Add to ORKGWe experimentally demonstrate an ultracompact PlasMOStor, a plasmon slot waveguide field-effect modulator based on a transparent conducting oxide active region. By electrically modulating the conducting oxide material deposited into the gaps of highly confined plasmonic slot waveguides, we demonstrate field-effect dynamics giving rise to modulation with high dynamic range (2.71 dB/μm) and low waveguide loss (∼0.45 dB/μm). The large modulation strength is due to the large change in complex dielectric function when the signal wavelength approaches the surface plasmon resonance in the voltage-tuned conducting oxide accumulation layer. The results provide insight about the design of ultracompact, nanoscale modulators for future integrated nanop...
Metasurfaces composed of planar arrays of subwavelength artificial structures show promise for extra...
Realization of chip-based all-optical and optoelectronic computational networks will require ultraco...
Nanophotonics and metamaterials have revolutionized the way we think about optical space (ɛ,μ), enab...
We experimentally demonstrate an ultracompact PlasMOStor, a plasmon slot waveguide field-effect modu...
ABSTRACT: We experimentally demonstrate an ultracompact PlasMOStor, a plasmon slot waveguide field-e...
We experimentally demonstrate an ultracompact PlasMOStor, a plasmon slot waveguide field-effect modu...
*S Supporting Information ABSTRACT: We experimentally demonstrate an ultracompact PlasMOStor, a plas...
We experimentally demonstrate an ultracompact PlasMOStor, a plasmon slot waveguide field-effect modu...
We experimentally demonstrate an ultracompact PlasMOStor, a plasmon slot waveguide field-effect modu...
We experimentally demonstrate an ultracompact PlasMOStor, a plasmon slot waveguide field-effect modu...
Realization of chip-based all-optical and optoelectronic computational networks will require ultraco...
A plasmonic metasurface with an electrically tunable optical response that operates at strikingly lo...
In the last decades, plasmonic resonant nanoantennas have created interest in a wide range of resear...
A metal naturally displays dramatic changes in its optical properties near the plasma frequency wher...
Metal-dielectric interfaces can support the waves known as surface plasmon polaritons, which are tig...
Metasurfaces composed of planar arrays of subwavelength artificial structures show promise for extra...
Realization of chip-based all-optical and optoelectronic computational networks will require ultraco...
Nanophotonics and metamaterials have revolutionized the way we think about optical space (ɛ,μ), enab...
We experimentally demonstrate an ultracompact PlasMOStor, a plasmon slot waveguide field-effect modu...
ABSTRACT: We experimentally demonstrate an ultracompact PlasMOStor, a plasmon slot waveguide field-e...
We experimentally demonstrate an ultracompact PlasMOStor, a plasmon slot waveguide field-effect modu...
*S Supporting Information ABSTRACT: We experimentally demonstrate an ultracompact PlasMOStor, a plas...
We experimentally demonstrate an ultracompact PlasMOStor, a plasmon slot waveguide field-effect modu...
We experimentally demonstrate an ultracompact PlasMOStor, a plasmon slot waveguide field-effect modu...
We experimentally demonstrate an ultracompact PlasMOStor, a plasmon slot waveguide field-effect modu...
Realization of chip-based all-optical and optoelectronic computational networks will require ultraco...
A plasmonic metasurface with an electrically tunable optical response that operates at strikingly lo...
In the last decades, plasmonic resonant nanoantennas have created interest in a wide range of resear...
A metal naturally displays dramatic changes in its optical properties near the plasma frequency wher...
Metal-dielectric interfaces can support the waves known as surface plasmon polaritons, which are tig...
Metasurfaces composed of planar arrays of subwavelength artificial structures show promise for extra...
Realization of chip-based all-optical and optoelectronic computational networks will require ultraco...
Nanophotonics and metamaterials have revolutionized the way we think about optical space (ɛ,μ), enab...