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How to Trick Light into Flexing its Muscles
Mia Haller철d Palmgren
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How to Trick Light into Flexing its Muscles


[Reproduced from the e-EPS]

This article is a republication from the Chalmers University of Technology.

Enhanced optical force. When light flows into the waveguide made of metamaterial, the photons (yellow) are tricked to move to one side. Here the action is visualised by the rotors (green). When all photons are assembled on the same side, the optical force (blue) between the waveguides is strongly enhanced. The curves (red) show how the light has moved from the middle to the side of the waveguides. Illustration: Sophie Viaene, Lana Descheemaeker and Vincent Ginis.

Light consists of a flow of photons. If two waveguides - cables for light - lie side by side, they attract or repel each other. The interaction is due to the optical force, but the effect is usually extremely small. Physicists at Chalmers University of Technology and Free University of Brussels have now found a method to significantly enhance the optical force. The method opens new possibilities within sensor technology and nanoscience. The results were recently published in the prestigious scientific journal Physical Review Letters.

To make light behave in a completely new way, the scientists have studied waveguides made of an artificial material to trick the photons. The specially designed material makes all the photons move to one side of the waveguide. When the photons in a nearby waveguide do the same, a collection of photons suddenly gather very closely. This enhances the force between the waveguides up to ten times. One can say that the light is flexing its muscles.

"We have found a way to trick the photons so that they cluster together at the inner sides of the waveguides. Photons normally don't prefer left or right, but our metamaterial creates exactly that effect," says Philippe Tassin, Associate Professor at the Department of Physics at Chalmers University of Technology.

Philippe Tassin and Sophie Viaene at Chalmers have together with Lana Descheemaeker and Vincent Ginis at Free University of Brussels developed a method of using the optical force in a completely new way. That force can, for example, be used within sensor technology or to drive nanomotors. In the future, such motors might be used to sort cells or separate particles in medical technology.

"Our method opens up new opportunities for the use of waveguides in a range of technical applications. It is really exciting that man-made materials can change the basic characteristics of light propagation so dramatically," says Vincent Ginis, Assistant Professor at the Department of Physics at Free University of Brussels.

Read the scientific paper "Optical Force Enhancement Using an Imaginary Vector Potential for Photons" in Physical Review Letters.


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