Add to ORKGTight control of an optical beam is demonstrated based on self-collimation within threedimensional all-dielectric photonic crystals for which the orientation of the unit cell is progressively varied to direct power flow
Abstract—We analyze, in three dimensions, the dispersion prop-erties of dielectric slabs perforated ...
Self-collimation is a dispersion property of many photonic crystals (PCs), in which light beam can p...
Spatial filtering and collimation of the light beams by the PhCs Spatial filtering and collimation o...
Tight control of an optical beam is demonstrated based on self-collimation within threedimensional a...
Photonic crystals are engineered periodic structures that provide great control over electromagnetic...
In this work, results are given for controlling waves arbitrarily inside a lattice with spatially va...
Metamaterials and photonic crystals are engineered composites that exhibit electromagnetic propertie...
Metamaterials and photonic crystals are engineered composites that exhibit electromagnetic propertie...
International audienceMesoscopic self-collimation offered by mesoscopic photonic crystals can be eff...
© 2015 SPIE. A spatially-variant photonic crystal (SVPC) that can control the spatial propagation of...
A spatially-variant photonic crystal (SVPC) that can control the spatial propagation of electromagne...
Spatially-variant photonic crystals (SVPCs), in which the orientation of the unit cell changes as a ...
We utilize the anomalous dispersion of planar-photonic crystals (PhCs) near the dielectric band edge...
The analysis and simulation result of a 1×3 beam splitter in a two-dimensional square-lattice photon...
Photonic crystals are regular three-dimensional (3D) structures with which the propagation and spont...
Abstract—We analyze, in three dimensions, the dispersion prop-erties of dielectric slabs perforated ...
Self-collimation is a dispersion property of many photonic crystals (PCs), in which light beam can p...
Spatial filtering and collimation of the light beams by the PhCs Spatial filtering and collimation o...
Tight control of an optical beam is demonstrated based on self-collimation within threedimensional a...
Photonic crystals are engineered periodic structures that provide great control over electromagnetic...
In this work, results are given for controlling waves arbitrarily inside a lattice with spatially va...
Metamaterials and photonic crystals are engineered composites that exhibit electromagnetic propertie...
Metamaterials and photonic crystals are engineered composites that exhibit electromagnetic propertie...
International audienceMesoscopic self-collimation offered by mesoscopic photonic crystals can be eff...
© 2015 SPIE. A spatially-variant photonic crystal (SVPC) that can control the spatial propagation of...
A spatially-variant photonic crystal (SVPC) that can control the spatial propagation of electromagne...
Spatially-variant photonic crystals (SVPCs), in which the orientation of the unit cell changes as a ...
We utilize the anomalous dispersion of planar-photonic crystals (PhCs) near the dielectric band edge...
The analysis and simulation result of a 1×3 beam splitter in a two-dimensional square-lattice photon...
Photonic crystals are regular three-dimensional (3D) structures with which the propagation and spont...
Abstract—We analyze, in three dimensions, the dispersion prop-erties of dielectric slabs perforated ...
Self-collimation is a dispersion property of many photonic crystals (PCs), in which light beam can p...
Spatial filtering and collimation of the light beams by the PhCs Spatial filtering and collimation o...