Add to ORKGMetamaterials offer a huge range of enhanced and novel functionalities that natural materials cannot provide. They promise applications in superresolution imaging, optical data storage, optical filters, polarization control, cloaking, fraud prevention and many more. However, their unique optical properties are often narrowband and usually fixed. Here we demonstrate how the mechanical rearrangement of metamaterial structures at the nanoscale provides a powerful platform for controlling metamaterial properties dynamically. Using thermal, electrical, magnetic and optical control signals we demonstrate large-range tuning, high-contrast switching and modulation of metamaterial optical properties at megahertz frequencies and beyond. Beyond the ob...
We demonstrate the first addressable reconfigurable photonic metamaterials thus enabling control ove...
We demonstrate that spatial arrangement and optical properties of metamaterial nanostructures can be...
We show that reconfigurable photonic metamaterials provide a flexible platform for fast modulation a...
Engaging the changing balance of forces, structural transformations, light confinement and coherent ...
Active and dynamic manipulation of metamaterial optical properties is the foundation for metamateria...
Dynamic control over metamaterial optical properties is the basis for the use of metamaterials as ac...
The changing balance of forces at the nanoscale offers the opportunity to develop a new generation o...
Dynamic control over metamaterial optical properties is the basis for active metamaterials devices f...
We report on randomly addressable reconfigurable metamaterials that can be driven by thermal, Lorent...
Metamaterials, artificial electromagnetic media achieved by structuring on the sub-wavelength scale,...
Dynamic control over metamaterial optical properties enables active metadevices. Here we demonstrate...
The report demonstrates that reconfigurable photonic metamaterials provide a flexible platform for d...
The changing balance of forces at the nanoscale offers the opportunity to develop reconfigurable nan...
Dynamic control over metamaterial optical properties is key for the use of metamaterials as active e...
With the developments in nanotechnology that enable atoms, singly or in clumps, to be moved and arra...
We demonstrate the first addressable reconfigurable photonic metamaterials thus enabling control ove...
We demonstrate that spatial arrangement and optical properties of metamaterial nanostructures can be...
We show that reconfigurable photonic metamaterials provide a flexible platform for fast modulation a...
Engaging the changing balance of forces, structural transformations, light confinement and coherent ...
Active and dynamic manipulation of metamaterial optical properties is the foundation for metamateria...
Dynamic control over metamaterial optical properties is the basis for the use of metamaterials as ac...
The changing balance of forces at the nanoscale offers the opportunity to develop a new generation o...
Dynamic control over metamaterial optical properties is the basis for active metamaterials devices f...
We report on randomly addressable reconfigurable metamaterials that can be driven by thermal, Lorent...
Metamaterials, artificial electromagnetic media achieved by structuring on the sub-wavelength scale,...
Dynamic control over metamaterial optical properties enables active metadevices. Here we demonstrate...
The report demonstrates that reconfigurable photonic metamaterials provide a flexible platform for d...
The changing balance of forces at the nanoscale offers the opportunity to develop reconfigurable nan...
Dynamic control over metamaterial optical properties is key for the use of metamaterials as active e...
With the developments in nanotechnology that enable atoms, singly or in clumps, to be moved and arra...
We demonstrate the first addressable reconfigurable photonic metamaterials thus enabling control ove...
We demonstrate that spatial arrangement and optical properties of metamaterial nanostructures can be...
We show that reconfigurable photonic metamaterials provide a flexible platform for fast modulation a...