Add to ORKGWe demonstrate extraordinary ~45% absorption of light by graphene in mid-infrared region by exciting graphene surface plasmons. The absorption wavelength is tunable by gate voltage. Further, we show that the absorption bandwidth depends on the carrier mobility of graphene
Optical properties of Graphene have recently attracted enormous attention from investigators [1-5]. ...
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...
We demonstrate extraordinary ∼45% absorption of light by graphene in mid-infrared region by exciting...
The high carrier mobility of graphene makes it an attractive material for electronics, however, grap...
Quarter-wavelength cavity, as a classical structure for preventing wave reflection, presents an effe...
We experimentally demonstrated graphene plasmon resonant absorption in mid-IR by utilizing an array ...
We experimentally demonstrated graphene plasmon resonant absorption in mid-IR by utilizing an array ...
We report on the response of graphene to high intensity mid-IR radiation and show that graphene exhi...
Enhancing light-matter interaction by exciting Dirac plasmons on nanopatterned monolayer graphene is...
A hybrid graphene system consisting of graphene and silica layers coated on a metal film with groove...
A hybrid graphene system consisting of graphene and silica layers coated on a metal film with groove...
If not for its inherently weak optical absorption at visible and infrared wavelengths, graphene woul...
Plasmonics takes advantage of the collective response of electrons to electromagnetic waves, enablin...
Mid-infrared light is used for thermal imaging, relying on thermal radiation, and chemical analysis,...
Optical properties of Graphene have recently attracted enormous attention from investigators [1-5]. ...
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...
We demonstrate extraordinary ∼45% absorption of light by graphene in mid-infrared region by exciting...
The high carrier mobility of graphene makes it an attractive material for electronics, however, grap...
Quarter-wavelength cavity, as a classical structure for preventing wave reflection, presents an effe...
We experimentally demonstrated graphene plasmon resonant absorption in mid-IR by utilizing an array ...
We experimentally demonstrated graphene plasmon resonant absorption in mid-IR by utilizing an array ...
We report on the response of graphene to high intensity mid-IR radiation and show that graphene exhi...
Enhancing light-matter interaction by exciting Dirac plasmons on nanopatterned monolayer graphene is...
A hybrid graphene system consisting of graphene and silica layers coated on a metal film with groove...
A hybrid graphene system consisting of graphene and silica layers coated on a metal film with groove...
If not for its inherently weak optical absorption at visible and infrared wavelengths, graphene woul...
Plasmonics takes advantage of the collective response of electrons to electromagnetic waves, enablin...
Mid-infrared light is used for thermal imaging, relying on thermal radiation, and chemical analysis,...
Optical properties of Graphene have recently attracted enormous attention from investigators [1-5]. ...
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...