Add to ORKGGraphene is emerging as a promising material for photonic applications owing to its unique optoelectronic properties. Graphene supports tunable, long-lived and extremely confined plasmons that have great potential for applications such as biosensing and optical communications. However, in order to excite plasmonic resonances in graphene, this material requires a high doping level, which is challenging to achieve without degrading carrier mobility and stability. Here, we demonstrate that the infrared plasmonic response of a graphene multilayer stack is analogous to that of a highly doped single layer of graphene, preserving mobility and supporting plasmonic resonances with higher oscillator strength than previously explored single-layer devi...
Single-layer graphene has been shown to have intriguing prospects as a plasmonic material, as modes ...
We point out that plasmons in doped graphene simultaneously enable low-losses and significant wave l...
13 pags, 10 figs© 2013 Science Wise Publishing. Plasmons produce large confinement and enhancement o...
Graphene is emerging as a promising material for photonic applications owing to its unique optoelect...
Although plasmon modes exist in doped graphene, the limited range of doping achieved by gating restr...
Single-layer graphene has been shown to have intriguing prospects as a plasmonic material, as modes ...
In this paper, we review and discuss how the recently discovered two-dimensional (2D) Dirac material...
Graphene is an atomically thin two-dimensional material with carbon atoms arranged in a honeycomb la...
In this chapter, we focus on the development on tunable terahertz/infrared metamaterials enabled wit...
Despite its great potential for a wide variety of devices, especially mid-infrared biosensors and p...
We experimentally demonstrated graphene plasmon resonant absorption in mid-IR by utilizing an array ...
Graphene is widely known for its anomalously strong broadband optical absorptivity of 2.3% that enab...
Light incident on a metallic structure excites collective oscillations of electrons termed as plasmo...
Engineering the doping level in graphene nanostructures to yield controlled and intense localized su...
We theoretically investigate graphene plasmons in the presence of a low density of adatoms on the gr...
Single-layer graphene has been shown to have intriguing prospects as a plasmonic material, as modes ...
We point out that plasmons in doped graphene simultaneously enable low-losses and significant wave l...
13 pags, 10 figs© 2013 Science Wise Publishing. Plasmons produce large confinement and enhancement o...
Graphene is emerging as a promising material for photonic applications owing to its unique optoelect...
Although plasmon modes exist in doped graphene, the limited range of doping achieved by gating restr...
Single-layer graphene has been shown to have intriguing prospects as a plasmonic material, as modes ...
In this paper, we review and discuss how the recently discovered two-dimensional (2D) Dirac material...
Graphene is an atomically thin two-dimensional material with carbon atoms arranged in a honeycomb la...
In this chapter, we focus on the development on tunable terahertz/infrared metamaterials enabled wit...
Despite its great potential for a wide variety of devices, especially mid-infrared biosensors and p...
We experimentally demonstrated graphene plasmon resonant absorption in mid-IR by utilizing an array ...
Graphene is widely known for its anomalously strong broadband optical absorptivity of 2.3% that enab...
Light incident on a metallic structure excites collective oscillations of electrons termed as plasmo...
Engineering the doping level in graphene nanostructures to yield controlled and intense localized su...
We theoretically investigate graphene plasmons in the presence of a low density of adatoms on the gr...
Single-layer graphene has been shown to have intriguing prospects as a plasmonic material, as modes ...
We point out that plasmons in doped graphene simultaneously enable low-losses and significant wave l...
13 pags, 10 figs© 2013 Science Wise Publishing. Plasmons produce large confinement and enhancement o...