Add to ORKGABSTRACT: Pauli blocking of interband transistions gives rise to tunable optical properties in single layer graphene (SLG). This effect is exploited in a graphene-nanoantenna hybrid device where Fano resonant plasmonic nanostructures are fabricated on top of a graphene sheet. The use of Fano resonant elements enhances the interaction of incident radiation with the graphene sheet and enables efficient electrical modulation of the plasmonic resonance. We observe electrically controlled damping in the Fano resonances occurring at approximately 2 μm, and the results are verified by full-wave 3D finite-element simulations. Our approach can be used for development of next generation of tunable plasmonic and hybrid nanophotonic devices
Surface plasmon has the unique capability to concentrate light into subwavelength volume.(1-5) Activ...
Surface plasmon has the unique capability to concentrate light into subwavelength volume.− Active pl...
Plasmonics is the study of interaction of light with subwavelength metallic structures. Plasmonic na...
ABSTRACT: Pauli blocking of interband transistions gives rise to tunable optical properties in singl...
Pauli blocking of interband transistions gives rise to tunable optical properties in single layer gr...
Pauli blocking of interband transistions gives rise to tunable optical properties in single layer gr...
We present a strategy to control Fano resonances in hybrid graphene-silicon-on-insulator gratings. T...
Light incident on a metallic structure excites collective oscillations of electrons termed as plasmo...
We propose a strategy for active control of second harmonic generation (SHG) in a plasmonic Fano str...
We propose a novel mechanism to construct a tunable and ultracompact refractive index sensor by usin...
Graphene has emerged as a promising optoelectronic material because its optical properties can be ra...
ABSTRACT: Surface plasmon has the unique capability to concentrate light into subwavelength volume.1...
Dynamic switching of a plasmonic resonance may find numerous applications in subwavelength optoelect...
Dynamic switching of a plasmonic resonance may find numerous applications in subwavelength optoelect...
Graphene exhibits intriguing electronic and optical properties, making it promising for integrating ...
Surface plasmon has the unique capability to concentrate light into subwavelength volume.(1-5) Activ...
Surface plasmon has the unique capability to concentrate light into subwavelength volume.− Active pl...
Plasmonics is the study of interaction of light with subwavelength metallic structures. Plasmonic na...
ABSTRACT: Pauli blocking of interband transistions gives rise to tunable optical properties in singl...
Pauli blocking of interband transistions gives rise to tunable optical properties in single layer gr...
Pauli blocking of interband transistions gives rise to tunable optical properties in single layer gr...
We present a strategy to control Fano resonances in hybrid graphene-silicon-on-insulator gratings. T...
Light incident on a metallic structure excites collective oscillations of electrons termed as plasmo...
We propose a strategy for active control of second harmonic generation (SHG) in a plasmonic Fano str...
We propose a novel mechanism to construct a tunable and ultracompact refractive index sensor by usin...
Graphene has emerged as a promising optoelectronic material because its optical properties can be ra...
ABSTRACT: Surface plasmon has the unique capability to concentrate light into subwavelength volume.1...
Dynamic switching of a plasmonic resonance may find numerous applications in subwavelength optoelect...
Dynamic switching of a plasmonic resonance may find numerous applications in subwavelength optoelect...
Graphene exhibits intriguing electronic and optical properties, making it promising for integrating ...
Surface plasmon has the unique capability to concentrate light into subwavelength volume.(1-5) Activ...
Surface plasmon has the unique capability to concentrate light into subwavelength volume.− Active pl...
Plasmonics is the study of interaction of light with subwavelength metallic structures. Plasmonic na...