Litcius/Paper detail

Thermal metasurface with tunable narrowband absorption from a hybrid graphene/silicon photonic crystal resonance

Arun Nagpal, Ming Zhou, Ognjen Ilic, Zongfu Yu, Harry A. Atwater

2022Optics Express18 citationsDOIOpen Access PDF

Abstract

We report the design of a tunable, narrowband, thermal metasurface that employs a hybrid resonance generated by coupling a tunable permittivity graphene ribbon to a silicon photonic crystal. The gated graphene ribbon array, proximitized to a high quality factor Si photonic crystal supporting a guided mode resonance, exhibits tunable narrowband absorbance lineshapes (Q > 10,000). Actively tuned Fermi level modulation in graphene with applied gate voltage between high absorptivity and low absorptivity states gives rise to absorbance on/off ratios exceeding 60. We employ coupled-mode theory as a computationally efficient approach to elements of the metasurface design, demonstrating an orders of magnitude speedup over typical finite element computational methods.

Topics & Concepts

Materials scienceNarrowbandOpticsPhotonic crystalOptoelectronicsGrapheneSiliconResonance (particle physics)Absorption (acoustics)Guided-mode resonanceNegative refractionRefractive indexFano resonanceDiffraction gratingPlasmonNanotechnologyPhysicsWavelengthParticle physicsThermal Radiation and Cooling TechnologiesMetamaterials and Metasurfaces ApplicationsPlasmonic and Surface Plasmon Research