Abstract
Electro-optical modulation of visible and near-infrared light is important for a wide variety of applications, ranging from communications to sensing and smart windows. However, currently available approaches result in rather bulky devices, suffer from low integrability, and can hardly operate at the low power consumption levels and fast switching rates required by microelectronic drivers. Here we show that planar nanostructures patterned in ultrathin metal-graphene hybrid films sustain highly tunable plasmons in the visible and near-infrared spectral regions. Strong variations in the reflection and absorption of incident light take place when the plasmons are tuned on- and off-resonance with respect to externally incident light. As a result, a remarkable modulation depth (i.e., the maximum relative variation with/without graphene doping) exceeding 90% in transmission and even more dramatic in reflection (>600%) is predicted for graphene-loaded silver films of 1–5 nm thickness and currently attainable lateral dimensions. These new structures hold great potential for fast low-power electro-optical modulation.
Highlights
Modes, lattice singularities in periodically patterned surfaces, and Fabry-Perot resonances[35], which again require relatively bulky structures
We show through realistic simulations that ultrathin graphene-metal hybrid films (UGMs) can undergo order-one modulation in visible and near-infrared (vis-NIR) light transmission and reflection
We present attainable designs consisting of 50 nm wide ribbons formed by a thin noble metal film of thicknesses in the 1–6 nm range supported on monolayer graphene
Summary
Modes, lattice singularities in periodically patterned surfaces, and Fabry-Perot resonances[35], which again require relatively bulky structures. We show through realistic simulations that ultrathin graphene-metal hybrid films (UGMs) can undergo order-one modulation in vis-NIR light transmission and reflection.
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