A random find in the washing basket led the team to create the latest in a new breed of materials known as metamaterials. These artificial materials show extraordinary properties quite unlike natural materials.
"Our material can put a twist into light - that is, rotate its polarisation - orders of magnitude more strongly than natural materials," said lead author Mingkai Liu, a PhD student at the
"And we can switch the effect on and off directly with light," said
Electronics is estimated to account for two per cent of the global carbon footprint, a figure which photonics has the potential to reduce significantly. Already light carried by fibre optics, has replaced electricity for carrying signals over long distances. The next step is to develop photonic analogues of electronic computer chips, by actively controlling the properties of light, such as its polarisation.
The ability of a material to rotate polarisation, as in this experiment, springs from the asymmetry of a molecule. It occurs in natural minerals and substances; for example, sugar is asymmetric and so polarisation rotation can be used to measure sugar concentrations, which is useful in diabetes research.
However the remarkable properties of this artificial material might first be put to use in the budding photonics industry, suggests co-author Dr
"It's another completely new tool in the toolbox for processing light," he says. "Thin slices of these materials can replace bulky collections of lenses and mirrors. This miniaturisation could lead to the creation of more compact opto-electronic devices, such as a light-based version of the electronic transistor."
The metamaterials are formed from a pattern of tiny metal shapes, dubbed meta-atoms. To obtain optical rotation
"The high responsiveness of the system comes because it is very easy to make something hanging rotate," says
"The idea came to me when I found a piece of wire in my washing one day."
The fact that the team's meta-atoms move when light shines on them adds a new dimension, he says.
"Because light affects the symmetry of our system, you can tune your material's response simply by shining a light beam on it. Tunability of a metamaterial is an important step towards building devices based on these artificial materials," he says.
Keywords for this news article include: Physics, Photonics, Electronics,
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