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| This is a schematic of active metamaterial which shows enhanced light emission and extraction. |
A City College of New York led-team has successfully demonstrated how to
both enhance light emission and capture light from metamaterials
embedded with light emitting nanocrystals. The breakthrough, headed by
physicist Dr. Vinod Menon, could lead to a range of applications
including ultrafast LEDs, nanoscale lasers and efficient single photon
sources.
In the demonstration, the team used metamaterials having hyperbolic
dispersion to enhance the light emission properties of the nanocrystals
and simultaneously engineered an efficient light extraction scheme.
"The idea of metamaterials in the context of optics is that you can manipulate light and decide how you want it to behave in this medium," said Professor Menon a photonics expert whose specialty includes control of light-matter interaction at the nanoscale.
While enhancement in light emission from such systems was shown by different groups, including Dr. Menon's, in the past, they were not useful since light did not come out easily from them, making their practical application an issue. The present work alleviates this issue and takes the first step towards developing practical light emitters based on metamaterials.
"We've shown both an increase in light emission and were able to extract light." added Professor Menon, whose team included City College PhD students Tal Galfsky and H.N.S. Krishnamoothy
Also part of the research team were scientists from the University of Alberta (Canada), Purdue University in Indiana. Part of the research was also carried out at the Center for Functional Nanomaterials at Brookhaven National Laboratory.
The paper appears in the latest issue of Optica.
"The idea of metamaterials in the context of optics is that you can manipulate light and decide how you want it to behave in this medium," said Professor Menon a photonics expert whose specialty includes control of light-matter interaction at the nanoscale.
While enhancement in light emission from such systems was shown by different groups, including Dr. Menon's, in the past, they were not useful since light did not come out easily from them, making their practical application an issue. The present work alleviates this issue and takes the first step towards developing practical light emitters based on metamaterials.
"We've shown both an increase in light emission and were able to extract light." added Professor Menon, whose team included City College PhD students Tal Galfsky and H.N.S. Krishnamoothy
Also part of the research team were scientists from the University of Alberta (Canada), Purdue University in Indiana. Part of the research was also carried out at the Center for Functional Nanomaterials at Brookhaven National Laboratory.
The paper appears in the latest issue of Optica.
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