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Paper detail

Graphene optical-to-thermal converter

Infrared plasmons in doped graphene nanostructures produce large optical absorption that can be used for narrow-band thermal light emission at tunable frequencies that strongly depend on the doping charge. By virtue of Kirchhoff's law, thermal light emission is proportional to the absorption, thus resulting in narrow emission lines associated with the electrically controlled plasmons of heated graphene. Here we show that realistic designs of graphene plasmonic structures can release over 90% of the emission through individual infrared lines with 1% bandwidth. We examine anisotropic graphene structures in which efficient heating can be produced upon optical pumping tuned to a plasmonic absorption resonance situated in the blue region relative to the thermal emission. An incoherent thermal light converter is thus achieved. Our results open a radically different approach for designing tunable nanoscale infrared light sources.

preprint2014arXivOpen access
Alejandro ManjavacasSukosin ThongrattanasiriJean-Jacques GreffetF. Javier García de Abajo
cond-mat.mes-hallphysics.optics
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Alejandro ManjavacasSukosin ThongrattanasiriJean-Jacques GreffetF. Javier García de Abajo

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