
Chinese scientists have discovered a delicate mechanism of tiny hairs in peacock feathers filtering and reflecting different wavelengths of light. According to a study performed by Fudan University physicist Jian Zi and colleagues, published in the journal Proceedings of the National Academy of Sciences, the feathers' bright colors are produced not by pigments, but by tiny, two-dimensional crystal-like structures. (1)
Zi and his colleagues used powerful electron microscopes to reveal the basis of the colors in the feathers. They examined the barbules of the male green peacock (Pavo rnuticus), in other words the even smaller micro hairs that come off of barbs emerging from the

"The male peacock tail contains spectacular beauty because of the brilliant, iridescent, diversified, colorful eye patterns," said Zi, who continued, "when I watched the eye pattern against the sunshine, I was amazed by the stunning beauty of the feathers." (2) Zi stated that until their study, the exact physical mechanism producing the colors in peacock feathers had not been known, and that although the mechanisms they had revealed were simple, they were absolutely ingenious.

The greater part of the color in the peacock feather is based upon structural coloration. There is no pigment in those parts of the feather that exhibit structural coloration, and colors reminiscent of those on the surface of a soap bubble are able to emerge. The color of human hair comes from pigment, and no matter how much care a person may take of his or her hair, it is never as shiny and beautiful as a peacock feather.
It has also been stated that this intelligent design in the peacock can be a source of inspiration in industrial design. Andrew Parker, a zoologist and coloration expert at the University of Oxford, who interpreted Zi's findings says that discovering so-called photonic crystals in peacock feathers could allow scientists to adapt the structures for industrial and commercial applications. These crystals could be used to channel light in telecommunications equipment, or to create new tiny computer chips. (3)
It is clear that the peacock has marvelous patterns and a special design, and that thanks to the imitation of this mechanism, maybe in the near future, we shall see objects and accessories covered in the brightest of coatings. Yet how did such a gorgeous, intelligent and inspirational design first emerge? Could the peacock know that the colors in its feathers depended on crystals and the spaces between them? Could the feather have itself brought the feathers on its body into being and later have decided to add a coloring mechanism to them?
Could it then have arranged that mechanism in such a way as to produce those stunning designs? Of course, not.

He is God - the Creator, the Maker, the Giver of Form. To Him belong the Most Beautiful Names. Everything in the heavens and Earth glorifies Him. He is the Almighty, the All-Wise. (Qur'an, 59:24)
1- Jian Zi et al, "Coloration strategies in peacock feathers", PNAS 2003;100 12576-12578; http://www.pnas.org/cgi/content/abstract/100/22/12576?etoc
2- John Pickrell , "Physics Plucks Secret of Peacock Feather Colors", 17 Ekim 2003, http://news.nationalgeographic.com/news/2003/10/1016_031017_peacockcolors.html
3- Ibid.