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Highly efficient graphene terahertz modulator with tunable electromagnetically induced transparency-like transmission

Myunghwan Kim, Seong‐Han Kim, Chul Kang, Soeun Kim, Chul‐Sik Kee, Soeun Kim, Chul‐Sik Kee

2023Scientific Reports29 citationsDOIOpen Access PDF

Abstract

Graphene-based optical modulators have been extensively studied owing to the high mobility and tunable permittivity of graphene. However, weak graphene-light interactions make it difficult to achieve a high modulation depth with low energy consumption. Here, we propose a high-performance graphene-based optical modulator consisting of a photonic crystal structure and a waveguide with graphene that exhibits an electromagnetically-induced-transparency-like (EIT-like) transmission spectrum at terahertz frequency. The high quality-factor guiding mode to generate the EIT-like transmission enhances light-graphene interaction, and the designed modulator achieves a high modulation depth of 98% with a significantly small Fermi level shift of 0.05 eV. The proposed scheme can be utilized in active optical devices that require low power consumption.

Topics & Concepts

GrapheneTerahertz radiationElectromagnetically induced transparencyOptoelectronicsModulation (music)Materials scienceElectro-optic modulatorTransmission (telecommunications)Optical modulatorSlow lightAmplitude modulationFermi energyPhotonicsPhotonic crystalOpticsFrequency modulationPhysicsRadio frequencyNanotechnologyTelecommunicationsPhase modulationComputer sciencePhase noiseQuantum mechanicsElectronAcousticsPlasmonic and Surface Plasmon ResearchPhotonic Crystals and ApplicationsMetamaterials and Metasurfaces Applications