Add to ORKGAll-optical image recognition and data processing is accomplished by engaging the effectively nonlinear coherent wave interaction on a thin absorbing metasurface. This approach relies on coherent perfect absorption and perfect transmission of matching image features and it is compatible with single-photon intensities and THz frame rates
Recently, coherent control of the optical response of thin films in standing waves has attracted con...
Recently, coherent control of the optical response of thin films in standing waves has attracted con...
The exponential growth of telecommunications bandwidth will require next generation optical networks...
We engage effective nonlinearity of the coherent wave interaction on a thin metamaterial absorber to...
Coherent interaction of waves on a thin absorbing film allows performance of ultrafast, low energy l...
We engage the interaction of coherent waves on a thin metamaterial absorber to demonstrate all-optic...
We engage effective nonlinearity of the coherent wave interaction on a thin metamaterial absorber to...
We demonstrate spatial and temporal control over metamaterial properties using coherent interactions...
The ability to control the wavefront of light is fundamental to focusing and redistribution of light...
This Thesis merges the physics of metamaterials with optical fibre technology in order to demonstrat...
We demonstrate logical operations with two images using coherent interaction of optical beams on thi...
The ability to control the wavefront of light is fundamental to focusing and redistribution of light...
Exponentially growing bandwidth requirements of our information society introduce major capacity and...
In this thesis, control of light with light without nonlinearity in plasmonic metasurfaces is extend...
Recently, coherent control of the optical response of thin films in standing waves has attracted con...
Recently, coherent control of the optical response of thin films in standing waves has attracted con...
Recently, coherent control of the optical response of thin films in standing waves has attracted con...
The exponential growth of telecommunications bandwidth will require next generation optical networks...
We engage effective nonlinearity of the coherent wave interaction on a thin metamaterial absorber to...
Coherent interaction of waves on a thin absorbing film allows performance of ultrafast, low energy l...
We engage the interaction of coherent waves on a thin metamaterial absorber to demonstrate all-optic...
We engage effective nonlinearity of the coherent wave interaction on a thin metamaterial absorber to...
We demonstrate spatial and temporal control over metamaterial properties using coherent interactions...
The ability to control the wavefront of light is fundamental to focusing and redistribution of light...
This Thesis merges the physics of metamaterials with optical fibre technology in order to demonstrat...
We demonstrate logical operations with two images using coherent interaction of optical beams on thi...
The ability to control the wavefront of light is fundamental to focusing and redistribution of light...
Exponentially growing bandwidth requirements of our information society introduce major capacity and...
In this thesis, control of light with light without nonlinearity in plasmonic metasurfaces is extend...
Recently, coherent control of the optical response of thin films in standing waves has attracted con...
Recently, coherent control of the optical response of thin films in standing waves has attracted con...
Recently, coherent control of the optical response of thin films in standing waves has attracted con...
The exponential growth of telecommunications bandwidth will require next generation optical networks...