We present a semi-analytical model of the resonance phenomena occurring in a hybrid system made of a 1D array of periodic subwavelength slits deposited on an insulator/graphene layer. We show that the spectral response of this hybrid system can be fully explained by a simple semi-analytical model based on a weak and strong couplings between two elementary sub-systems. The first elementary sub-system consists of a 1D array of periodic subwavelength slits viewed as a homogeneous medium. In this medium lives a metal-insulator-metal lattice mode interacting with surface and cavity plasmon modes. A weak coupling with surface plasmon modes on both faces of the perforated metal film leads to a broadband spectrum while a strong coupling between thi...
We present a semi-analytical model that predicts the excitation of surface-plasmon polaritons (SPP)...
We explored a metal-insulator-metasurface structure exhibiting dual-band absorption in the visible a...
Two-dimensional materials support deeply confined and tunable plasmonic modes, which have great pote...
International audienceWe present a semi-analytical model of the resonance phenomena occurring in a h...
International audienceWe present a semi-analytical model of the resonance phenomena occurring in a h...
The recent emergence of nanotechnology offers a new perspective in the field of optics. The study of...
We investigate experimentally Third Harmonic Generation (THG) from plasmonic metasurfaces consisting...
Plasmonic waves are waves of mobile charge carriers caused by their collective oscillations. They ca...
Graphene has emerged as a promising platform to bring nonlinear quantum optics to the nanoscale, whe...
Historically, the field of plasmonics has been relying on the framework of classical electrodynamics...
We analyze the absorption of a graphene nanoribbon placed into an optical cavity. We demonstrate the...
Graphene and its van der Waals (vdW) heterostructures provide a unique and versatile playground for ...
We predict the existence of low-frequency nonlocal plasmons at the vacuum-surface interface of a sup...
We analyze nonlinear optics schemes for generating pairs of quantum entangled plasmons in the terahe...
The coupling of light to surface plasmons through periodic subwavelength metallic structures could s...
We present a semi-analytical model that predicts the excitation of surface-plasmon polaritons (SPP)...
We explored a metal-insulator-metasurface structure exhibiting dual-band absorption in the visible a...
Two-dimensional materials support deeply confined and tunable plasmonic modes, which have great pote...
International audienceWe present a semi-analytical model of the resonance phenomena occurring in a h...
International audienceWe present a semi-analytical model of the resonance phenomena occurring in a h...
The recent emergence of nanotechnology offers a new perspective in the field of optics. The study of...
We investigate experimentally Third Harmonic Generation (THG) from plasmonic metasurfaces consisting...
Plasmonic waves are waves of mobile charge carriers caused by their collective oscillations. They ca...
Graphene has emerged as a promising platform to bring nonlinear quantum optics to the nanoscale, whe...
Historically, the field of plasmonics has been relying on the framework of classical electrodynamics...
We analyze the absorption of a graphene nanoribbon placed into an optical cavity. We demonstrate the...
Graphene and its van der Waals (vdW) heterostructures provide a unique and versatile playground for ...
We predict the existence of low-frequency nonlocal plasmons at the vacuum-surface interface of a sup...
We analyze nonlinear optics schemes for generating pairs of quantum entangled plasmons in the terahe...
The coupling of light to surface plasmons through periodic subwavelength metallic structures could s...
We present a semi-analytical model that predicts the excitation of surface-plasmon polaritons (SPP)...
We explored a metal-insulator-metasurface structure exhibiting dual-band absorption in the visible a...
Two-dimensional materials support deeply confined and tunable plasmonic modes, which have great pote...
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