Add to ORKGWe report highly-nonlinear ultra-thin metasurfaces based on coupling of modes in plasmonic nanoresonators with intersubband nonlinearities with phase-control of nonlinear optical response. Nonlinear susceptibility >106 pm/V and conversion efficiencies ~0.1% were measured for second-harmonic generation
Metasurfaces that generate nonlinear optical responses provide new degrees of freedom for applicatio...
Frequency mixing is an essential nonlinear process with extensive applications in photonics, chemist...
Frequency mixing is an essential nonlinear process with extensive applications in photonics, chemist...
Extending the 'flat optics' paradigm to the nonlinear optics faces important challenges, s...
Gradient metasurfaces, or ultrathin optical components with engineered transverse impedance gradient...
We describe a novel class of ultrathin plasmonic metasurfaces able to provide nonlinear conversion e...
We report highly-nonlinear metasurfaces based on coupling of electromagnetically-engineered plasmoni...
Gradient metasurfaces, or ultrathin optical components with engineered transverse impedance gradient...
We report highly-nonlinear metasurfaces based on combining electromagnetically-engineered plasmonic ...
Nonlinear response from optical metasurfaces have opened a new direction in research, with interesti...
Nonlinear response from optical metasurfaces have opened a new direction in research, with interesti...
Nonlinear metasurfaces based on coupling locally-enhanced plasmonic response to intersubband transit...
Since their discovery in the 1960s, nonlinear optical effects have revolutionized optical technologi...
We report highly-nonlinear metasurfaces based on combining electromagnetically-engineered plasmonic ...
Intersubband transitions in n-doped multi-quantum-well semiconductor heterostructures make it possib...
Metasurfaces that generate nonlinear optical responses provide new degrees of freedom for applicatio...
Frequency mixing is an essential nonlinear process with extensive applications in photonics, chemist...
Frequency mixing is an essential nonlinear process with extensive applications in photonics, chemist...
Extending the 'flat optics' paradigm to the nonlinear optics faces important challenges, s...
Gradient metasurfaces, or ultrathin optical components with engineered transverse impedance gradient...
We describe a novel class of ultrathin plasmonic metasurfaces able to provide nonlinear conversion e...
We report highly-nonlinear metasurfaces based on coupling of electromagnetically-engineered plasmoni...
Gradient metasurfaces, or ultrathin optical components with engineered transverse impedance gradient...
We report highly-nonlinear metasurfaces based on combining electromagnetically-engineered plasmonic ...
Nonlinear response from optical metasurfaces have opened a new direction in research, with interesti...
Nonlinear response from optical metasurfaces have opened a new direction in research, with interesti...
Nonlinear metasurfaces based on coupling locally-enhanced plasmonic response to intersubband transit...
Since their discovery in the 1960s, nonlinear optical effects have revolutionized optical technologi...
We report highly-nonlinear metasurfaces based on combining electromagnetically-engineered plasmonic ...
Intersubband transitions in n-doped multi-quantum-well semiconductor heterostructures make it possib...
Metasurfaces that generate nonlinear optical responses provide new degrees of freedom for applicatio...
Frequency mixing is an essential nonlinear process with extensive applications in photonics, chemist...
Frequency mixing is an essential nonlinear process with extensive applications in photonics, chemist...