Tunable metasurfaces enable dynamical control of the key constitutive properties of light at a subwavelength scale. To date, electrically tunable metasurfaces at near-infrared wavelengths have been realized using free carrier modulation, and switching of thermo-optical, liquid crystal and phase change media. However, the highest performance and lowest loss discrete optoelectronic modulators exploit the electro-optic effect in multiple-quantum-well heterostructures. Here, we report an all-dielectric active metasurface based on electro-optically tunable III–V multiple-quantum-wells patterned into subwavelength elements that each supports a hybrid Mie-guided mode resonance. The quantum-confined Stark effect actively modulates this volumetric h...
Shaping the flow of light at the nanoscale has been a grand challenge for nanophotonics over decades...
The extensive progress in nanofabrication techniques enabled innovative methods for molding light at...
The extensive progress in nanofabrication techniques enabled innovative methods for molding light at...
Tunable metasurfaces enable dynamical control of the key constitutive properties of light at a subwa...
We report a design of an all-dielectric Mie-resonant active metasurface, which exhibits a high refle...
We report the design and experimental demonstration of a ‘universal’ reconfigurable metasurface, whi...
The ability to control electromagnetic wavefront is a central key in optics. Conventional optical co...
We propose an electrically tunable metasurface, which can achieve relatively large phase modulation ...
We propose an electrically tunable metasurface, which can achieve relatively large phase modulation ...
We propose an electrically tunable metasurface, which can achieve relatively large phase modulation ...
This tutorial addresses design of tunable nanophotonic arrays, enabling dynamic, active control of t...
We demonstrate electrical tuning of the spectral response of a Mie-resonant dielectric metasurface ...
Active metasurfaces composed of electrically reconfigurable nanoscale subwavelength antenna arrays c...
All-dielectric metasurfaces have received significant attention in the past years, and have bee...
Metasurfaces composed of planar arrays of subwavelength artificial structures show promise for extra...
Shaping the flow of light at the nanoscale has been a grand challenge for nanophotonics over decades...
The extensive progress in nanofabrication techniques enabled innovative methods for molding light at...
The extensive progress in nanofabrication techniques enabled innovative methods for molding light at...
Tunable metasurfaces enable dynamical control of the key constitutive properties of light at a subwa...
We report a design of an all-dielectric Mie-resonant active metasurface, which exhibits a high refle...
We report the design and experimental demonstration of a ‘universal’ reconfigurable metasurface, whi...
The ability to control electromagnetic wavefront is a central key in optics. Conventional optical co...
We propose an electrically tunable metasurface, which can achieve relatively large phase modulation ...
We propose an electrically tunable metasurface, which can achieve relatively large phase modulation ...
We propose an electrically tunable metasurface, which can achieve relatively large phase modulation ...
This tutorial addresses design of tunable nanophotonic arrays, enabling dynamic, active control of t...
We demonstrate electrical tuning of the spectral response of a Mie-resonant dielectric metasurface ...
Active metasurfaces composed of electrically reconfigurable nanoscale subwavelength antenna arrays c...
All-dielectric metasurfaces have received significant attention in the past years, and have bee...
Metasurfaces composed of planar arrays of subwavelength artificial structures show promise for extra...
Shaping the flow of light at the nanoscale has been a grand challenge for nanophotonics over decades...
The extensive progress in nanofabrication techniques enabled innovative methods for molding light at...
The extensive progress in nanofabrication techniques enabled innovative methods for molding light at...
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