P. Y. Chen scite author profile

We model and design a graphene-based infrared beamformer based on the concept of leaky-wave (fast traveling wave) antennas. The excitation of infrared surface plasmon polaritons (SPPs) over a ‘one-atom-thick’ graphene monolayer is typically associated with intrinsically ‘slow light’. By modulating the graphene with elastic vibrations based on flexural waves, a dynamic diffraction grating can be formed on the graphene surface, converting propagating SPPs into fast surface waves, able to radiate directive infrared beams into the background medium. This scheme allows fast on–off switching of infrared emission and dynamic tuning of its radiation pattern, beam angle and frequency of operation, by simply varying the acoustic frequency that controls the effective grating period. We envision that this graphene beamformer may be integrated into reconfigurable transmitter/receiver modules, switches and detectors for THz and infrared wireless communication, sensing, imaging and actuation systems.

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Temporal soliton excitation in an ε-near-zero plasmonic metamaterial

Argyropoulos

Chen

D’Aguanno

et al. 2014

Opt. Lett.

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The excitation of temporal solitons in a metamaterial formed by an array of ε-near-zero (ENZ) plasmonic channels loaded with a material possessing a cubic (χ(3)) nonlinearity are theoretically explored. The unique interplay between the peculiar dispersion properties of ENZ channels and their enhanced effective nonlinearity conspires to yield low threshold intensities for the formation of slow group velocity solitons.

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Plasmonic Optical Nanoantennas

Chen

Monticone

Argyropoulos

et al. 2014

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P. Y. Chen

Demonstration of an ultralow profile cloak for scattering suppression of a finite-length rod in free space

Infrared beam-steering using acoustically modulated surface plasmons over a graphene monolayer

Temporal soliton excitation in an ε-near-zero plasmonic metamaterial

Plasmonic Optical Nanoantennas

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