Enhanced third harmonic generation with graphene metasurfaces
Boyuan Jin, Tianjing Guo, and Christos Argyropoulos

TL;DR
This paper presents ultrathin graphene-based metasurfaces that significantly enhance third harmonic generation at THz frequencies by exploiting localized plasmons and tunable resonances, enabling efficient, adjustable nonlinear optical sources.
Contribution
The work introduces a novel design of graphene metasurfaces that dramatically boosts THG efficiency and allows frequency tuning without changing the physical structure.
Findings
THG efficiency increased by several orders of magnitude
Resonant frequency tunable via Fermi energy adjustment
Potential applications in THz spectroscopy and imaging
Abstract
The nonlinear responses of different materials provide useful mechanisms for optical switching, low noise amplification, and harmonic frequency generation. However, the nonlinear processes usually have an extremely weak nature and require high input power to be excited. To alleviate this severe limitation, we propose new designs of ultrathin nonlinear metasurfaces composed of patterned graphene micro-ribbons to significantly enhance third harmonic generation (THG) at far-infrared and terahertz (THz) frequencies. The incident wave is tightly confined and significantly boosted along the surface of graphene in these configurations due to the excitation of highly localized plasmons. The bandwidth of the resonant response becomes narrower due to the introduction of a metallic substrate below the graphene micro-ribbons, which leads to zero transmission and standing waves inside the…
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