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Laser nano-technology inspired by butterflies

Laser nano-technology has been used to create a device smaller than a human hair, in an effort to make optical communication faster and safer.

Researchers from Swinburne University of Technology in Australia and Friedrich-Alexander Universität Erlangen-Nürnberg in Germany mimicked microscopic structures on the wings of a butterfly to create the photonic crystal which can split both left and right circularly polarised light.

The design for this crystal was inspired by the Callophrys Rubi butterfly, also known as the Green Hairstreak. This butterfly has 3D nano-structures within its wings which give them their vibrant green colour. Other insects also have nano-structures that provide colour, but the Callophrys Rubi has one important difference.

'This butterfly's wing contains an immense array of interconnected nano-scale coiled springs that form a unique optical material. We used this concept to develop our photonic crystal device,' said Swinburne PhD graduate, Mark Turner.

Using 3D laser nano-technology, the Swinburne researchers built a photonic crystal with properties that don't exist in naturally occurring crystals, specifically one that works with circular polarisation. This miniature device contains over 750,000 tiny polymer nano-rods.

The photonic crystal acts as a miniature polarising beamsplitter, similar to a device invented by Scottish scientist William Nicol in 1828. Polarising beamsplitters used in modern technology – such as telecommunications, microscopy and multimedia - are built from naturally occurring crystals, which work for linearly polarised light but not circularly polarised light.

'We believe we have created the first nano-scale photonic crystal chiral beamsplitter,' Professor Min Gu, director of the Centre for Micro-Photonics at Swinburne, said.

'It has the potential to become a useful component for developing integrated photonic circuits that play an important role in optical communications, imaging, computing and sensing.

'The technology offers new possibilities for steering light in nano-photonic devices and takes us a step closer towards developing optical chips that could overcome the bandwidth bottleneck for ultra-high speed optical networks.' 

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