Add to ORKGThe phase of optical beams can be modified by high contrast sub-wavelength periodic structures with gradually varying geometrical features. We present design, simulation, fabrication and characterization of planar micro-lenses shaping the beam of optical fibers
Flat optical devices thinner than a wavelength promise to replace conventional free-space components...
Fiber-optic probes for sensing and biomedical imaging applications such as optical coherence tomogra...
Conventional optics (e.g. lenses or mirrors) manipulates the phase via optical path difference by co...
The phase of optical beams can be modified by high contrast sub-wavelength periodic structures with ...
Adaptive optics methods have long been used to perform complex light shaping at the output of a mult...
We report an efficient dielectric metasurface platform for complete control over polarization and ph...
The authors thank the European Union for the financial support through Marie Curie Action FP7-PEOPLE...
We report an efficient dielectric metasurface platform for complete control over polarization and ph...
Structure at or below the wavelength of light can greatly modify the optical properties of materials...
A new class of planar optical components and devices has emerged using subwavelength metastructures ...
We present design, fabrication, and characterization results of high numerical aperture (NA) micro-l...
We present design, fabrication, and characterization results of high numerical aperture (NA) micro-l...
Structure at or below the wavelength of light can greatly modify the optical properties of materials...
Flat optical devices thinner than a wavelength promise to replace conventional free-space components...
In classical optics, optical components such as lenses and microscopes are unable to focus the light...
Flat optical devices thinner than a wavelength promise to replace conventional free-space components...
Fiber-optic probes for sensing and biomedical imaging applications such as optical coherence tomogra...
Conventional optics (e.g. lenses or mirrors) manipulates the phase via optical path difference by co...
The phase of optical beams can be modified by high contrast sub-wavelength periodic structures with ...
Adaptive optics methods have long been used to perform complex light shaping at the output of a mult...
We report an efficient dielectric metasurface platform for complete control over polarization and ph...
The authors thank the European Union for the financial support through Marie Curie Action FP7-PEOPLE...
We report an efficient dielectric metasurface platform for complete control over polarization and ph...
Structure at or below the wavelength of light can greatly modify the optical properties of materials...
A new class of planar optical components and devices has emerged using subwavelength metastructures ...
We present design, fabrication, and characterization results of high numerical aperture (NA) micro-l...
We present design, fabrication, and characterization results of high numerical aperture (NA) micro-l...
Structure at or below the wavelength of light can greatly modify the optical properties of materials...
Flat optical devices thinner than a wavelength promise to replace conventional free-space components...
In classical optics, optical components such as lenses and microscopes are unable to focus the light...
Flat optical devices thinner than a wavelength promise to replace conventional free-space components...
Fiber-optic probes for sensing and biomedical imaging applications such as optical coherence tomogra...
Conventional optics (e.g. lenses or mirrors) manipulates the phase via optical path difference by co...