Add to ORKGPhotonic crystal line defect waveguides show high group velocity dispersion and slow photon effect near transmission band edge. The group index of the fabricated silicon photonic crystal line defect waveguide is experimentally demonstrated as high as 45 at optical wavelength around 1558 nm. The group velocity dispersion of the fabricated silicon photonic crystal line defect waveguide is as high as 50 ps/nm·mm at wavelength around 1558 nm, which is more than 107 times the dispersion of the standard telecom fiber (D = 3 ps/nm·km). Due to the integration nature of photonic crystals, system-on-chip integration with multifunction including modulation, switching, delay manipulation, and detection can be easily achieved. Further results will be pr...
We propose a silicon-on-insulator (SOI) photonic crystal waveguide within a hexagonal lattice of ell...
We propose a silicon-on-insulator (SOI) photonic crystal waveguide within a hexagonal lattice of ell...
We experimentally demonstrate wideband dispersion-free slow light in chirped photonic crystal couple...
The field of nanophotonics is a major research topic, as it offers potential solutions to important ...
We use a single-defect photonic crystal waveguide with ring-shaped holes to achieve a small group ve...
We report nonlinear measurements on 80 mu m silicon photonic crystal waveguides that are designed to...
We report nonlinear measurements on 80μm silicon photonic crystal waveguides that are designed to su...
We present a summary of our recent experiments showing how various nonlinear phenomena are enhanced ...
We present a summary of our recent experiments showing how various nonlinear phenomena are enhanced ...
We have designed slow light photonic crystal waveguides operating in a low loss and constant dispers...
Photonic crystal slab line defect waveguides with slightly small innermost holes are theoretically e...
Flat band slow light in symmetric line defect photonic crystal waveguides formed by adding dielectri...
We experimentally investigate the slow light enhancement of nonlinear effects such as self-phase mod...
We demonstrate how nonlinear optical phenomena are enhanced by slow light in dispersion engineered s...
We experimentally investigate the slow light enhancement of nonlinear effects such as self-phase mod...
We propose a silicon-on-insulator (SOI) photonic crystal waveguide within a hexagonal lattice of ell...
We propose a silicon-on-insulator (SOI) photonic crystal waveguide within a hexagonal lattice of ell...
We experimentally demonstrate wideband dispersion-free slow light in chirped photonic crystal couple...
The field of nanophotonics is a major research topic, as it offers potential solutions to important ...
We use a single-defect photonic crystal waveguide with ring-shaped holes to achieve a small group ve...
We report nonlinear measurements on 80 mu m silicon photonic crystal waveguides that are designed to...
We report nonlinear measurements on 80μm silicon photonic crystal waveguides that are designed to su...
We present a summary of our recent experiments showing how various nonlinear phenomena are enhanced ...
We present a summary of our recent experiments showing how various nonlinear phenomena are enhanced ...
We have designed slow light photonic crystal waveguides operating in a low loss and constant dispers...
Photonic crystal slab line defect waveguides with slightly small innermost holes are theoretically e...
Flat band slow light in symmetric line defect photonic crystal waveguides formed by adding dielectri...
We experimentally investigate the slow light enhancement of nonlinear effects such as self-phase mod...
We demonstrate how nonlinear optical phenomena are enhanced by slow light in dispersion engineered s...
We experimentally investigate the slow light enhancement of nonlinear effects such as self-phase mod...
We propose a silicon-on-insulator (SOI) photonic crystal waveguide within a hexagonal lattice of ell...
We propose a silicon-on-insulator (SOI) photonic crystal waveguide within a hexagonal lattice of ell...
We experimentally demonstrate wideband dispersion-free slow light in chirped photonic crystal couple...