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Tunable plasmonically induced transparency with giant group delay in gain-assisted graphene metamaterials

Yi Zeng, Zi-xiao Ling, Gui-Dong Liu, Ling-Ling Wang, Qi Lin

2022Optics Express56 citationsDOIOpen Access PDF

Abstract

We propose a graphene metamaterial consisting of several layers of longitudinally separated graphene nanoribbon array embedded into gain-assisted medium, demonstrating electromagnetically induced transparency-like spectra. Combined with finite-difference time-domain simulations, the transfer matrix method and temporal coupled-mode theory are adopted to quantitatively describe its transmission characteristics. These transmission characteristics can be tuned by altering the gain level in medium layer and the Fermi energy level in graphene. Additionally, it is the incorporation between gain medium and graphene nanoribbons with optimized geometrical parameters and Fermi energy level that the destructive interference between high order graphene plasmonic modes can be obtained, suggesting drastic phase transition with giant group delay and ultra-high group index up to 180 ps and 10 4 , respectively. Our results can achieve efficient slow light effects for better optical buffers and other nonlinear applications.

Topics & Concepts

GrapheneMetamaterialPlasmonElectromagnetically induced transparencyMaterials scienceFermi energyTransfer-matrix method (optics)OptoelectronicsSlow lightFermi levelRefractive indexGroup delay and phase delayOpticsTransmission (telecommunications)Graphene nanoribbonsInterference (communication)Coupled mode theoryGroup velocityPhase (matter)Nonlinear opticsPhotonicsNegative refractionNanophotonicsDispersion (optics)Photonic metamaterialTransmission coefficientCondensed matter physicsSplit-ring resonatorTransformation opticsEnergy (signal processing)Extraordinary optical transmissionPlasmonic and Surface Plasmon ResearchQuantum optics and atomic interactionsMetamaterials and Metasurfaces Applications
Tunable plasmonically induced transparency with giant group delay in gain-assisted graphene metamaterials | Litcius