Litcius/Paper detail

Waveguide-Integrated Light-Emitting Metal–Insulator–Graphene Tunnel Junctions

Lufang Liu, Alexey V. Krasavin, Jialin Li, Linjun Li, Liu Yang, Xin Guo, Daoxin Dai, Anatoly V. Zayats, Limin Tong, Pan Wang

2023Nano Letters18 citationsDOIOpen Access PDF

Abstract

Ultrafast interfacing of electrical and optical signals at the nanoscale is highly desired for on-chip applications including optical interconnects and data processing devices. Here, we report electrically driven nanoscale optical sources based on metal-insulator-graphene tunnel junctions (MIG-TJs), featuring waveguided output with broadband spectral characteristics. Electrically driven inelastic tunneling in a MIG-TJ, realized by integrating a silver nanowire with graphene, provides broadband excitation of plasmonic modes in the junction with propagation lengths of several micrometers (∼10 times larger than that for metal-insulator-metal junctions), which therefore propagate toward the junction edge with low loss and couple to the nanowire waveguide with an efficiency of ∼70% (∼1000 times higher than that for metal-insulator-metal junctions). Alternatively, lateral coupling of the MIG-TJ to a semiconductor nanowire provides a platform for efficient outcoupling of electrically driven plasmonic signals to low-loss photonic waveguides, showing potential for applications at various integration levels.

Topics & Concepts

Materials scienceOptoelectronicsNanowirePlasmonGraphenePhotonicsQuantum tunnellingWaveguideInsulator (electricity)Nanoscopic scaleSemiconductorSurface plasmon polaritonUltrashort pulseSurface plasmonMetal-insulator-metalNanotechnologyOpticsLaserElectrical engineeringVoltageEngineeringCapacitorPhysicsPlasmonic and Surface Plasmon ResearchPhotonic and Optical DevicesMolecular Junctions and Nanostructures
Waveguide-Integrated Light-Emitting Metal–Insulator–Graphene Tunnel Junctions | Litcius