Add to ORKGBy harnessing mechanical and optical resonances in tandem one can enhance the magnitude of actuation and optical response in dynamically reconfigurable nanostructures driven by microwatt optical signals and low-intensity acoustic vibrations. We review recent work on structures exhibiting profound opto-mechanical nonlinearity and bistability
We demonstrate megahertz-bandwidth modulation of light with light at the milliwatt power level with ...
The optical properties of materials are determined by the spatial arrangement of their building bloc...
The nanomechanical metamaterials offer the possibilities of manipulating exotic electromagnetic prop...
By harnessing mechanical and optical resonances in tandem one can enhance the magnitude of actuation...
By harnessing mechanical and optical resonances in tandemone can enhance the magnitude of actuation ...
Abstract: We introduce a dielectric photonic metamaterial presenting a giant nonlinear optical respo...
For the first time we experimentally demonstrate nonlinear nano-opto-mechanical metamaterials exhibi...
Wereview the exceptional variety of functionalities accessible by design in nanomechanical p...
We introduce a dielectric photonic metamaterial presenting a giant nonlinear optical response driven...
The microscopic arrangement of a material’s components on the nanoscale determines its macroscopic p...
Active and dynamic manipulation of metamaterial optical properties is the foundation for metamateria...
We report the first demonstration of optical bistability in nanomechanical metamaterials - arrays of...
The optical response of a nanowire metamaterial can be controlled by resonant ponderomotive nontherm...
The realization of integrated optical system on a chip requires extreme miniaturization functional e...
All-optical data processing fundamentally relies on giant optical nonlinearities to enable high-cont...
We demonstrate megahertz-bandwidth modulation of light with light at the milliwatt power level with ...
The optical properties of materials are determined by the spatial arrangement of their building bloc...
The nanomechanical metamaterials offer the possibilities of manipulating exotic electromagnetic prop...
By harnessing mechanical and optical resonances in tandem one can enhance the magnitude of actuation...
By harnessing mechanical and optical resonances in tandemone can enhance the magnitude of actuation ...
Abstract: We introduce a dielectric photonic metamaterial presenting a giant nonlinear optical respo...
For the first time we experimentally demonstrate nonlinear nano-opto-mechanical metamaterials exhibi...
Wereview the exceptional variety of functionalities accessible by design in nanomechanical p...
We introduce a dielectric photonic metamaterial presenting a giant nonlinear optical response driven...
The microscopic arrangement of a material’s components on the nanoscale determines its macroscopic p...
Active and dynamic manipulation of metamaterial optical properties is the foundation for metamateria...
We report the first demonstration of optical bistability in nanomechanical metamaterials - arrays of...
The optical response of a nanowire metamaterial can be controlled by resonant ponderomotive nontherm...
The realization of integrated optical system on a chip requires extreme miniaturization functional e...
All-optical data processing fundamentally relies on giant optical nonlinearities to enable high-cont...
We demonstrate megahertz-bandwidth modulation of light with light at the milliwatt power level with ...
The optical properties of materials are determined by the spatial arrangement of their building bloc...
The nanomechanical metamaterials offer the possibilities of manipulating exotic electromagnetic prop...