Research in nanophotonic materials and design is yielding advances that are opening conceptually new paths to the realization of metasurfaces consisting of tunable nanoantenna arrays. These tunable metasurfaces can enable dynamic, active control of all of the key constitutive properties of light – amplitude, phase, wavevector and polarization – opening new applications such as phased-array optical beam steering, reconfigurable flat optics, visible light modulation for communication and thermal radiation management
Active and dynamic manipulation of metamaterial optical properties is the foundation for metamateria...
The ability to control all the important constitutive properties of light via interaction with nanos...
The ability to control all the important constitutive properties of light via interaction with nanos...
Research in nanophotonic materials and design is yielding advances that are opening conceptually new...
Research in nanophotonic materials and design is yielding advances that are opening conceptually new...
Research in nanophotonic materials and design is yielding advances that are opening conceptually new...
Research in nanophotonics is yielding advances towards grand challenges that have not previously bee...
The ability to control electromagnetic wavefront is a central key in optics. Conventional optical co...
This tutorial addresses design of tunable nanophotonic arrays, enabling dynamic, active control of t...
Research in nanophotonics is yielding advances towards grand challenges that have not previously bee...
In the field of nanophotonics, metasurfaces have come to the forefront in real-world applications, o...
Shaping the flow of light at the nanoscale has been a grand challenge for nanophotonics over decades...
We report the design and experimental demonstration of a ‘universal’ reconfigurable metasurface, whi...
The changing balance of forces at the nanoscale offers the opportunity to develop reconfigurable nan...
Dynamic control over metamaterial optical properties with high spatial and temporal resolution is th...
Active and dynamic manipulation of metamaterial optical properties is the foundation for metamateria...
The ability to control all the important constitutive properties of light via interaction with nanos...
The ability to control all the important constitutive properties of light via interaction with nanos...
Research in nanophotonic materials and design is yielding advances that are opening conceptually new...
Research in nanophotonic materials and design is yielding advances that are opening conceptually new...
Research in nanophotonic materials and design is yielding advances that are opening conceptually new...
Research in nanophotonics is yielding advances towards grand challenges that have not previously bee...
The ability to control electromagnetic wavefront is a central key in optics. Conventional optical co...
This tutorial addresses design of tunable nanophotonic arrays, enabling dynamic, active control of t...
Research in nanophotonics is yielding advances towards grand challenges that have not previously bee...
In the field of nanophotonics, metasurfaces have come to the forefront in real-world applications, o...
Shaping the flow of light at the nanoscale has been a grand challenge for nanophotonics over decades...
We report the design and experimental demonstration of a ‘universal’ reconfigurable metasurface, whi...
The changing balance of forces at the nanoscale offers the opportunity to develop reconfigurable nan...
Dynamic control over metamaterial optical properties with high spatial and temporal resolution is th...
Active and dynamic manipulation of metamaterial optical properties is the foundation for metamateria...
The ability to control all the important constitutive properties of light via interaction with nanos...
The ability to control all the important constitutive properties of light via interaction with nanos...
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