Not really, but yes really. an interesting read - to do with LED lights, thought id share it here as its kinda on topic.
Full story here http://news.bbc.co.uk/1/hi/sci/tech/4443854.stm
When scientists developed an efficient device for emitting light, they hadn't realised butterflies have been using the same method for 30 million years.
Fluorescent patches on the wings of African swallowtail butterflies work in a very similar way to high emission light emitting diodes (LEDs).
These high emission LEDs are an efficient variation on the diodes used in electronic equipment and displays.
The University of Exeter, UK, research appears in the journal Science.
In 2001, Alexei Erchak and colleagues at the Massachusetts Institute of Technology (MIT) demonstrated a method for building a more efficient LED.
Most light emitted from standard LEDs cannot escape, resulting in what scientists call a low extraction efficiency of light.
Ingenious design
The LED developed at MIT used a two-dimensional (2D) photonic crystal - a triangular lattice of holes etched into the LED's upper cladding layer - to enhance the extraction of light.
And layered structures called Bragg reflectors were used to control the emission direction. These high emission devices potentially offer a huge step up in performance over standard types.
Pete Vukusic and Ian Hooper at Exeter have now shown that swallowtail butterflies evolved an identical method for signalling to each other in the wild.
Swallowtails belonging to the Princeps nireus species live in eastern and central Africa. They have dark wings with bright blue or blue-green patches.
The wing scales on these swallowtails act as 2D photonic crystals, infused with pigment and structured in such a way that they produce intense fluorescence.
Pigment on the butterflies' wings absorbs ultra-violet light which is then re-emitted, using fluorescence, as brilliant blue-green light.
Performance-enhancing bugs
Most of this light would be lost were it not for the pigment being located in a region of the wing which has evenly spaced micro-holes through it.
Full story here http://news.bbc.co.uk/1/hi/sci/tech/4443854.stm
When scientists developed an efficient device for emitting light, they hadn't realised butterflies have been using the same method for 30 million years.
Fluorescent patches on the wings of African swallowtail butterflies work in a very similar way to high emission light emitting diodes (LEDs).
These high emission LEDs are an efficient variation on the diodes used in electronic equipment and displays.
The University of Exeter, UK, research appears in the journal Science.
In 2001, Alexei Erchak and colleagues at the Massachusetts Institute of Technology (MIT) demonstrated a method for building a more efficient LED.
Most light emitted from standard LEDs cannot escape, resulting in what scientists call a low extraction efficiency of light.
Ingenious design
The LED developed at MIT used a two-dimensional (2D) photonic crystal - a triangular lattice of holes etched into the LED's upper cladding layer - to enhance the extraction of light.
And layered structures called Bragg reflectors were used to control the emission direction. These high emission devices potentially offer a huge step up in performance over standard types.
Pete Vukusic and Ian Hooper at Exeter have now shown that swallowtail butterflies evolved an identical method for signalling to each other in the wild.
Swallowtails belonging to the Princeps nireus species live in eastern and central Africa. They have dark wings with bright blue or blue-green patches.
The wing scales on these swallowtails act as 2D photonic crystals, infused with pigment and structured in such a way that they produce intense fluorescence.
Pigment on the butterflies' wings absorbs ultra-violet light which is then re-emitted, using fluorescence, as brilliant blue-green light.
Performance-enhancing bugs
Most of this light would be lost were it not for the pigment being located in a region of the wing which has evenly spaced micro-holes through it.
Yeah, its a neat article. BBC news is my home page.
After i read that it took me down the path of bragg reflectors and bragg gratings. There is a lot of research being done on optics. It seems new stuff is coming faster than it can be read.
Check this out:
http://micro.magnet.fsu.edu/primer/java/filters/lctf/index.html
It makes
After i read that it took me down the path of bragg reflectors and bragg gratings. There is a lot of research being done on optics. It seems new stuff is coming faster than it can be read.
Check this out:
http://micro.magnet.fsu.edu/primer/java/filters/lctf/index.html
It makes
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