Add to ORKGOptomechanical metamaterials, where optical signals actuate unique elements of the nanostructure at their eigenfrequency, can be used to modulate metamaterials with sub-wavelength spatial resolution. We demonstrate the first all-optically addressable metadevice operating in the near infrared
The microscopic arrangement of a material’s components on the nanoscale determines its macroscopic p...
We demonstrate the first addressable reconfigurable photonic metamaterials thus enabling control ove...
This thesis reports on my research efforts towards controlling light with photonic metamaterials for...
Optical signals actuating unique elements of a nanostructure at their eigenfrequencies are used to m...
The realization of integrated optical system on a chip requires extreme miniaturization functional e...
We demonstrate megahertz-bandwidth modulation of light with light at the milliwatt power level with ...
All-optical data processing fundamentally relies on giant optical nonlinearities to enable high-cont...
We demonstrate nano-opto-mechanical metamaterial with a cubic optical nonlinearity that is seven ord...
We report on the realization of ultrathin free-standing all-dielectric metasurfaces, with sharply re...
The ultimate goal of metamaterials research may be described as arbitrary control over material prop...
We report on randomly addressable reconfigurable metamaterials that can be driven by thermal, Lorent...
This thesis reports on the development of a new class of switchable nanostructured photonic metamate...
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...
The changing balance of forces at the nanoscale offers the opportunity to develop a new generation o...
The microscopic arrangement of a material’s components on the nanoscale determines its macroscopic p...
We demonstrate the first addressable reconfigurable photonic metamaterials thus enabling control ove...
This thesis reports on my research efforts towards controlling light with photonic metamaterials for...
Optical signals actuating unique elements of a nanostructure at their eigenfrequencies are used to m...
The realization of integrated optical system on a chip requires extreme miniaturization functional e...
We demonstrate megahertz-bandwidth modulation of light with light at the milliwatt power level with ...
All-optical data processing fundamentally relies on giant optical nonlinearities to enable high-cont...
We demonstrate nano-opto-mechanical metamaterial with a cubic optical nonlinearity that is seven ord...
We report on the realization of ultrathin free-standing all-dielectric metasurfaces, with sharply re...
The ultimate goal of metamaterials research may be described as arbitrary control over material prop...
We report on randomly addressable reconfigurable metamaterials that can be driven by thermal, Lorent...
This thesis reports on the development of a new class of switchable nanostructured photonic metamate...
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...
The changing balance of forces at the nanoscale offers the opportunity to develop a new generation o...
The microscopic arrangement of a material’s components on the nanoscale determines its macroscopic p...
We demonstrate the first addressable reconfigurable photonic metamaterials thus enabling control ove...
This thesis reports on my research efforts towards controlling light with photonic metamaterials for...