Add to ORKGWe find the low-frequency optical response of highly doped individual and arrayed graphene nanoribbons to be accurately described in terms of plasmon wave functions (PWFs). More precisely, we focus on the lowest-order transverse dipolar mode, for which we define the wave function as the induced charge density associated with the plasmon. We show that a single universal wave function is capable of describing the normal-incidence interaction of paired, co-planar, and stacked arrays of ribbons down to small inter-ribbon distances. Our work provides both intuitive insight into graphene plasmon interactions and a practical way of accurately describing complex graphene geometries based on the PWFs of the individual components.Peer Reviewe
We show that highly doped graphene ribbons can support surface plasmons at near-infrared frequencies...
We show that highly doped graphene ribbons can support surface plasmons at near-infrared frequencies...
Excitation and propagation of surface plasmons in intrinsic and extrinsic graphene are analyzed from...
We find the low-frequency optical response of highly doped individual and arrayed graphene nanoribbo...
Among their amazing properties, graphene and related low-dimensional materials show quantized charge...
We theoretically study the plasmon modes in double parallelmetallic armchair graphene nanoribbons (A...
We theoretically study the plasmon modes in double parallelmetallic armchair graphene nanoribbons (A...
Plasmons, collective electron density oscillations, provide physicists with intriguing challenges an...
We study plasmon excitations in infinitely long graphene nanoribbons using a quasistatic approach, w...
We present an analysis of the electronic and plasmonic behavior of periodic planar distributions of ...
Interaction between localized plasmons in isolated proximal nanostructures is a well-studied phenome...
Fundamental properties of plasmon modes propagating along graphene nanoribbons are investigated by m...
In the last two decades, interest in graphene has grown extensively due to its extraordinary propert...
Excitation and propagation of surface plasmons in intrinsic and extrinsic graphene are analyzed from...
Excitation and propagation of surface plasmons in intrinsic and extrinsic graphene are analyzed from...
We show that highly doped graphene ribbons can support surface plasmons at near-infrared frequencies...
We show that highly doped graphene ribbons can support surface plasmons at near-infrared frequencies...
Excitation and propagation of surface plasmons in intrinsic and extrinsic graphene are analyzed from...
We find the low-frequency optical response of highly doped individual and arrayed graphene nanoribbo...
Among their amazing properties, graphene and related low-dimensional materials show quantized charge...
We theoretically study the plasmon modes in double parallelmetallic armchair graphene nanoribbons (A...
We theoretically study the plasmon modes in double parallelmetallic armchair graphene nanoribbons (A...
Plasmons, collective electron density oscillations, provide physicists with intriguing challenges an...
We study plasmon excitations in infinitely long graphene nanoribbons using a quasistatic approach, w...
We present an analysis of the electronic and plasmonic behavior of periodic planar distributions of ...
Interaction between localized plasmons in isolated proximal nanostructures is a well-studied phenome...
Fundamental properties of plasmon modes propagating along graphene nanoribbons are investigated by m...
In the last two decades, interest in graphene has grown extensively due to its extraordinary propert...
Excitation and propagation of surface plasmons in intrinsic and extrinsic graphene are analyzed from...
Excitation and propagation of surface plasmons in intrinsic and extrinsic graphene are analyzed from...
We show that highly doped graphene ribbons can support surface plasmons at near-infrared frequencies...
We show that highly doped graphene ribbons can support surface plasmons at near-infrared frequencies...
Excitation and propagation of surface plasmons in intrinsic and extrinsic graphene are analyzed from...