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Using electricity to make a nanoantenna emit light: this is what physicists from the University of Würzburg have accomplished in a world first. They present their antenna measuring just 250 nanometres in the magazine "Nature Photonics".
Electrically powered miniature light sources will be useful in the future, for example, in smartphone displays. Given the increased integration of 3D techniques, the required pixel density should soar in these devices. Nano light sources could also be used on computer chips for low-loss data exchange between processor cores at the speed of light.
Würzburg physicists have shown a way to implementing such light sources in a pioneering piece of work: In the magazine "Nature Photonics" they describe for the first time how light is generated using an electrically powered nanoantenna made of gold. The antenna was developed by Professor Bert Hecht's team and at the Department of Technical Physics.
Applying the laws of antenna technology with light
How does an optical antenna work? "In principle, it works in the same way as its big sister, the radio antenna," Bert Hecht explains: An AC voltage is applied that causes electrons in the metal to oscillate. As a result, the antennas emit electromagnetic waves of a defined shape and wavelength specified by the antenna geometry.
Transferring the laws of antenna technology to light at nano scale is technically challenging. So the Würzburg physicists had to come up with an idea. In the end, a sophisticated nano structure assured their success: Its optical antenna has two arms each fitted with a contact wire and whose ends almost touch.
The tiny space between the arms is prepared with a gold nano particle which touches the one arm and leaves a gap of about one nanometre to the other arm. The gap is so small that electrons can bridge it due to the quantum mechanical tunnel effect when applying voltage, causing oscillations with optical frequencies.
The length of the antenna arms determines the colour of the light
The antenna thus constructed emits electromagnetic waves in the form of visible light. The colour of the light is determined by the length of the antenna arms. "This has allowed us to build the world's most compact electrically powered light source to date whose properties can moreover be controlled by adjusting the antenna geometry," Hecht further.
So in principle, such antennas can be built; however, much work needs yet to be done until they are ready for use. For one thing, the physicists have to further improve the efficiency: Too much electricity is lost as heat when operating the optical antenna. For another, the operational stability has to be increased, as the golden nano structure has only worked for a few hours so far.
“Electrically driven optical antennas”, Johannes Kern, René Kullock, Jord Prangsma, Monika Emmerling, Martin Kamp, and Bert Hecht. Nature Photonics, Advance Online Publication 17 August 2015, DOI: 10.1038/nphoton.2015.141
Contact
Prof. Dr. Bert Hecht, Department of Physics, University of Würzburg, Phone +49 931 31-85863, hecht@physik.uni-wuerzburg.de
A gold particle at its centre: The world's first electrically powered optical antenna was built at t ...
(Picture: Department of Physics)
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The Würzburg nanoantenna measures only 250 nanometres and generates a circular dot of light.
(Picture: Department of Physics)
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Merkmale dieser Pressemitteilung:
Journalisten, jedermann
Elektrotechnik, Informationstechnik, Maschinenbau, Physik / Astronomie, Werkstoffwissenschaften
überregional
Forschungsergebnisse, Wissenschaftliche Publikationen
Englisch
A gold particle at its centre: The world's first electrically powered optical antenna was built at t ...
(Picture: Department of Physics)
None
The Würzburg nanoantenna measures only 250 nanometres and generates a circular dot of light.
(Picture: Department of Physics)
None
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