian 11.2
Rosewood, Kingwood 14.3
Rosewood, Madagascar 11.7
Rosewood, Santos 12.5
Sapele 20.7
Satinwood 13.9
Spruce, Fiemme 9.3
Sucupira 9.8
Teak 15.7
Tineo 14.7
Walnut, African 20.2
Walnut, Black 18.6
Walnut, European 17.5
Wenge 8.5
Yew 9.8
Zebrawood 19.1
Ziricote 7.0

See also

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  • Asterism (gemology) – Star-shaped reflection
  • Optical phenomena – Observable events that result from the interaction of light and matter

References

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  1. ^ Schumann, Walter; Reinersmann, Daniel (2008). Minerals of the World. Translated by Shea, Elizabeth E. (2nd ed.). New York: Sterling Publishing. p. 19. ISBN 9781402753398.
  2. ^ Mukherjee, Swapna (2011). Applied mineralogy : applications in industry and environment. Dordrecht: Springer. ISBN 978-9400711617.
  3. ^ Hancock, Paul L.; Skinner, Brian J., eds. (2006). "gemstones". The Oxford companion to the earth (1st ed.). Oxford: Oxford Univ. Press. ISBN 9780198540397.
  4. ^ "chrysoberyl", Dictionary Geotechnical Engineering/Wörterbuch GeoTechnik, Berlin, Heidelberg: Springer Berlin Heidelberg, p. 224, 2014, doi:10.1007/978-3-642-41714-6_31903, ISBN 978-3-642-41713-9, retrieved 2023-10-20
  5. ^ "Cymophane gemstone information". www.gemdat.org. Retrieved 2023-10-20.
  6. ^ "Woodworking word of the day: chatoyance | Wood". WOOD Magazine. 2022-05-24. Archived from the original on 24 May 2022. Retrieved 3 August 2022.
  7. ^ "What is Chatoyance? – PZC Chatometry". 2022-01-12. Archived from the original on 12 January 2022. Retrieved 2022-05-24.
  8. ^ Pisani, Paolo; Zanetta, Laura; Codoro, Davide (2021-12-29). "Measuring wood chatoyance". Wood Material Science & Engineering. 18: 277–288. doi:10.1080/17480272.2021.2018625. ISSN 1748-0272. S2CID 245572069.
  9. ^ "PZC Chatometry – A standard system to measure wood chatoyance" (in Italian). Retrieved 2022-01-03.
General
  • Webster, R., Jobbins, E. A. (Ed.). (1998). Gemmologist's compendium. St Edmundsbury Press Ltd, Bury St Edwards.
  • Mitchell, T. et al. Proceedings of the Electron Microscopy Society of America (EMSA), 1982.