Add to ORKGDynamic control over metamaterial optical properties with high spatial and temporal resolution is the key to a broad range of novel functionalities from spatial light modulation without pixelation artefacts to parallel all-optical information processing. Here we explore two complementary approaches based on (i) mechanically reconfigurable nanostructures and (ii) modulation of light with light without nonlinearity
Transmission and reflection properties, anisotropy, chirality, optical nonlinearity and luminescent ...
Metamaterials that offer “on-demand” control of individual metamolecules are termed “randomly access...
Metamaterials that offer “on-demand” control of individual metamolecules are termed “randomly access...
© 2020 Mikhail Y. Shalaginov et al., published by De Gruyter. Optical metasurfaces, planar subwavele...
The microscopic arrangement of a material’s components on the nanoscale determines its macroscopic p...
Optical metasurfaces, planar subwavelength nanoantenna arrays with the singular ability to sculpt wa...
Active and dynamic manipulation of metamaterial optical properties is the foundation for metamateria...
The ability to control electromagnetic wavefront is a central key in optics. Conventional optical co...
With their ultrathin characteristics as well as the powerful and flexible capabilities of wavefront ...
Active optical metasurfaces are rapidly emerging as a major frontier in photonics research, developm...
In the field of nanophotonics, metasurfaces have come to the forefront in real-world applications, o...
Metasurfaces, two-dimensional equivalents of metamaterials, are engineered surfaces consisting of de...
International audienceIn this Perspective, we discuss the different opportunities offered by time-mo...
Research in nanophotonic materials and design is yielding advances that are opening conceptually new...
Dynamic control over metamaterial optical properties enables active metadevices. Here we demonstrate...
Transmission and reflection properties, anisotropy, chirality, optical nonlinearity and luminescent ...
Metamaterials that offer “on-demand” control of individual metamolecules are termed “randomly access...
Metamaterials that offer “on-demand” control of individual metamolecules are termed “randomly access...
© 2020 Mikhail Y. Shalaginov et al., published by De Gruyter. Optical metasurfaces, planar subwavele...
The microscopic arrangement of a material’s components on the nanoscale determines its macroscopic p...
Optical metasurfaces, planar subwavelength nanoantenna arrays with the singular ability to sculpt wa...
Active and dynamic manipulation of metamaterial optical properties is the foundation for metamateria...
The ability to control electromagnetic wavefront is a central key in optics. Conventional optical co...
With their ultrathin characteristics as well as the powerful and flexible capabilities of wavefront ...
Active optical metasurfaces are rapidly emerging as a major frontier in photonics research, developm...
In the field of nanophotonics, metasurfaces have come to the forefront in real-world applications, o...
Metasurfaces, two-dimensional equivalents of metamaterials, are engineered surfaces consisting of de...
International audienceIn this Perspective, we discuss the different opportunities offered by time-mo...
Research in nanophotonic materials and design is yielding advances that are opening conceptually new...
Dynamic control over metamaterial optical properties enables active metadevices. Here we demonstrate...
Transmission and reflection properties, anisotropy, chirality, optical nonlinearity and luminescent ...
Metamaterials that offer “on-demand” control of individual metamolecules are termed “randomly access...
Metamaterials that offer “on-demand” control of individual metamolecules are termed “randomly access...